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+
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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #52378 (https://www.gutenberg.org/ebooks/52378)
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-The Project Gutenberg EBook of Photo-engraving, Photo-etching and
-Photo-lithography in Line and Half, by W. T. Wilkinson
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-
-
-Title: Photo-engraving, Photo-etching and Photo-lithography in Line and Half-tone
-       Also Collotype and Heliotype
-
-Author: W. T. Wilkinson
-
-Editor: Edward L. Wilson
-
-Release Date: June 19, 2016 [EBook #52378]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK PHOTO-ENGRAVING ***
-
-
-
-
-Produced by Chris Curnow, RichardW, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-
-
-
-Photo-engraving, Photo-etching, and Photo-lithography in Line and
-Half-tone; Also Collotype and Heliotype; By W. T. Wilkinson, Revised
-and Enlarged by Edward L. Wilson.
-
-
-
-
-[Illustration: John C. Moss, Prest. R. B. Moss, Supt. M. A. Moss,
-Treasurer. J. E. Ramsey, Secretary. H. A. Jackson, Asst. Secy.
-
-Moss Engraving Co. 535 Pearl St., New York
-
-Illustrations of every Description, FOR BOOKS, NEWSPAPERS, CIRCULARS,
-&c., &c.
-
-Send green stamp for circular. Send photograph, drawing or print, for
-estimate.
-
-our Specialty. Fine Illustrated Circulars by our Moss-Type Process.]
-
-[Illustration: SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE MOSS ENGRAVING
-CO., 535 PEARL STREET, NEW YORK.]
-
-[Illustration: SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE MOSS ENGRAVING
-CO., 535 PEARL STREET, NEW YORK.]
-
-[Illustration: SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE MOSS ENGRAVING
-CO., 535 PEARL STREET, NEW YORK.]
-
-[Illustration: G. CRAMER, ST. LOUIS.
-
-HALF-TONE ZINC ETCHING. (MOSSTYPE.) FROM A PHOTOGRAPH.]
-
-
-
-
- PHOTO-ENGRAVING, PHOTO-ETCHING,
-
- AND
-
- PHOTO-LITHOGRAPHY
-
- IN LINE AND HALF-TONE;
-
- ALSO,
-
- COLLOTYPE AND HELIOTYPE.
-
- BY
-
- W. T. WILKINSON,
- OF LONDON.
-
- REVISED AND ENLARGED BY
-
- EDWARD L. WILSON,
-
- EDITOR OF “THE PHILADELPHIA PHOTOGRAPHER,” AUTHOR OF “WILSON’S
- PHOTOGRAPHICS,” “WILSON’S QUARTER CENTURY IN PHOTOGRAPHY,”
- “PHOTOGRAPHIC MOSAICS,” ETC.
-
- AMERICAN (THIRD) EDITION.
-
- [Illustration]
-
- _The camera is mightier than the pen or the pencil._
-
- NEW YORK:
- PUBLISHED BY EDWARD L. WILSON,
- NO. 853 BROADWAY.
- 1888.
-
-
-
-
- Entered according to Act of Congress in the year 1888, by
-
- EDWARD L. WILSON,
-
- In the office of the Librarian of Congress, at Washington, D. C.
-
- [Illustration]
-
-
-
-
-PREFACE.
-
-
-The many kind letters I have received from America with regard to
-what must be called my first crude effort at bookmaking, prompted the
-idea—after issuing a second and revised edition in England—of making an
-attempt to cater for the inhabitants of Greater Britain, which, under
-the able editorship of MR. EDWARD L. WILSON will, I have no doubt, meet
-with approbation and be useful. I have made many important additions to
-the last English edition.
-
-W. T. WILKINSON.
-
-LEICESTER, ENGLAND.
-
-       *       *       *       *       *
-
-Besides revising the English edition and incorporating in proper place
-such additions as I have found useful in practice, I have boiled down
-the best points from current publications in France and Germany, and
-added them.
-
-More still, with high regard for the author, I add chapters and parts
-from, the _Handbuch der Chemigraphie und Photochemigraphie_, by Mr. J.
-O. Mörch. Thus, I believe, this work is made complete to date. All the
-rest must come to the worker, from industrious, careful practice.
-
-Very rapid progress has been made in photo-reproductive processes
-during the past two years, and improvements are announced almost
-weekly. I invite all interested to keep me informed of what they
-discover. If I am supplied with the proper addresses I shall publish
-and distribute what I learn.
-
-EDWARD L. WILSON.
-
-NEW YORK, May, 1888.
-
-
-
-
-LIST OF ILLUSTRATIONS.
-
-
-The Reversing Mirror . . . 10
-
-The Dark-room . . . 25
-
-The Plate-support . . . 37
-
-The Whirler . . . 42
-
-The Copying Camera . . . 67
-
-Example of Zinc Etching (low) . . . 88
-
-Example of Zinc Etching (high) . . . 90
-
-Example of Zinc Etching (round) . . . 92
-
-The Caliber-bridge . . . 93
-
-The Sieve . . . 98
-
-The Heating Lamp . . . 98
-
-The Washing Table . . . 98
-
-Example of Photo-engraving . . . 117
-
-Example of Half-tone Engraving . . . 118
-
-The Dusting-box . . . 124
-
-The Transfer-board . . . 141
-
-The Drying-oven . . . 167
-
-Support for the Drying-oven . . . 168
-
-Jacket for the Drying-oven . . . 168
-
-Copper Tank for the Drying-oven . . . 168
-
-Interior plan for the Drying-oven . . . 169
-
-A New Drying-oven . . . 174
-
-The Universal Copying Machine . . . 178
-
-
-
-
-CONTENTS.
-
-
- PART I. PHOTO-ENGRAVING IN LINE.
-
-   CHAPTER I.
-   APPLIANCES FOR MAKING PHOTOGRAPHIC NEGATIVES . . . 9
-
-   CHAPTER II.
-   THE WET COLLODION PROCESS . . . 11
-
-   CHAPTER III.
-   PHOTOGRAPHIC MANIPULATIONS . . . 24
-
-   CHAPTER IV.
-   APPARATUS FOR PRINTING UPON ZINC . . . 39
-
-   CHAPTER V.
-   PRINTING ON ZINC IN ALBUMEN . . . 45
-
-   CHAPTER VI.
-   PRINTING ON ZINC IN BITUMEN . . . 48
-
-   CHAPTER VII.
-   DIRECT TRANSFERS TO ZINC . . . 51
-
-   CHAPTER VIII.
-   ETCHING LINE TRANSFERS . . . 55
-
- PART II. PHOTO-ENGRAVING IN HALF-TONE.
-
-   CHAPTER I.
-   RETROSPECTIVE . . . 63
-
-   CHAPTER II.
-   MAKING GRAINED NEGATIVES . . . 65
-
-   CHAPTER III.
-   ETCHING IN HALF-TONE . . . 69
-
-   CHAPTER IV.
-   PRINTING FROM THE BLOCK . . . 72
-
-   CHAPTER V.
-   THE TRANSFER OF THE DRAWING, AND ITS TREATMENT
-   BEFORE ETCHING . . . 73
-
-   CHAPTER VI.
-   HINTS FROM ALL SOURCES . . . 94
-
- PART III. PHOTO-ENGRAVING ON COPPER.
-
-   CHAPTER I.
-   SUBJECTS IN LINE . . . 119
-
-   CHAPTER II.
-   HALF-TONE INTAGLIOS . . . 122
-
-   CHAPTER III.
-   HALF-TONE INTAGLIOS—(_Continued_) . . . 124
-
-   CHAPTER IV.
-   HALF-TONE INTAGLIOS. ELECTROTYPING METHODS . . . 127
-
- PART IV. PHOTO-LITHOGRAPHY IN LINE.
-
-   CHAPTER I.
-   PHOTO-LITHOGRAPHY IN LINE . . . 129
-
-   CHAPTER II.
-   PAPER TRANSFERS . . . 132
-
-   CHAPTER III.
-   PAPER TRANSFERS—(_Continued_) . . . 136
-
-   CHAPTER IV.
-   TOOVEY’S NEGATIVE TRANSFER PROCESS . . . 139
-
-   CHAPTER V.
-   PHOTO-LITHO. TRANSFERS . . . 140
-
- PART V. PHOTO-LITHOGRAPHY IN HALF-TONE.
-
-   CHAPTER I.
-   PHOTO-LITHOGRAPHY IN HALF-TONE . . . 143
-
-   CHAPTER II.
-   INK PHOTOS . . . 144
-
-   CHAPTER III.
-   HUSBAND’S PAPYROTINT PROCESS . . . 147
-
- PART VI. COLLOGRAPHIC PRINTING.
-
-   CHAPTER I.
-  HALF-TONE PHOTOGRAPHIC NEGATIVES . . . 151
-
-   CHAPTER II.
-   THE HELIOTYPE PROCESS . . . 152
-
-   CHAPTER III.
-   THE COLLOTYPE PROCESS . . . 163
-
-   CHAPTER IV.
-   PRINTING FROM THE COLLOTYPE PLATE . . . 171
-
-   CHAPTER V.
-   THE NEW HOME PRINTING PROCESS . . . 178
-
-
-
-
-|xv|
-
-INTRODUCTION.
-
-
-The improvements made within the last twenty years in the art of
-printing books have not, until recently, been kept pace with by the
-methods of illustration. Wood engraving, except for high class and
-expensive editions, was crude, whilst the use of engravings from copper
-or steel, or of lithographs, was also restricted to short and expensive
-editions.
-
-The introduction of the zinc-etching process, in which the picture is
-first drawn in line, or stipple, or chalk, upon lithographic transfer
-paper, then transferred to a plate of zinc and subjected to a process
-of etching in various baths of acid water, marks a new era, replete
-with great improvements in cheapness, facility of production, and
-artistic results.
-
-This new process had scarcely been in good working order before it was
-seen that great improvements might be made by enlisting photography in
-its service; because in its original form it was necessary that the
-design be made of the same size as the finished block, which, in many
-cases, added too much to the expense. But by introducing photography,
-the size of the original was of no moment; the lens could easily reduce
-that, and at the same time preserve the proportions, as well as fine
-down any crudity in the drawing.
-
-The first methods of producing a photo-transfer, were by making
-a negative from the original, then paper coated with bichromated
-gelatine was exposed under this negative, and the sensitive gelatine,
-corresponding with the transparent portions of the negative
-(representing the lines of the original), being exposed to the action
-of light was made non-absorbent of water, whilst the sensitive gelatine
-representing the white portion of the original being protected from the
-action of light by the dark portion of the negative, still retained its
-affinity for water. The consequence was that when a roller charged with
-fatty ink was applied to the wet print, the exposed portions of the
-gelatine took the ink, but the white portion being charged with water
-rejected it, the result being a replica of the original in a fatty
-ink. This was used as an ordinary lithographic transfer and could be
-transferred to zinc and etched in relief. |xvi|
-
-Such a process was not perfect, and was not suitable for subjects which
-necessarily should be to scale. So the next improvement was to place
-a plain mirror between the lens and sensitive plate, so producing a
-negative in its proper position as regards right and left; then from
-this reversed negative a print in fatty ink could be made direct on the
-zinc.
-
-These transfers on paper, or direct prints on the zinc, are restricted
-entirely to what are generally termed “subjects in line,” such as
-architectural drawings, plans, woodcuts, engravings from steel or
-copper plates, or lithographs in pure line, in chalk, or in stipple.
-The attainment of effect of half tones by graduated works of color,
-thinner or thicker, or the smooth, delicate gradations of a photograph,
-are not permissible in relief blocks of this kind, although for
-short numbers this class of subject could be utilized by employing
-the collotype, heliotype, or lichtdruck methods, which render the
-half-tones without (visible) breaking up of the gradations.
-
-The next step was to perfect the various (published first in 1854 by
-Fox Talbot) methods of mechanically breaking up the half-tones of a
-photograph, and so giving a means whereby a photograph in all its
-delicacy may be used to illustrate a letter-press article.
-
-Of course, during the progress of rendering photography applicable for
-relief blocks, its usefulness for intaglio printing was not neglected.
-And now having entered into very close competition with wood engraving
-and by modification of the collotype methods, with lithography,
-photography can now be used for the production of intaglio plates, in
-half-tones as well as in line.
-
-The methods by which the above results are attained furnish the text
-of the pages to follow; and as each and every method given has been
-tried by the author, the reader may be satisfied that the manual is, as
-claimed, _practical_.
-
-W. T. WILKINSON.
-
-
-
-
-|9|
-
-PHOTO-ENGRAVING, ETCHING, AND LITHOGRAPHY.
-
-PART I.
-
-PHOTO-ENGRAVING IN LINE.
-
-
-CHAPTER I.
-
-APPLIANCES FOR MAKING PHOTOGRAPHIC NEGATIVES.
-
-For all methods of heliographic printing a suitable photographic
-negative is absolutely necessary, and to produce that negative good
-apparatus and pure chemicals, used with skill and intelligence, are
-indispensable.
-
-The studio must be well lighted, with a perfectly firm floor. The
-dark-room should be kept for negative work only (the room where the
-zinc printing is carried on being a separate room). There must be a
-roomy sink in front of a good-sized window covered with a non-actinic
-medium (yellow, not orange), such as two thicknesses of golden fabric,
-so as to have plenty of light to see the progress of development by.
-
-The copying camera must have a long bellows and should not be less
-than 12 by 10, fitted with rack-work, so as to be able to get absolute
-sharpness in focussing.
-
-It will be a great advantage, and aid in adjusting the position on the
-focussing screen of the drawings to be copied, if a vertical line be
-drawn, and another horizontally, so that they bisect each other exactly
-in the centre; then _from the centre_, mark and number each inch and
-half inch upon each of the four arms of the cross; it can then be seen
-at a glance not only that the picture is in the centre, but also that
-it is about the right size. |10|
-
-The dark slide must be light-tight, and made strong rather than for
-portability.
-
-The lens should be rectilinear, and should be capable of covering the
-largest size plate the camera will take quite sharp to the corners. For
-a 12 by 10 plate a lens with an equivalent focus of about 18 inches
-will be best.
-
-[Illustration: Fig. 1.]
-
-To the lens must be fitted a reversing mirror of silvered glass,
-mounted behind the lens by preference, as such a style of mounting
-not only protects the surface of the mirror from the air, but keeps
-extraneous light from affecting the brilliancy of the image. (Fig. 1.)
-
-The camera must be mounted upon a solid table fixed upon small grooved
-or flanged wheels, such wheels running either upon rails fixed upon
-or in grooves cut into the floor, at right angles to the wall against
-which the copying board is fitted.
-
-The copying easel is placed perpendicularly in front of, and perfectly
-parallel with, the camera. As a mirror is used, the camera is sideways
-to the object, not facing it, as in copying direct.
-
-The easel should be so contrived that it can be raised or lowered, and
-moved right and left, which double motion is managed by having the
-easel double; the up and down motion should be obtained by hanging
-the back portion like a window sash, the weights being exactly the
-weight of the whole easel, and the pulleys over which the cords go, not
-running too freely.
-
-At the top and bottom of the back portions of the easel are projecting
-strips with a rabbet deep enough to allow the front or copying board to
-slide sideways, but not loosely; this front board should be painted a
-dead black with white lines in the centre from top to bottom and from
-side to side, said lines being divided into inches and half inches,
-from the centre, so that the drawing may be pinned in the exact centre
-without trouble.
-
-A convenient size for a copying board is 4 feet high by 5 feet wide.
-
-In connection with the camera, the only thing left to describe is the
-focussing cloth, which should be quite opaque, and of ample size to
-exclude all extraneous light from behind when focussing.
-
-For focussing the image absolutely sharp, a magnifying glass may be
-required.
-
-
-|11|
-
-CHAPTER II.
-
-THE WET COLLODION PROCESS.
-
-
-THE COLLODION.
-
- Alcohol                      30     ounces.
- Ether                        40     ounces.
- Schering’s Celloidin*       1-1/2 cakes.
-
-          * Hance’s D. C. gun-cotton may be used instead of the
-          celloidin.
-
-Cut the celloidin into thin strips, or, if it be hard, break it up in a
-clean mortar, and dissolve in the above mixture of alcohol and ether.
-When dissolved, this forms the collodion.
-
-
-THE IODIZER
-
-is composed of:
-
- Bromide of Zinc        150 grains.
- Iodide of Zinc         350 grains.
- Alcohol                 10 ounces.
-
-When the salts are dissolved, filter and add to the collodion.
-
-The filtering is best done by placing a pledget of cotton-wool in the
-neck of a glass funnel and passing the iodizer through it. To prevent
-evaporation, lay a glass plate over the funnel.
-
-The iodizer being added to the collodion, shake them up thoroughly
-and allow to stand for a week to settle, then decant into convenient
-bottles; this collodion is ready for use in a week, but will improve
-with age up to six months, after which time it should be mixed with new.
-
-When coating plates with collodion, it is not a wise plan to pour the
-surplus from the plate back into the bottle from which it was poured.
-Pour it into another, kept handy for the purpose, the contents of
-which, at the end of the day’s work, empty into the stock bottle after
-such a quantity as is sufficient for next day’s consumption has been
-decanted into the pourer.
-
-The best bottle from which to pour the collodion upon the plate is the
-tall capped bottle sold by the dealers as collodion pourers. |12|
-
-
-THE NITRATE OF SILVER BATH (1).
-
-The silver bath is a most important factor in the production of good
-negatives. It must be compounded with care and used with skill.
-
-To make it, dissolve 6 ounces of nitrate of silver in 10 ounces of
-water, then add 10 drops of collodion, and shake up well; then add 70
-ounces of water, and let it stand all night; then filter through a
-pledget of cotton-wool packed loosely in the neck of a glass funnel,
-into a clean bottle or jug; then add 1 drachm of nitric acid and let
-stand all night before trying. Such bottle or jug, and also the glass
-funnel, must be kept solely for use with the silver bath.
-
-The bath holder may be an upright vessel of the ordinary pattern,
-with a dipper with which to lower the plate into the solution; or it
-may be a flat dish with a cover to keep out light and dust, using a
-silver hook to lift the plate from the solution; if the former shape be
-chosen, let the dipper be of glass, porcelain, silver wire, or of wood
-soaked in melted paraffine, but on no account of ebonite, as such a
-dipper will cause spots, and derange the bath sooner or later.
-
-If a flat dish be used, the best form is of wood lined with asphaltum,
-hanging on a cradle, the lower end being a well to hold the solution;
-in this form of bath the plate, after sensitizing, is drained
-thoroughly before taking it out. This is a great convenience, as not
-only is silver solution saved, but the dark slide will last much longer.
-
-The bath solution made up as above will be the right strength for
-work, but as every plate sensitized therein, takes away its modicum
-of silver, after a certain time it must be strengthened, as it is
-essential for the production of good work that the solution be kept at
-a proper strength. The best way of doing this is to add a drachm or two
-of saturated solution of nitrate of silver, after each day’s work has
-been done, and if the solution be worked in a flat bath, it will be as
-well to pour it into a jug and filter it before using again; with an
-upright holder, this filtering will only require to be done about once
-or twice a week, as any particles of dust, etc., subside and have not
-the same chance of falling upon the film as in a flat bath; but the
-addition of the silver solution should be made, and the solution well
-stirred up with the dipper.
-
-In course of time a silver bath will become contaminated with organic
-matter from various causes, and can also be supersaturated with ether
-and alcohol—with iodo-bromo or nitrate of zinc, and will either refuse
-to work, or only |13| yield imperfect films and thin images. In such
-cases the best plan will be to take 20 ounces of the solution, dilute
-it with clean water 60 ounces, filter, and add 6 ounces of nitrate of
-silver, and again filter, when a new bath will be the result.
-
-The silver in the rejected portion of the old bath should be
-precipitated as a chloride, by the addition of a solution of common
-salt, the precipitate dried and sent to a refiner, together with the
-ashes of the filtering papers and blotting-paper used to drain the
-plates upon, or to wipe the backs of the plates after leaving the bath
-and before putting them into the dark slide.
-
-The silver solution named above, is suitable for negatives of subjects
-in line, but for the production of negatives with delicate half
-tones, such as portraits, landscapes, or of the many subjects which
-are photographed direct, then it will be necessary to provide another
-bath solution, made and managed in the same way, but only containing
-sufficient nitric acid to just redden litmus paper, as a bath gives the
-finest half-tones when nearly neutral, or only slightly acid. It should
-be remembered that the deepest shadows are represented by clear glass
-in the negative, to insure which would be impossible with the silver
-solution inclining ever so slightly toward alkalinity.
-
-The nitrate of silver bath may be made up with distilled water, if
-pure—that is, if the water is bona fide distilled and not merely from
-waste steam; if this cannot be guaranteed, the best plan will be to get
-a gallon of tap water, dissolve in it one ounce of nitrate of silver,
-then add saturated solution of bicarbonate of soda, until an alkaline
-reaction to litmus paper takes place, then place the lot in white glass
-bottles, and expose to the action of light for three or four days.
-During that time the solution will, first of all, turn black, and
-then will gradually become quite clear, the organic matter—which if
-not removed, would have caused trouble—falling in a black mass to the
-bottom.
-
-Now filter the purified water and use it for compounding the nitrate of
-silver bath, but do not use it for any other purpose.
-
-The strength of a nitrate of silver bath, for line work, should be
-thirty grains of nitrate of silver to each ounce of water, and should
-not be allowed to fall below twenty-five; and for half-tone negatives,
-nitrate of silver should be thirty-five, and not lower than thirty
-grains to the ounce.
-
-Be sure to keep all funnels, bottles, and dishes used for the silver
-bath, separate and distinct from all others, and never use them for any
-other purpose. |14|
-
-
-THE NITRATE OF SILVER BATH (2).
-
-In the ancient days of photography, when, to say it was possible to
-prepare a dry plate nearly as sensitive as a wet collodion plate, was
-to excite the risible faculties of the audience, the above heading
-might almost always be seen in the journals, and the amount of matter
-written under that heading would fill many good-sized volumes. Some
-writers went into the subject in a very elaborate manner, whilst others
-would counsel very simple methods of preparation and management.
-
-The directions given above for making a bath solution for line
-negatives, will, if carried out carefully and cleanly, at once yield a
-solution giving good negatives. After the bath has been mixed, either
-with distilled water, ordinary tap water (_in iron districts tap water
-should not be used_), or water that has been sunned and filtered, as
-soon as the bulk has been made up to the eighty ounces, the solution
-should be put away all night before it is tried, then in the morning
-filter it carefully through a pledget of cotton-wool stuffed loosely in
-the neck of a perfectly clean funnel, into a perfectly clean bottle or
-jug, which must be kept entirely for use of the silver solution. When
-the bath solution has been filtered it should be _perfectly clear_; if
-it is at all cloudy or turbid, the filtration must be repeated.
-
-When the solution is perfectly clear and bright, pour sufficient into
-a perfectly clean porcelain, glass, or papier-maché dish, then take
-a clean plate (polished, or albumenized) and coat it with collodion;
-close the door of the dark-room, and when the film of collodion
-is perfectly set, raise one end of the dish containing the silver
-solution, place one edge of the collodionized plate against the bottom
-of the upper edge of the dish, then drop the plate upon the bottom
-of the dish, and at the same time lower the dish; by this means the
-silver solution will flow in an even wave over the surface of the
-collodionized plate; now place the cover on the dish so as to exclude
-light and dust, and allow the plate to remain in the solution for five
-minutes, then with a silver hook lift the plate from the solution, and
-allow it to drain (remember that no light must get into the dark-room
-except what is filtered through either two thicknesses of golden
-fabric, or one of canary medium); when the plate has drained so that no
-solution drips from it, place it into the carrier of the dark slide;
-then close the dark slide and let it remain there for five minutes,
-at the end of which time remove the plate to the sink, and flood it
-with sufficient developer (page 17) to just cover the film; keep this
-solution flowing, to and fro, over the |15| plate for the space of
-two minutes, then wash it under the tap until the surface is no longer
-greasy; then apply the fixing or clearing solution (page 17) until the
-whole of the yellow bromo-iodide is dissolved away; again wash, and
-take the plate into the daylight.
-
-Now comes the test; if the film is perfectly transparent, and clear as
-the glass itself, the bath is all right; but if there is the slightest
-deposit (which can be removed by lightly rubbing the finger along the
-surface of the film), then the solution will require the addition of
-a little nitric acid. After this stir it well, and after a rest of an
-hour or two try again, repeat the addition of the nitric acid, and try
-a plate; repeat until the film, after developing, washing, and fixing,
-is perfectly clear, and free from deposit and fog.
-
-The bath is now in proper working order, and if reinforced after
-each day’s work with a sufficient quantity of saturated solution of
-nitrate of silver (filtered), kept free from contamination with other
-chemicals, and carefully filtered occasionally, it will remain in good
-working order for at least six months, and then may be renewed by
-treating as directed on page 12.
-
-It will sometimes happen, notwithstanding that extreme care and
-cleanliness is exercised in the management of the bath, that it will
-not work properly, and the reason why cannot easily be discovered. In
-such a case, steps must be taken to put the solution into working order.
-
-In the case of rectifying a disordered bath, there are many methods of
-procedure, but the simplest, and, as a rule, the most certain method,
-is to render the solution alkaline by the addition of liquor ammonia,
-adding the ammonia a little at a time; then, after well shaking, test
-it with red litmus paper and continue the addition of ammonia until
-the red litmus paper is turned blue. In this alkaline condition the
-solution should be poured into a large flat dish, and exposed to the
-action of the sun. That will speedily reduce and throw down in the form
-of a black precipitate, any organic matter that may be in the bath,
-and at the same time the heat of the sun will cause evaporation of the
-ether and alcohol left in the solution by the collodion plates.
-
-The bath solution should be exposed to the sun for two or three days,
-or until such time as suffices to render the solution clear, and the
-precipitate entirely separated out. But this cannot take place unless
-the solution is decidedly alkaline, the presence of acid stopping the
-action of light.
-
-Do not be in a hurry about doctoring a bath solution (in fact, it
-will be far best to have two solutions, one in use and one either
-resting or being doctored), but give the light plenty of time to
-reduce the organic matter, and also to |16| volatilize the ether and
-alcohol; then filter the solution through filtering paper (don’t use
-blotting-paper), as if it is attempted to filter through a pledget of
-cotton-wool the fine precipitate of organic matter quickly clogs the
-wool and stops the filtering.
-
-The doctored solution being filtered, test it with a piece of perfectly
-fresh, blue litmus paper, and add nitric acid, drop by drop—shaking
-well between the additions of acid—until the blue litmus paper just
-turns red. Do not add acid sufficient to make the litmus turn violently
-red, unless the bath is for line negatives, as a bath for half-tone
-negatives must be only just acid, whereas a bath for line work must
-contain more acid.
-
-If the color of the litmus paper shows that the alkali has been
-neutralized, a plate is collodionized, then immersed in the bath for
-five minutes, then drained, and placed in the dark slide, or in a dark
-box for five minutes, then flooded with the iron developer (page 17);
-if, upon the application of this the film should turn black, add more
-nitric acid, stir up thoroughly, then try again, repeating the trials
-until, upon fixing the plate with the solution of cyanide of potassium,
-the film of collodion is left upon the glass plate as clear as it was
-before it was immersed in the silver bath.
-
-A little above here it is stated that less nitric acid is required in
-the bath for half-tone negatives than for line work, and the question
-may well be asked where may the line be drawn? The reply is that, for
-half-tone work, a piece of blue litmus paper should, upon immersion
-into the solution, turn red very slowly, but when the bath is required
-for line negatives the blue litmus may at once indicate the presence of
-acid.
-
-After a bath solution has been renovated in the above manner, it
-should be tested for strength, either by the volumetric method (by
-preference), or by means of the ordinary argentometer sold by the
-dealers, and, if, after testing, the strength is shown to be too
-great, dilute with a sufficiency of sunned water (page 13); and if not
-sufficiently strong, add crystals of nitrate of silver to make up the
-strength to thirty or thirty-five grains per ounce.
-
-A bath solution renovated as above, will generally be found to work
-cleaner, and yield brighter negatives than a new solution, and it
-will also, if carefully used, last longer; but it must be kept up to
-a proper working strength by the occasional addition of a little of a
-saturated solution of nitrate of silver.
-
-The fact that the strength of the silver solution has got too low is
-shown by the presence of semi-opaque, fantastic markings near the thick
-edge of the collodion film, and also in conjunction with the presence
-of organic matter in |17| the deposition under the surface of the film
-of an extremely fine sand-like deposit, which, in the fixed negative,
-develops into myriads of pinholes in the densest portions of the image.
-
-
-THE DEVELOPING SOLUTION.
-
-First purchase seven pounds of commercial sulphate of iron (copperas)
-and put this into a gallon jug, and fill it up with boiling water
-(clean); stir with a clean rod at short intervals for three or four
-hours, then allow to stand until the sediment settles, and the top
-portion of the solution is clear and bright; then decant as much as
-possible into a bottle or bottles, and label “Saturated Solution of
-Iron.” Then again fill up the jar with boiling water, stir until as
-much as possible is dissolved, so as to be ready by the time the stock
-in the bottle is exhausted, and repeat the process until all the
-crystals are dissolved; then wash out the jar, reject the residue, and
-begin again.
-
-But bear in mind that, unless there are crystals left in the solution
-after each addition of hot water, it will not be saturated; therefore,
-before taking the solution into use, be sure there are undissolved
-crystals in the jar.
-
-For use, take of
-
- Saturated Solution of Iron      10 ounces.
- Acetic Acid                      4 ounces.
- Water                           70 ounces.
- Alcohol          1 ounce to 5 as required.
-
-In the above solution, the alcohol is added to enable the developer to
-readily assimilate with the sensitive film, and the quantity requisite
-varies with the age of the silver bath, or, to be more correct, with
-the quantity of plates sensitized therein. At first, little or no
-alcohol will be required, but after a number of plates have been
-sensitized the developer refuses to flow evenly, and seems disposed to
-run over the edges of the plate; this is a sign that more alcohol is
-required, and when more has been added the developer will flow evenly
-as before; but when 80 ounces of developer require over 4 ounces of
-alcohol to make it flow, it is a pretty sure sign that the bath wants
-remaking.
-
-The developer is applied to the plate after exposure, from a
-straight-lipped cup, or glass measure, which should be kept for the
-exclusive use of this solution, as the mixture of any of the other
-solutions with it will at once counteract its working power. |18|
-
-
-THE FIXING OR CLEARING SOLUTION.
-
- Cyanide of Potassium       3 ounces.
- Water                     20 ounces.
-
-This solution is highly poisonous, both in solution and vapor, so it
-ought to be kept in an upright holder, the plate being lowered into
-the solution on a dipper; keep the solution well covered up, so as to
-prevent evaporation as much as possible.
-
-After being in use a short time this solution will become weak and
-should be strengthened by the addition in the evening of a lump or two
-of cyanide and then stirred up with the dipper in the morning; the
-negative must not be left in this solution too long or the density of
-the film will be impaired, but must be removed and well washed directly
-all the yellow iodide has been dissolved.
-
-
-THE INTENSIFIER.
-
-No. 1.
-
- Water                    80 ounces.
- Chloride of Ammonium      2 ounces.
-
-dissolve, then add:
-
- Bichloride of Mercury      2 ounces.
-
-dissolve, and filter.
-
-No. 2.
-
- Liquor Ammonia 0.880      5 ounces.
- Water                    20 ounces.
-
-Solution No. 1 is best kept in an upright holder, as if kept in a flat
-dish there is always the danger of cutting the skin with the glass
-plate and getting the mercurial poison into the system.
-
-No. 2 is kept in a well-stoppered bottle and only sufficient for each
-plate withdrawn as required.
-
-Another method of intensifying, for those who object to the use of
-mercury, is to bleach the negative in a solution of
-
- Ferridcyanide of Potassium (_Red Prussiate of Potash_)    6 parts.
- Nitrate of Lead                                                4 parts.
- Water                                                         80 parts.
-
-dissolve and filter. |19|
-
-When the plate is bleached, wash it thoroughly under the tap, taking
-care that the edges and corners of the film as well as the centre are
-washed, then flood it with a sufficient quantity of
-
- Nitric Acid      1 ounce.
- Water           80 ounces.
-
-Allow this to remain on a few seconds, then wash, and flood with a
-sufficient quantity of
-
- Sulphide of Ammonium      1 part.
- Water                     5 parts.
-
-which will at once turn the film an intense black; again wash, and
-flood with the nitric acid solution, and again wash; then the negative
-is allowed to dry.
-
-This method of intensifying is cheaper than the other, and if the
-washes of acid between and after the other two solutions are carefully
-done, and the stench of the sulphide is not objected to, then there
-is little or no difference in the results; but if the acid washes
-are omitted or (and) the sulphide has not been kept corked, and is
-consequently not fresh, then there is great danger of a brown stain
-upon the lines, which is more or less fatal to getting a good print on
-zinc.
-
-For half-tone negatives, instead of fixing or clearing with the cyanide
-of potassium, the developer is washed off directly, and then they are
-intensified at once by the application of a mixture of pyrogallic acid,
-citric acid, and nitrate of silver, as follows:
-
- No. 1 Solution of Pyrogallic Acid      40 grains.
- Citric Acid                            30 grains.
- Water                                  20 ounces.
-
-As much of this solution as will cover the washed plate is put into a
-small cup, and flowed all over the film, then returned to the cup, and
-a few drops of
-
- Nitrate of Silver      30 grains.
- Water                   1 ounce.
-
-is added. Then the mixture is poured over the film, and rocked to and
-fro for a short time; the intensifier is then returned to the cup, the
-negative held up to the light, and examined, and if not intense enough,
-the intensifier is again applied. Great care is requisite at this
-stage, as if the process be carried on too |20| far the negative will
-be too intense, and will either be spoiled, or take an abnormal time
-to print; practice and observation are the only guides to success. The
-grand rules for half-tone negatives are, collodion free from dust, the
-glass plate clean, the bath at its full strength and in good working
-order, proper time allowed the plate in the sensitizing bath, well
-drained, afterward a good exposure, develop until all details are out,
-then wash thoroughly, intensify with judgment, wash well, fix, and
-again well wash, and then, but never till then, open the dark-room door
-and examine your new negative by daylight.
-
-In making the collodion, soak the celloidin in the ether for about
-twelve hours before adding the alcohol; be sure the ether is at least
-0.725 specific gravity, and that the alcohol is very clean, and free
-from gum. After mixing the collodion and iodizer, shake up well, but do
-not do this before decanting. Always decant sufficient for next day’s
-use, into the bottle used for pouring, over night, so that it gets a
-chance to settle, and allows the air-bubbles to escape.
-
-Keep the collodion in as cool a place as possible, and in decanting it
-be very careful to do it away from fire, or lighted gas or paraffine,
-especially where flame is below the bottle, as ether vapor does not
-rise, but falls.
-
-In hot weather and during long exposures, wet plates are very prone
-to have a peculiar stain upon them, called oyster-shell markings, the
-remedies for which are careful draining before putting them into the
-slide, and covering the bottom of the carrier with clean filtering
-paper, so that the silver solution, on draining down, is absorbed by
-the bibulous paper instead of going back up the plate by capillary
-attraction.
-
-In hot weather the back of the plate, when put into the dark slide,
-should be covered with a wet piece of red blotting paper, or orange
-calico, _but not white_; a wet cloth laid in the camera will also tend
-to keep the plate moist. These precautions, however, are not required
-unless the exposure is likely to exceed a quarter of an hour.
-
-
-PROTECTING THE COLLODION FILM.
-
-A collodion film, when dry, is very delicate, and, except for line work
-in the hands of an expert, will require protecting. This is usually
-done by slightly warming it (when quite dry) in front of a fire, and
-then pouring over a sufficient quantity of thin spirit varnish. After
-the superfluous varnish is well drained off, dry by again holding it
-in front of the fire. The spirit |21| varnish answers perfectly for
-ordinary work, but for printing upon metal for relief blocks, or upon
-glass for collotypes, it will be best to use a benzole varnish, such
-as is sold by dealers for protecting the films of glass positives or
-ferrotype pictures. Anthony’s “diamond” varnish is good.
-
-But the best plan of all is to use a water varnish, made by dissolving
-half an ounce of borax in a quart of boiling water, then adding a few
-pieces at a time (stirring meanwhile), one pound of ordinary shellac;
-if the quantity of borax named does not suffice to make all the shellac
-dissolve, add more, a grain at a time, until the shellac is dissolved;
-then add half an ounce of white sugar, cool and filter it.
-
-When the negative is washed for the last time, allow it to drain, then
-flood with the above solution, and let it dry. This will be found
-a quicker, cleaner, and more satisfactory method of protecting the
-delicate film than with the spirit varnish.
-
-
-THE GLASS PLATE.
-
-_The glass_ used as a support for the collodion film should be thin
-flatted crown of the best quality, for the negatives, as a rule, are
-not required again after once the zinc is etched, so that the film may
-be washed off, and the glass used again, which cannot be done so often
-if the glass be of bad quality; flatness is a _sine qua non_, as it has
-to be subjected to heavy pressure between a zinc plate and the front
-glass of a printing frame.
-
-As a good and suitable negative is the foundation of success in
-the subsequent processes, so is a properly cleaned glass plate the
-foundation of a successful negative; unless the glass is chemically
-clean, the collodion film will either be stained or marked, or it
-will split off in drying, therefore care and attention are requisite;
-even in preparing a piece of glass for the reception of the film of
-collodion care is especially requisite, as the want of it cannot be
-seen until after all the operations, therefore the labor and time are
-not thrown away.
-
-There are two methods of cleaning the glass plate: one quite
-mechanical; the other is a mixture of the mechanical and the chemical.
-Both are good. The second is perhaps the best, as it is simple and more
-certain.
-
-In the first method the glass, when new, merely requires polishing with
-clean wash leather kept for this purpose.
-
-The best way of doing this is on a flat board 24 by 18 inches, or
-thereabouts, |22| covered with good American oil-cloth, glazed side
-out. A plate laid upon this will not slip about when being polished.
-
-Both sides and edges of the plate must be well cleaned, as one of the
-most prolific causes of derangement of the silver bath is from organic
-matter introduced by imperfectly cleaned glass plates.
-
-One side of the plate, if gently rubbed with the thumb nail, will be
-found smoother than the other, and is the suitable side for the support
-of the collodion film; this side is polished with the leather until,
-upon breathing gently upon it, the film of moisture is quite free from
-marks or streaks, not only in the centre but at the sides and corners.
-
-It is absolutely necessary that the plate be chemically clean all over,
-else the film of collodion, upon drying, will split, and the negative
-be spoilt.
-
-When the plate is clean, an edging of India-rubber dissolved in
-benzole, about an eighth of an inch wide, is run all round the edge,
-by means of a small camel’s-hair brush tied to a stick, the end of the
-stick being level with the point of the brush. The stick acts as a
-guard against the brush going too far from the edge.
-
-In the second method, the new glass plate is soaked an hour or two in a
-mixture of 5 ounces of common spirits of salt (hydrochloric acid) in 80
-ounces of water. After both sides of the plate are rubbed with a rag,
-and well washed under the tap, it is put in a dish of clean water. When
-all the plates have been so treated, they are taken out singly, again
-well rubbed on both sides with another rag, and well washed; then the
-smoothest side having been selected, it is twice flooded with a mixture
-of albumen and water, draining the surplus into the sink each time of
-flooding. The plate is then placed upon a rack to drain and dry; the
-drying should be effected in a current of hot air freed from all dust.
-
-The albumen mixture is composed of the white of one egg well beaten,
-then diluted with 40 ounces of water and ten drops of liquor ammonia
-added, and again beaten. It must then be very carefully filtered
-through cotton-wool, and used as above.
-
-In placing the albumenized plates upon the drying rack, care must
-be taken to face the coated sides all one way, as when dry there is
-nothing to indicate to the eye which is the back and which the front.
-
-The albumenized plates, when dry, should have the backs cleaned with a
-cloth or a leather before using, so as to clear away any albumen which
-may have adhered during coating. |23|
-
-Albumenized plates stored in a dry place will keep good for months,
-_and do not require any edging with India-rubber_, as the most horny
-collodion film will not split off an albumenized plate.
-
-Glass plates that have been used, and not varnished, are freed from the
-films by being immersed in a mixture of hydrochloric acid and water for
-a few hours, then washed under the tap, well rubbed with a rag, and
-put into clean water, from which they are taken singly and coated with
-albumen; or they may be allowed to dry, and are then polished by means
-of the wash leather.
-
-Negatives that have been varnished are cleaned by first immersing in
-a hot solution of common washing soda until the film comes off, then
-wash them under the tap, rubbing well with a rag, then immerse them in
-the acid solution so as to neutralize the alkali. Finally they may be
-treated as above.
-
-The films that are removed from the glass plates must not be thrown
-away, but should be carefully collected, dried, and sent to a refiner
-with the other silver waste; a good plan for saving these films, and
-at the same time keeping the acid and soda solutions clear of them, is
-to filter each solution occasionally through an old felt hat suspended
-conveniently over the tanks, using one for each of the tanks.
-
-The polishing of the glass plate must not be done in the dark-room,
-or the crop of comets, spots, etc., upon the negatives will be
-exasperating in the extreme; let this operation be conducted in a
-clean, quiet corner of the studio, where no other operation will
-disturb, and where the fluff from dusters and leathers will not
-interfere with anything else.
-
-
-|24|
-
-CHAPTER III.
-
-PHOTOGRAPHIC MANIPULATIONS.
-
-The chemicals being prepared, they must be placed in the dark-room; the
-collodion bottle should be placed on a convenient shelf close to the
-door, and on a handy peg hang a broad camel’s-or badger-hair brush, for
-dusting the clean plate just previous to coating it with collodion; the
-brush must not be used for anything else upon any pretence whatever.
-The silver bath must be kept, both in use and out of use, in some
-convenient corner, where there is no risk of getting any other chemical
-splashed into it. For a bath holder a deep 15 by 12 porcelain or papier
-maché dish, with a wooden or stout cardboard lid, should be provided,
-and this dish must always be thoroughly washed, and wiped dry with a
-clean damp leather (kept for the purpose), both before use and after
-pouring the silver solution back into its bottle or jug. Or, if the
-upright form be preferred, be sure and have it large enough.
-
-The developer should be placed on a shelf, on the right of the sink,
-the developing cup close by.
-
-The fixing or clearing solution should be kept in an upright bath of
-glass, porcelain, or ebonite.
-
-The intensifier No. 1 may be kept in a flat dish, or in an upright
-holder, at discretion; but if in a flat dish, the solution should be
-poured back into its bottle, after each day’s work.
-
-Keep the intensifier No. 2 in a stoppered bottle close to the sink.
-
-The water varnish also is kept in a bottle or jug.
-
-On a shelf close to the collodion, the polished or albumenized plates
-may be stacked, with the clean or prepared side facing the wall.
-
-A pneumatic holder for attaching to the back of the plate during the
-operation of coating with collodion will be found very handy.
-
-Of course, it is thoroughly understood that there is a sink in the
-dark-room, and a good water supply is indispensable.
-
-Then, again, the window through which the light is transmitted, must
-be |25| covered with a non-actinic medium, such as two thicknesses of
-golden fabric, or one of canary medium; do not stint the amount of
-light, but have as much as possible, so long as it is non-actinic.
-
-No arbitrary plan for the dark-room need be followed, but the novice
-will find the annexed plan useful to him in contriving for himself. It
-is self-explanatory.
-
-[Illustration: Fig. 2.]
-
-Everything being in readiness, we will now proceed to make a line
-negative, reserving a description of half-tone work to follow.
-
-To begin: wash the bath holder thoroughly, and wipe it dry, then pour
-into it sufficient silver solution to make the depth about half an
-inch; dust the inside of the cover, and put it over the dish; now take
-a clean glass plate, if it be polished, see that it is edged with
-India-rubber, and if albumenized, be sure and clean the back—and attach
-it to a pneumatic holder; then with a broad camel’s-or badger-hair
-brush (kept for this purpose only) remove any particles of dust,
-back and front; now hold the plate in a horizontal position and pour
-upon it, toward the right hand corner furthest away from the body, a
-little more collodion than it is judged will be sufficient to cover
-it; let the collodion run to the corner, then incline the plate to the
-left, and the collodion will run into the upper left-hand corner. Now
-by inclining the plate toward the body the collodion will flow into
-the lower left-hand corner, and thence it is guided into the funnel
-placed in the bottle prepared for its reception; during the time that
-this surplus is draining, the plate must be gently rocked sideways,
-so that the lines formed by the collodion, in draining, are merged,
-leaving the film quite homogeneous. As soon as the collodion ceases
-to drip, release the plate from the pneumatic |26| holder, and touch
-the lower ridge of the collodion; if it is quite set, close the door
-of the dark-room, remove the lid from the bath holder, then—holding
-the plate in the left hand—with the right hand raise the end of the
-bath holder, as far as is possible without risking any of the silver
-solution running over the end of the dish resting on the bench; now
-lay the plate (with the collodion side up) on the bottom of the dish,
-then drop the plate into the solution, and, at the same time, lower the
-end of the dish held up by the right hand, which will cause the silver
-solution to flow in one even wave over the collodionized surface. This
-operation must be done with dexterity, as if the silver solution does
-not flow in an even wave the film will be marked, and, in the case
-of a half-tone negative, the image will be spoilt. Therefore, it is
-necessary to see that the plate and dish are lowered simultaneously, so
-that the solution goes over the collodion film in one steady wave. If
-the upright bath holder be used, the plate is placed upon the ledge of
-the dipper, and lowered slowly and steadily into the solution.
-
-The plate will require an immersion of about three minutes for proper
-sensitizing, and this interval—the bath being covered up to prevent
-the access of white light—may be utilized to give the final adjustment
-to the camera, and to see that the drawing or print to be copied is
-properly in focus.
-
-Use a medium diaphragm in the lens for focussing, and examine the
-image all over before deciding that it is sharp. Focus by preference
-about halfway between the centre of the picture and the edges, and
-then, after moving the rack to and fro until the proper sharpness is
-obtained, take out the diaphragm and substitute the smallest sent out
-with the lens; or if the picture to be taken be small and from a large
-original, then the second, or third, smallest diaphragm may be used.
-
-Now remove the focussing screen from the camera (note that the ground
-side of the glass has been next the lens) and place the cap upon
-the lens; close the door of the dark-room, open the dark slide, see
-that the proper carrier is in it, then raise the plate from the bath
-slowly, using a silver-wire hook for the purpose. If the solution flows
-evenly over the film, the plate is ready; but if, on the contrary,
-the solution flows greasy, then again lower the plate and rock the
-dish gently for a minute or two. The film being fully sensitized, the
-plate is carefully lifted out of the solution, both hands holding
-the plate in such a manner as to avoid touching the film; allow the
-solution to drain from the plate as much as possible, then lean the
-plate against the wall, the lower end resting upon a pad of clean
-blotting-paper, so as to catch any further draining; |27| now with a
-pad of blotting-paper or papier-joseph wipe the back of the plate as
-dry as possible; this will prevent stains, and keep the dark slide from
-rotting by the action of the silver solution.
-
-The plate being drained, lay a piece of thin filtering paper in each
-lower corner of the carrier, so that the plate will rest upon the
-filtering paper, which will catch any further drainings from the film,
-and be a safeguard against stains.
-
-Now lay the plate face down in the carrier of the dark slide, close the
-door, and fasten it.
-
-The dark slide is now carried to the camera, and inserted in the
-grooves previously occupied by the focussing screen, taking care that
-the sliding shutter is next the inside of the camera; when pushed quite
-home, cover the back with the focussing cloth; pull out the shutter,
-when the plate is ready for the exposure.
-
-The time of exposure will vary very much with the time of the year, and
-with the amount of light falling upon the object being photographed.
-The exact time can be found out only by actual practice, but the
-operator, in time, by observation, will be able to guess it pretty
-correctly.
-
-In taking the cap off the lens, be sure that the camera is not shaken,
-else the picture will be spoilt.
-
-The exposure being made, close the sliding shutter, remove the slide
-to the dark-room, and close the door; lay the dark slide (with sliding
-shutter down) upon the bench, open the back shutter, and, placing the
-pneumatic holder in the centre of the plate, lift it out of the carrier.
-
-Take the plate to the sink, and holding it face up, in the left hand,
-take the developing cup in the right, and, with a quick motion,
-pour over the plate sufficient developer to cover the whole film;
-the developer must go all over the film in one even wave, for any
-hesitation in this will result in a stain; pour upon the film only
-sufficient to cover it, and be careful to spill as little as possible
-into the sink, or else the image will be thin, on account of the
-absence of free silver washed off by the wave of developer.
-
-Now rock the plate gently, so as to keep the developer flowing to and
-fro over the film (but keep it there, don’t spill it off) and the
-image will soon appear, faint at first, but growing gradually darker,
-the black lines of the drawing being white and the white paper black.
-If the development be continued too long the lines will eventually
-be veiled; therefore, as soon as the finest details are out and well
-defined, place the plate under the tap and allow |28| the water to
-well sluice the film all over; as soon as it is properly washed, which
-can be seen by the water flowing evenly over, without greasy looking
-lines, hold the negative up in front of the window, and examine for
-spots or stains. If there be any present that at all interfere with the
-picture, at once reject the negative, placing it in a pan filled with
-water, to be washed off at leisure. Then start afresh.
-
-The negative being satisfactory, give it another rinse under the tap,
-and place it in the cyanide bath, where the unaltered iodide will
-speedily be dissolved. Then it is withdrawn, and well washed under
-the tap. Whilst the water is washing over the front, rub the back
-with the fingers or a sponge, and then turn the plate over and allow
-the water to wash the back also. It is now ready for immersion in the
-intensifier No. 1, where it remains until the film is bleached almost
-white. Then it is thoroughly washed, drained, and flooded with a small
-quantity of intensifier No. 2, which will at once turn the film to an
-intense black, or if the action does not penetrate through to the back
-of the film, continue the application until it does; again wash, then
-place the negative on a rack to drain. When the water ceases to drip,
-flood the plate twice with the filtered water varnish. Then place the
-negative on the rack to dry. When dry, it is ready for printing on
-zinc. The negative may be varnished with a benzole varnish, sold by
-the dealers under the name of positive or ferrotype varnish. Negative
-varnish may be used, but unless very thin it is apt to be sticky and
-render the negative easily marked by the heavy pressure it is subjected
-to in the printing-frame.
-
-Now lay the finished negative face down upon a piece of clean white
-paper, when, if it is a good one, all the details of the original will
-show through, clearly and distinctly; but if any of the details are
-missing or veiled over, the negative will not do, and another must be
-made.
-
-This process does not always work satisfactorily, but with care and
-cleanliness no serious fault should arise.
-
-Sometimes the bath may give what are called foggy images, which are
-indicated by a veil over the lines. These can often be wiped off with
-a pledget of cotton-wool. The addition of half a drachm of nitric acid
-to the eighty ounces of bath solution, thorough mixing, and a rest for
-a few hours, will end this difficulty. If the dark-room window be not
-of the proper color, fog will ensue; therefore, the non-photographic
-experimentalist had better call in the aid of a professional
-photographer in case of any difficulty in getting clear negatives.
-
-_Wilson’s Photographics_ will be a profitable investment, as it was
-published |29| before the advent of dry-plate photography, when the
-wet process reigned supreme.
-
-At the end of each day’s work the silver solution should be carefully
-poured into the jug or bottle, and allowed to stand all night; then in
-the morning, just before using, it should be filtered. The dish also
-must be carefully washed out and put away in a corner where it has no
-chance of being soiled.
-
-Such are the manipulations necessary for the production of a negative
-from a line subject—_i. e._, a drawing in black and white, in which the
-whole of the picture is obtained by means of lines, or stipple, or by
-cross hatching. Flat washes of color not being permissible, all effects
-of half tones, etc., are obtained by lines, either thicker, or thinner,
-or closer, or further apart. Such a negative is available for printing
-from, direct upon zinc, in either albumen or in bitumen, for etching
-into relief, or for printing from as a lithograph.
-
-
-THE USE OF GELATINE DRY PLATES IN PHOTO-ENGRAVING.
-
-For making negatives for collographic printing either direct or by
-transfer, gelatine dry plates may be used with as much certainty as the
-wet collodion, so long as the operator can produce a result giving all
-the gradations of tone, from the deepest shadow to the highest light;
-and as there are so many excellent brands of plates in the market,
-it would be worse than useless to name any brand here as having any
-distinct advantage over the rest, more especially as the brand that
-the writer would be inclined to name, would perhaps, by the majority
-of readers, be classed as a plate that they could not work. This being
-so, for half-tone negatives, the author leaves the choice of the plate
-and the manner of working to the operator, contenting himself with
-saying that the criterion of suitability of a negative for yielding
-good results by any of the processes treated of in this book, leaving
-out of the question entirely negatives for line work, etc. (treated of
-in Parts I., II., and III.), is the same for giving soft, delicate, and
-brilliant prints, either in platinum, carbon, or on albumenized paper,
-resting assured that a negative yielding a hard black and white, or a
-dirty flat print, by any of these three methods, will not give results
-any different in collographic or transfer methods.
-
-For line work negatives for printing upon zinc, for etching, or for
-transfers to stone, ordinary gelatine dry plates are not useful, as
-it is almost impossible to get that freedom from veil over the lines
-that it is absolutely necessary to have; here the wet collodion is best
-as it is simplest, easiest, and cheapest. |30| Still there are times
-when the most ardent wet-plate worker is obliged to confess that the
-process has its shortcomings, most especially in dull weather, when it
-is necessary, to get the result required, to give exposures from thirty
-to sixty minutes; then, what with the plate drying and the want of
-pluck from the bad light, it is impossible to get a result suitable for
-the work. In this case the plate called the “Process” plate is a great
-boon. It is fairly rapid, and gives intense negatives, without veil on
-the lines.
-
-For making transparencies same size of original negatives, the best
-plan is to place a large sheet of white paper in front of the copying
-camera, and rack the lens out of focus, taking care that the white
-sheet of paper is sufficient to illuminate the full size of the plate.
-Then in the dark-room place the negative in the carrier of the dark
-slide, film side up, and carefully dust the surface (also seeing that
-the back of the negative is clean) with a clean camel’s-hair brush;
-dust also the film of a gelatine dry plate, and place it face down
-upon the negative, close the slide, and insert it into the grooves of
-the camera and expose to the light reflected through the lens from the
-white sheet of paper for from five to twenty seconds, according to the
-density of the negative and the intensity of the light; close the lens
-and the shutter, and remove it into the dark-room for development.
-
-By exposing a plate in this manner there is a far better chance of
-getting absolute contact between the two plates, as the rays of light
-are parallel.
-
-For making transparencies for printing upon copper-plates, first of all
-make a grained negative the proper size, then when this is varnished
-and touched up, make from it as above a transparency upon a gelatine
-chloride dry plate, by which process it is more certain to get a
-suitable result for the process than on a gelatine bromide dry plate.
-
-No formula will be given here for developing these gelatine chloride
-plates as each packet has full instructions for development which must
-be followed implicitly.
-
-For developing gelatine bromide dry plates for negatives, or for
-transparencies, the following, a modification of the Ilford formula,
-will be found better than using formula where the ammonia and bromide
-are mixed together.
-
-
-_Solution No. 1._
-
- Pyrogallic Acid             1 ounce.
- Meta Bisulphate of Potash   1 ounce.
- Bromide of Potassium        1 ounce.
- Water                      80 ounces. |31|
-
-
- _Solution No. 2._
-
- Liquor Ammonia    1/2 ounce.
- Water              10 ounces.
-
-For a normal exposure equal parts of these are mixed just before using,
-and for an uncertain exposure begin with two parts of No. 1, one part
-of water, and one part of No. 2.
-
-
-THE REPRODUCTION OF NEGATIVES.
-
-For the production of suitable collotype prints, the first
-consideration is the negative, from which the printing surface is to
-be made. The requirements are, a negative in which all the half-tones,
-both in the lights and in the shadows, are reproduced in their proper
-gradations; the lights must not be too dense, or the shadows too clear;
-the blackest portion of the negative must be that part representing
-the highest light, and the only clear glass, that which represents the
-deepest shadow; these negatives may be either wet collodion, or on
-ordinary gelatine-bromide plates and reversed—_i. e._, the mirror must
-be used behind the lens. If it is desired to produce a collographic
-block from a negative already in existence, and which may not be
-retaken, then it will be necessary to make another negative. This may
-be done in many different ways; but whichever way is adopted, the first
-and most important step is the production of a transparent positive.
-
-This transparent positive may be made on an ordinary gelatine-bromide
-plate, or on a gelatine-chloride plate, and then from the transparent
-positive a negative is made by transmitted light (in the enlarging
-camera), either the same size, reduced or enlarged in size; or instead
-of using this class of transparency, by far the finest results can be
-got by making the transparency in carbon tissue, which can be used for
-both transmitted light, for enlarging or reduction in size, and it can
-also be used for contact printing, when the reproduced and reversed
-negative is required to be the same size as the original.
-
-On page 29 directions are given for the manipulations when gelatine dry
-plates are used, so here we will confine ourselves to the production
-of negatives from the carbon transparency. First of all, procure some
-carbon transparency tissue, ready sensitized, cut this into sizes at
-least half an inch larger all round than the negative, then cut a brown
-paper mask to fit all round the negative, and to protect the margin
-of tissue from the action of light; this acts as a safe edge to the
-tissue, enabling it to adhere to the glass support during the operation
-of development. If it is only intended to reproduce a portion of the
-|32| original negative, the safe edge may be made by putting the mask
-just round that portion of the image, but if the whole of the negative
-is required, put it in a printing frame with a plate glass front, fix
-the brown paper mask outside the negative, then place the sensitive
-carbon tissue the black side next the negative film, and put in the
-backing, and back, and fasten it up. Next expose it to the light for
-four or five times the time requisite to get an ordinary silver print.
-
-The carbon tissue having been exposed to light for the proper time, it
-is taken into the dark-room, the edges are turned up so as to form a
-dish, and pinned upon a small board; it is now coated with thin plain
-collodion, the surplus being poured into a bottle kept for the purpose,
-and the board gently rocked to and fro, so as to prevent the collodion
-running in ridges, or streaks. Now allow the collodion to dry, then
-place the coated and exposed tissue in clean cold water until it is
-quite limp, then slide underneath it a gelatinized glass plate a little
-larger all round than the tissue, bring the gelatinized surface of the
-glass plate and the collodionized surface of exposed tissue in contact
-under the water, taking great care not to abrade the collodion; then
-lift the two out and lay the glass down upon a bench, and cover it over
-with a piece of thin India-rubber, or mackintosh, or oil-cloth. Hold
-the cover firmly on the bench with the left hand; with the right use a
-strong squeegee vigorously. That will expel all the water from between
-the two surfaces (collodion on the tissue, and gelatine on the glass),
-and so bring them into absolute contact; now remove the cover, lift the
-plate and examine the tissue through the glass, and if there are no
-air-bells between the two surfaces the operation has been successful;
-but if air-bells are present, _at once_ plunge the plate into cold
-water, strip off the tissue, and try again, but be careful to be quick
-about it, or there is a risk of the tissue absorbing too much water, in
-which case great difficulty will be experienced in getting it to lie
-flat upon the gelatinized glass.
-
-The gelatinized plate upon which the exposed and collodionized tissue
-is mounted is prepared as follows: Glass plates free from scratches and
-stains, are placed in a weak mixture of hydrochloric acid and water,
-and rubbed with a clean rag until free from grease and dirt; they are
-then washed under the tap, and whilst wet are covered with:
-
- Gelatine                  1 ounce.
- Water                    20 ounces.
- Bichromate of Potash     15 grains. |33|
-
-Soak the gelatine in the cold water until it is soft, then melt at
-gentle heat, add the bichromate, and when dissolved, filter, and coat
-the cleaned plate two or three times, throwing the surplus away each
-time of coating; now stand the coated plate on a rack to dry. Any
-quantity of these plates may be prepared at a time, and used when
-required. When all the batch has been coated, the rack may be removed
-into a warm corner, free from dust, until the plates are dry, then
-expose the plates to the light for at least twenty minutes, when
-they are ready for use for mounting the exposed and collodionized
-transparency tissue upon.
-
-After the tissue is mounted upon the glass plate, it is allowed to
-stand a few minutes, then it is placed in a dish containing hot water
-(100° F.), and as soon as the tissue compound shows signs of dissolving
-by exuding from under the paper, lift the paper away, then rock the
-dish, and, if necessary, add more hot water; then raise the plate and
-gently lave it with the hot water, until the whole of the soluble
-pigmented gelatine is washed away, leaving a transparent positive on
-the glass, which merely requires washing under the cold water tap, and
-drying, to be finished. Now examine it closely, and if it contains the
-whole of the details in the negative, and is free from dust spots, it
-may be put away to dry, but if underexposed, or overexposed, or marred
-by spots not in the original, then another must be done; but if care is
-taken to dust the surface of the tissue, and the film of the negative
-with a camel’s-hair brush before printing, and before collodionizing,
-and also to see that both the collodion and the gelatine mixture are
-properly filtered, and that the water in which the coated and exposed
-tissue is soaked is free from dirt, then there will be no difficulty in
-getting a perfect transparency.
-
-The transparency being obtained, if it is desired to make a negative
-larger or smaller than the original, the transparency is placed in the
-enlarging camera with the carbon film inside, and the negative made the
-requisite size, either on a dry plate or on a wet collodion plate.
-
-If a negative the same size is required, the transparency is placed
-face up in the carrier of the dark slide, and the surface dusted; then
-take a dry plate, and having also dusted its film, place it face down
-in contact with the transparency, then close the dark slide and remove
-it to the camera, which should be previously adjusted opposite a large
-sheet of white paper; now put in the dark slide, draw the shutter, and
-expose to the sheet of paper, and develop as directed on page 30.
-
-By exposing in this manner, instead of direct to the light (day or
-gas), the |34| rays projected through the lens fall upon the dry plate
-quite parallel, so securing sharp negatives.
-
-In making reversed negatives for collographic printing when wet
-collodion is used, it is not absolutely necessary to use the mirror, as
-they may be made upon polished glass (_i. e._, not albumenized) dried,
-then coated with gelatine, again dried, and stripped.
-
-Some brands of dry plates can also be stripped, by first of all, after
-drying, coating them with India-rubber solution, then with collodion,
-and soaking in dilute fluoric acid; but great care and patience must
-be exercised, the preliminary trials being made upon negatives of no
-particular value.
-
-
-STRIPPING COLLODION FILMS.
-
-Negatives made by the wet collodion process can be easily stripped
-from the glass support, and in such a condition are extremely handy,
-especially for printing on collographic plates, or on zinc or copper,
-as, the film being flexible, contact is more easily secured.
-
-When it is intended to strip the film, the glass plate must be
-polished, _not albumenized_, and after the negative is dried, strips
-of thick paper are pasted along the four sides of the negative, with
-starch, or a solution of gum tragacanth; the negative is then placed
-on a levelling stand and a sufficient quantity of the following warm
-solution of gelatine is poured upon the plate (which should be slightly
-warmed first) and spread all over it by means of a glass rod:
-
- Gelatine    2-1/2 ounces.
- Sugar       1-1/2 ounces.
- Water      20     ounces.
-
-Soak the gelatine in the water until soft, melt by gentle heat, then
-strain through two or three thicknesses of fine muslin, and pour upon
-the plate, using three ounces for a plate 12 × 10; more or less, in
-proportion for different sizes. The plate must be allowed to stay upon
-the levelling stand until the gelatine has quite set, then put it on a
-rack to dry, in a current of cold air, for if heat be used the gelatine
-will melt.
-
-When the gelatine is _quite dry_, pass the blade of a penknife all
-around underneath the strips of thick paper, when the negative film may
-be lifted away from the plate.
-
-In this condition the negative may be stored away without risk of being
-broken, the only condition being, it must be kept free from dampness.
-|35|
-
-Another plan of stripping is to coat the dry negative with a thick
-solution of India-rubber in benzole, and allow it to dry on a levelling
-stand; then coat with a thick plain collodion, to which a few drops of
-castor oil have been added. When the collodion film is quite dry, place
-the plate in a dish of clean water, strip off the film from the glass,
-then place the film between sheets of clean blotting-paper to dry, or
-it may be allowed to dry on the plate.
-
-Old collodion negatives that have been varnished may be stripped, but
-it is rather a risky operation, and should never be attempted until a
-really good carbon transparency has first been obtained.
-
-The first step will be to remove the varnish, which is effected by
-soaking the plate in
-
- Alcohol    1 part.
- Ammonia    1 drachm.
-
-until all the varnish is removed, then rinse in alcohol, wash well
-under the tap, dry, paste slips of brown paper around the margin, and
-finally level and cover with the warm gelatine, dry and strip.
-
-
-THE REVERSING MIRROR.
-
-The mirror is a piece of perfectly plane glass, coated on the surface
-with a thick film of pure silver, and highly polished. This silvered
-glass must be mounted in a mahogany box, and fitted on the front of the
-camera, the lens being fitted in front of the mirror, see Fig. 1. This
-mirror is placed in grooves at an angle of forty-five degrees from the
-axis of the lens. So situated, it receives the image projected by the
-lens, and reflects it on the focussing screen, or sensitive plate in
-the camera. By this means a negative is obtained, which, when looked
-through with the film between the operator and the glass, will present
-the image in its proper position, whereas, if the lens be used without
-the intervention of the mirror it will be necessary to have the glass
-between the eyes and the film, to get the image in its proper position,
-and as the generality of photographic negatives are taken without the
-intervention of the mirror, they are called ordinary negatives in
-contradistinction to those made through the mirror, which are called
-“reversed” negatives.
-
-The silver surface of the mirror requires great care and attention to
-preserve its lustre. If tarnished, it will make the exposure in the
-camera longer, besides which, the cost of resilvering is too great to
-allow of the surface being spoiled through carelessness. |36|
-
-At the end of each day’s work, remove the mirror from the box and warm
-it in front of the fire (not over a gas flame) just slightly, then wrap
-it carefully in a piece of fine velvet, which has also been previously
-warmed, then wrap it up in a piece of India-rubber or macintosh cloth,
-and put it in an air-tight box; by doing this, the mirror, if well
-silvered at first, will last for a year or two.
-
-If the surface should become tarnished, get a square of very fine
-chamois leather, and place in the centre a pellet of cotton-wool; then
-gather up the leather and tie the wool in the centre, making a small
-globe about an inch and a half in diameter; now warm the mirror, and
-after dipping the leather globe into fine rouge, proceed to polish
-gently with a quick circular motion, using little or no pressure—take
-care in doing this that the mirror, the leather, and the rouge are
-quite dry, else the silver coat will come away—_verb sap_.
-
-In purchasing a mirror be sure and get it large enough to take the cone
-of rays from the lens it has to be used with; for a lens three inches
-in diameter, the plane mirror should measure about 8 × 3-1/2 inches.
-
-The box to hold this mirror should be made square at the side, fitting
-into the rabbet of the camera front, so that when objects are to be
-photographed that will do better lying on the ground than when fixed
-against the wall, the mirror can be placed to look down upon the object.
-
-For silvering the glass, one cannot do better than to quote the
-directions for working Common’s process given by Major Waterhouse in
-the _Photographic News_.
-
-“The solutions recommended by Mr. Common are three:
-
- (1) Nitrate of Silver       1 ounce.
-     Distilled Water        10 ounces.
- (2) Caustic Potash          1 ounce.
-     Distilled Water        10 ounces.
- (3) Glucose               1/2 ounce.
-     Distilled Water        10 ounces.
-
-The above quantities are suitable for 250 square inches, consequently,
-an ordinary copy mirror 8 × 6 would require rather more than two ounces
-of each solution, and other sizes in proportion.
-
-The caustic potash and distilled water must be quite pure. Ordinary
-caustic potash will not answer at all. The best to use is known as
-_pure by alcohol_.
-
-The glass surface to be silvered is carefully cleaned with strong
-nitric acid, applied, as recommended by Mr. Browning, with a Buckle’s
-brush, then well |37| washed in clean water, and after rinsing with
-distilled water, laid, face downward, in a dish of distilled water
-until wanted.
-
-Before cleaning the glass, it will be necessary to arrange for
-supporting it face downward in the depositing dish, so that the surface
-to be silvered may be quite horizontal, and just below the level of the
-fluid, which should be about half an inch above the bottom of the dish.
-
-I have generally used a large cork, about four inches in diameter,
-cemented to the back of the plate, and fitted with three strings, by
-which it could be suspended in a level position and adjusted to any
-height by winding the string over a roller placed at a convenient
-height above the dish. When this arrangement is not available, I fix on
-the back of the plate two ordinary wide-mouthed bottle corks of equal
-thickness, in the positions shown in the figure, and to these corks
-attach thin slips of bamboo running transversely across the plate, and
-of sufficient length to rest on the sides of the dish, thus:
-
-[Illustration: Fig. 3.]
-
-The slips of bamboo give the arrangement a certain amount of spring, by
-which the height of the plate can easily be regulated, by putting on
-weights until the surface of the plate is just below the level of the
-fluid in the dish.
-
-To prepare the silvering solution: A sufficient quantity of the
-silver solution, No. 1 (two ounces), is put into a perfectly clean
-glass. Ammonia is dropped in until the precipitate first formed is
-just redissolved. The same quantity of potash solution, No. 2, as of
-silver is now mixed in, and the precipitate again dissolved by ammonia.
-A little more silver solution is then added to produce a distinct
-turbidity, and distilled water to make up the quantity necessary to
-fill the depositing dish to about three-eighths or half an inch, and
-the mixture is then filtered through cotton into another clean glass
-vessel.
-
-The same quantity (two ounces), of filtered solution of glucose, No.
-3, as was taken of silver and potash, is now mixed in, and the whole
-is poured into a depositing dish (which should preferably be of glass,
-well cleaned with nitric acid).
-
-The glass plate is then taken out of the distilled water and laid
-face downward on the silvering solution, being supported, as before
-described, just above the surface, so that the solution does not cover
-its back.
-
-Mr. Common places the requisite quantity of distilled water in the dish
-in |38| which the mirror has been remaining face downward, and then,
-having lifted the mirror up, pours in the undiluted silvering solution,
-together with the glucose solution, stirs well together, and then
-carefully lowers the mirror again into the dish.
-
-Almost immediately after the immersion of the plate, the silvering
-action begins, and, if things are going on well, a brilliant reflecting
-surface will be seen at the back of the plate, and in forty minutes,
-or even less, a good deposit of silver will be obtained. It is usually
-recommended to stop the action as soon as the silvering fluid appears
-clear and free from turbidity, but it is not always easy to see this.
-
-After silvering, the plate is well washed, finishing with distilled
-water, and dried off quickly. A slight cloudiness of the surface may
-appear, and must be removed by polishing before the mirror can be
-used. It is better to allow the mirror to remain a day or so before
-polishing, in order to harden the coating.
-
-To polish the plate, it should be slightly warmed, and perfectly dry,
-and rubbed very gently in small circles with a piece of very soft and
-dry chamois leather, afterward using a little jewellers’ rouge.
-
-Mirrors should always be kept in a dry place, and will require
-repolishing from time to time.
-
-
-|39|
-
-CHAPTER IV.
-
-APPARATUS FOR PRINTING UPON ZINC.
-
-A suitable negative (the subject being in line, _not half tone_) having
-been obtained, the next stage toward producing a relief block is to
-make from that negative a print in ink upon a sheet of zinc. To do this
-a sheet of polished zinc is first of all subjected to the action of a
-solution of nitric acid, alum, and water. It is then thoroughly washed,
-placed in a machine called a whirler, then coated with a solution of
-albumen (white of egg) and bichromate of potash; this coat or film of
-bichromated albumen should be dried over a spirit lamp.
-
-The negative is then placed, face uppermost, in a printing-frame, the
-coated side of the zinc in contact with the face of the negative. The
-negative is now exposed to the action of light.
-
-The exposure being complete, the frame is taken into a room lighted
-by yellow light, gas, or lamp-light, the zinc plate is removed, and
-its surface covered with a thin film of transfer ink, by means of a
-type-printer’s roller; then the zinc plate is immersed in clean cold
-water and the image developed by gently rubbing it with a pledget of
-cotton-wool.
-
-
-POLISHING THE ZINC.
-
-Zinc plates suitable for photo-engraving can be obtained either in
-large sheets, or cut to size as ordered, and, when new, require
-polishing with a damp rag dipped in levigated pumice powder—_i. e._,
-pumice powder washed in water, so as to get rid of all grit.
-
-Lay the plate upon a board covered with muslin and polish with a
-“from-and-to” the body motion, not circular; do not use a great deal
-of pressure, the object being to get the plate highly polished with a
-perfectly smooth surface.
-
-Plates that have been printed upon, and are not satisfactory, may be
-cleaned and repolished.
-
-Plates that are scratched require polishing with emery cloth. Scratches
-interfere with the picture. |40|
-
-To remove scratches, sprinkle the face of the plate with turpentine,
-then rub with a piece of FF emery cloth stretched over a carpenter’s
-cork-covered rubber. Use the same motion, to-and-fro, until all the
-turpentine has evaporated and the surface of the zinc is polished. If
-the scratches are removed, the plate is ready for use, but if not,
-then the operation must be repeated. If the scratches are too deep for
-emery cloth alone, first use a piece of fine pumice stone, followed
-by snake stone, pumice powder, rotten-stone, and rouge. Too much care
-cannot be taken with the zinc plate at this stage, for, after the block
-is etched, if it is discovered that the plate has not been properly
-polished, all will have to be done over again, entailing a loss of
-time, labor, and materials.
-
-Remember, that no matter what polishing agent is used, the plate must
-be polished with a to-and-fro from the body motion, not a circular
-motion such as is usual in polishing metal.
-
-
-GRAINING THE PLATE.
-
-The next operation is to give the plate a slight tooth so that the
-sensitive solution will flow evenly over the surface. Do this by
-removing all traces of grease.
-
-This graining is done in a wooden tray, 24 inches by 18 by 6, lined
-with asphaltum or gutta percha and mounted upon rockers; it is quite
-necessary that the graining tray be of large size, as if only a little
-larger than the plate the returning wave of acid water will mark the
-edges of the zinc.
-
-Into this tray pour a quart of clean water, and add one drachm of
-nitric acid and one ounce of a saturated solution of common alum. Place
-the plate in this, face up, and commence rocking it at once or else
-the acid will mark the surface, and it will require repolishing; rock
-slowly for five minutes, during which time the polished surface will
-give way to a fine matt, like fine frosted silver. Now remove the plate
-and rinse it under the tap, rubbing it gently with a fine sponge, or a
-pledget of cotton to remove the scum or deposit formed by the acid. The
-surface at this stage should be quite smooth; if it is at all rough,
-the acid is too strong, and the solution must be diluted with water; if
-the action of the acid is very slow, then a little more must be added;
-but it will only be necessary to add more alum when the plate is a
-bluish color instead of being a pearly gray.
-
-A drop or two of acid will be required each time plates are to be
-grained.
-
-In rubbing with sponge, or a pledget of cotton when under the tap, care
-|41| must be taken not to scratch the surface of the zinc, or else it
-will need repolishing.
-
-
-COATING THE PLATE WITH SENSITIVE ALBUMEN.
-
-If the solution of albumen was poured over the plate and drained and
-dried, the film would be too thick at the bottom and too thin at the
-top; it is, therefore, necessary, to insure an even film of sensitive
-albumen, to subject the plate to a quick circular motion, so as to
-spread the film of albumen evenly, and to get rid of the surplus
-solution. This is effected by placing the grained zinc in the jaws of
-an instrument called a whirler and made as follows:
-
-Two pieces of wood, each half an inch thick, twelve inches long, nine
-inches wide at one end, and six inches at the other; upon the narrow
-end of one piece fix four screws, a piece of iron the shape of a ┻,
-the top end of which is shaped to fit into the socket of a carpenter’s
-brace (which must have the centre handle revolving, not fixed); the
-cross piece must be flat, and pierced with four holes, countersunk to
-admit of stout screws.
-
-Place the two pieces of wood together, the ┻ piece between the two,
-and with a piece of stout leather hinge the two together, nailing the
-leather not only on the outside, but upon the top also; now screw a
-narrow batten on each of the pieces, about an inch from the widest end,
-to keep the wood from warping.
-
-Four inches from the top (the hinge being the top) bore a hole through
-both pieces, and pass through a couple of strong leather laces; by
-one end fix these on the outside of the cheek to which the iron ┻ is
-screwed, and on the outside of the other cheek, seven inches from the
-top, hinge a piece of wood (so as to fall toward the bottom) 5 inches
-by 2 by 1/2; and in the centre of the batten screwed on to prevent
-warping, fix a broad-headed nail or a turn-button, over which the free
-end of the leather laces can be passed.
-
-Now about half an inch from each end drive through the wood, six or
-eight wire nails one inch long in a line, and so that the points
-project on the inside of each cheek. Next fix the top of the iron into
-the socket of the brace and the whirler is ready for use.
-
-To use this instrument, lay it upon the bench, raise the upper jaw,
-place the grained zinc behind the teeth (face out) close the jaw,
-and after seeing that the face of the zinc is close up to the teeth,
-tighten the shoe lace, pass it over the hinged piece (which is lying
-down close to the cheek), and around the batten with two or three
-turns, then pass it back and tie the loose ends around the iron shank
-at the top; then raise the hinged piece, which by straining on the |42|
-leather laces will cause the jaws to grip the zinc plate tight and
-hold it in position. (See Fig. 4.)
-
-[Illustration: Fig. 4. The Whirler.]
-
-Now lift up the whirler from the bench, grasping the handle of the
-brace firmly in the right hand. Hold it at arm’s length, and by a
-series of quick jerks set the plate revolving. This will require a
-little patience to do evenly and rapidly, but with practice it will
-become quite easy.
-
-The plate is coated twice, whirling it after each application of the
-sensitive mixture. The whirler is then laid upon the bench, and the
-hinge piece let down. This relaxes the strain upon the leather laces,
-and allows the jaw to be lifted and the plate removed.
-
-An inverted revolving egg-beater may be made to serve for the same
-purpose.
-
-
-DRYING THE COATED ZINC.
-
-The film of albumen now requires drying, which should be done over a
-spirit lamp. The best form of lamp is one of the small pocket spirit
-stoves sold by ironmongers, and having the three supports for a kettle
-cut away. The zinc is held over the flame and kept in constant motion,
-so as to dry the film as quickly and evenly as possible; no fear need
-be felt at applying too great a heat so long as the metal can be held
-comfortably in the fingers. When dry, the plate is ready for printing
-upon.
-
-For drying large plates, two or more of these stoves would be required,
-but it is very easy to extemporize a suitable arrangement, by laying a
-large pad of cotton saturated with spirits of wine in a tin dish, and
-setting it on fire; by this means a stove of any desired dimensions can
-be prepared quickly. To extinguish such a flame, cover it with a large
-sheet of zinc.
-
-It must be borne in mind that the film on the zinc is now very
-sensitive to |43| light, therefore the preparation of the film must be
-done in a yellow light, as must also the operation of placing it in the
-printing-frame, inking up, and development; gas or lamp light may be
-used, as the film is not sensitive to artificial light of a low actinic
-power.
-
-
-THE PRINTING FRAME.
-
-The printing-frames used for this purpose must be of the box pattern,
-fitted with stout plate-glass fronts, the cross bars behind being
-fitted with wooden screws, instead of springs, as absolute contact can
-only be obtained between the surfaces of the glass negative and zinc
-plate by means of screw-pressure.
-
-The front glass of the printing-frame must be kept perfectly clean, and
-especial care must be taken that no grit be upon either glass, inside
-the frame, or on the back of the negative, else the negative will be
-broken.
-
-
-TIMING AND EXPOSURE.
-
-The time of exposure to light is measured by means of an actinometer,
-which is simply an instrument in which is a strip of sensitive
-paper, exposed under a graduated series of different thicknesses of
-translucent paper, each division or gradation being distinguished by a
-number, thus: No. 1 has only one thickness of paper over it; No. 2, two
-thicknesses, and so on. But on account of the ever varying intensity
-of the light, a screen actinometer that is reliable is almost an
-impossibility. The best must be closely watched in a bright light, so
-that the tints are changed evenly.
-
-Johnson’s actinometer is very simple and handy; it consists of a
-cubical box with two lids, the inner one serving to press the paper in
-contact with the glass of the outer lid; the outer lid has a circular
-opening with a narrow rectangular strip in the centre transparent,
-the rest of the glass being covered with pigment the color assumed by
-the sensitive paper after exposure to the light. When the strip of
-sensitive paper inside has assumed this color, it is called one tint;
-the strip of paper is then pulled forward, and another portion, quite
-white is brought under the transparent portion of glass, and when the
-light has turned that the color of the pigment, that counts two tints,
-and so on. The paper used in the actinometer is ordinary albumenized
-paper.
-
-The exposure of zinc in the printing-frame under a good line negative,
-will be about six or eight tints in diffused light, but in direct
-sunlight the exposure may be timed by the watch, a suitable line
-negative never requiring more than from three to five minutes. |44|
-
-
-INKING THE EXPOSED ZINC.
-
-The sensitive zinc having been exposed to light under the negative,
-next cover the surface with a thin coating of litho-transfer ink, stone
-to stone.
-
-For this purpose we require a type-printer’s composition roller,
-mounted upon a litho stock. This roller must be perfectly smooth and
-cast in a solid mould, as the line along the side, formed by a split
-mould would render it useless for inking up a zinc plate. A roller
-eight inches long by five or six inches in diameter is a useful
-size. We also require an inking slab, a palette knife, a bottle of
-turpentine, with the cork cut so that the turpentine can be sprinkled
-out without having to remove the cork, a tin of transfer ink, and a
-linen cloth or two.
-
-The inking slab may be made of smooth iron, or a suitable lithographic
-stone is good.
-
-
-|45|
-
-CHAPTER V.
-
-PRINTING ON THE ZINC IN ALBUMEN.
-
-The negative being ready for printing, select a piece of zinc a little
-larger each way than the picture, polish, then grain, and after well
-washing it under the tap and gently rubbing it with a fine sponge, or
-a pledget of cotton-wool, place it in the whirler; again rinse under
-the tap, now invert the whirler and set it revolving; then examine the
-surface of the zinc and see that there is no dirt on the surface, but
-that it is quite smooth. If it is not, rinse it again under the tap,
-and rub it gently with the sponge, and again rinse. This should quite
-free the zinc from any deposit of dirt. Now whirl it so as to get rid
-of as much as possible of the water, then pour over the surface of
-the zinc sufficient to cover it, of the following solution (carefully
-filtered through cotton-wool):
-
- Albumen of one Egg.
- Water                                         7 ounces.
- Saturated Solution of Bichromate of Potash    1 ounce.
-
-Place the white of egg in a bottle containing a lot of small pieces
-of perfectly clean glass, then add the water and shake it well for a
-minute; then add the solution of bichromate and again shake it well.
-Now place a pledget of cotton-wool in the neck of a glass funnel, and
-pass a few ounces of clean water through (if this is not done, there
-will be difficulty in getting the albumen to filter); drain as much as
-possible of the water away, and then filter the albumen into a clean
-bottle; when all the solution has gone through, remove the cotton-wool
-from the funnel, which well wash, then recharge with a fresh pledget,
-pass some water through, and again filter the albumen solution through,
-this time into a ten ounce glass-measure, which is to be used for
-pouring from upon the zinc. The stem of the funnel should be long
-enough to reach the bottom of the glass measure, so that the formation
-of air-bubbles be avoided, which is impossible with albumen if the
-funnel is not below the surface of the filtrate.
-
-Of this, pour over the zinc sufficient to well cover the surface,
-letting any surplus go into the sink; then set the whirler revolving,
-coat again, and |46| again whirl; now examine the surface, and if it
-is free from dust, spots, and air-bubbles, remove the zinc and dry it
-over the spirit stove. But if either air-bubbles or dust be present,
-wash them off under the tap, and begin again.
-
-The film being dry, get the printing frame ready, see that the surface
-of the glass inside is quite clean and free from grit, as also the back
-of the negative, taking special care that the ridge of varnish which
-often forms at the bottom of the negative be removed, as the slightest
-inequality of surface will surely cause disaster directly the screws
-exert their pressure.
-
-Do not lay the negative into the frame flat upon the glass, but slide
-it in from one side, so as to carry any dust away from the glass front
-of the printing frame.
-
-The negative being in the frame, film side up, lay the coated zinc upon
-it, face down, judging the proper position and placing the zinc flat
-down upon the negative; now put a piece of brown paper over the back of
-the zinc, then place the back of the printing frame in place, fasten
-down the cross bars and apply the pressure screws, evenly and gently.
-
-Do not screw one side tight before the other has been touched, but
-screw down so as to tighten all as evenly as possible.
-
-Even pressure being applied, see that the front of the frame is clean,
-and then expose to direct sunlight for five minutes. Remove the frame
-to the dark-room, unfasten the cross bars and remove the zinc, taking
-great care to avoid scratching its film against the film of the
-negative.
-
-After wiping the inking slab with clean linen place a piece of the
-transfer ink, about the size of a small bean, upon the upper corner,
-sprinkle this with a little turpentine, and mix them with the palette
-knife until they are of about the consistency of printing ink.
-
-Now with the palette knife spread some of this mixture as far as
-possible over the inking slab, and then distribute it with the
-composition roller. Roll to and fro, across and diagonally, until
-there is a thin, even coating of ink all over the slab (not touching
-the corner where the ink was mixed with the turpentine) and upon the
-roller; if the mixture is too dry and refuses to spread, sprinkle on a
-little more turpentine, but do not use too much, else it will take a
-long time to evaporate.
-
-The roller having a coat of rather moist ink spread evenly upon it,
-place the exposed zinc, face up, on a piece of clean white paper, and
-proceed to roll it briskly to and fro, using a moderate amount of
-pressure, until the whole of the turpentine has evaporated; it should
-leave a thin coat of ink with an even |47| matt surface, not thick
-enough to quite hide the yellow film of the sensitive albumen, as, if
-it does hide it, too much has been put on, and it will most likely
-smear in development.
-
-If, after first applying the roller, the ink on the zinc seems likely
-to be too thick, at once wipe the roller dry, and then roll the zinc
-briskly until the coat of ink is perfectly even and the turpentine
-evaporated.
-
-At this stage everything depends upon getting the coat of ink even.
-If there are patches of thick and patches of thin, sprinkle some
-turpentine upon the slab, quickly charge the roller, and roll up the
-zinc again, until the coat of ink is thin and even.
-
-An even coat of ink being obtained, the zinc is laid in a tray
-containing clean cold water of a sufficient depth to well cover the
-surface. Now take a pledget of cotton-wool and rub the surface gently,
-when the ink covering the albumen protected from light by the black
-portions of the negative, will wash away, leaving the picture on the
-zinc in ink; if the finer details do not develop easily, continue the
-rubbing with the cotton-wool, but be careful not to rub so hard as to
-scratch the ink lines.
-
-All details being developed, rinse the picture under the tap and put it
-away to dry, which at ordinary temperature will take but a few minutes.
-
-The chances of failure in this portion of the process are, first of
-all, air bubbles and dust spots in the film. These will at once declare
-themselves. The remedy, is increased care and cleanliness.
-
-If, upon development, some of the lines are missing, then the zinc and
-the negative have not been in actual contact, or if the finer lines
-wash away easily, then the exposure has not been long enough; whilst if
-it has been too long, either the finer details are covered up or the
-whole refuses to part with any ink.
-
-A satisfactory print, showing all the lines of the original having been
-obtained, dry, by first blotting off the water, then by gentle heat,
-after which the zinc is ready for the etching room.
-
-
-|48|
-
-CHAPTER VI.
-
-PRINTING ON ZINC IN BITUMEN.
-
-The process described in the previous chapter is most suitable for
-printing on zinc, for blocks that are not overburthened with fine
-lines, and is intended for rough printing; and also, when from want
-of sunlight, and the exigencies of business, the exposure has to be
-made by electric light; but when the subjects are very fine, and the
-blocks must be of the very best, it will be better to print the image
-in bitumen; then the first etching can be done without having to ink
-up previous to immersing in the acid bath (which must be done after
-developing the inked albumen image), so getting the sharpest possible
-results, and also securing better depth to close work than when the
-inking up has to be done before biting in.
-
-Now the generally accepted idea of bitumen is, that it requires such
-a long exposure to light as to be practically useless, except for
-direct sun printing; but that only stands good where the bitumen is not
-prepared properly and where too thick a film is used upon the plate.
-
-By preparing the bitumen as described below and taking care to have a
-very thin film of the sensitive bitumen upon the zinc plate, then the
-exposure either to sunlight or electric light is not more than double
-that of albumen.
-
-There is one especial virtue in a bitumen film. If by chance too
-much exposure to light has been given, a prolonged immersion in the
-developing liquid (turpentine) will remedy the defect, whereas if an
-albumen image be over-exposed it is quite spoiled, and the work must be
-done again.
-
-We are still upon the subject of line work, and the same class of
-negative desirable for printing on an albumen film is necessary for
-printing upon bitumen, viz., the lines must be clear glass without
-veil, and the rest of the negative must be sufficiently opaque to stop
-the passage of light.
-
-The sensitive solution of bitumen is made by procuring a small quantity
-of photographic bitumen or asphaltum, and powdering it in a clean,
-dry mortar. Next take a clean and dry glass beaker, half filled with
-methylated ether, and pour into it the powdered bitumen, stirring with
-a glass rod for a few minutes; now cover the beaker with a piece of
-thin sheet India-rubber, and upon that |49| place a piece of plate
-glass, so as to make the vessel as nearly air-tight as possible. Allow
-to stand a few hours, then stir up again, and again allow to stand,
-this time all night. Then pour away the ether, draining the liquid
-as closely as possible, so as to get rid of all those constituents
-which are soluble in the ether. Now add some more fresh ether, stir
-thoroughly, and again allow to stand and settle, putting on the cover
-as before, so as to prevent evaporation. After again settling, the
-ether is poured off, and all liquid and semi-liquid matter carefully
-drained away. More ether is added, and the operation is repeated
-until the added ether, after standing all night, is nearly or quite
-colorless. The residue in the beaker is removed to a glass plate and
-spread out over its surface, so that any ether remaining may quickly
-evaporate. During this evaporation of the ether, the bitumen must be
-protected from the action of white light.
-
-By thus purifying with ether we get rid of those constituents of the
-bitumen which are not sensitive to light, and thus we secure a film of
-bitumen sensitive to the action of light.
-
-When the ether has evaporated, take of the residue half an ounce and
-dissolve it in pure benzole (free from water) fifteen ounces, allow it
-to stand all night, then filter it through filtering paper (placing a
-sheet of glass over the funnel to prevent evaporation). It will keep
-six months.
-
-New zinc plates will require polishing first with rotten stone, and
-finishing with rouge, but plates that have been used should be first
-polished with fine emery cloth, followed by pumice powder, then by
-rotten stone, and finished with rouge, remembering that a circular
-motion must not be used.
-
-If, after polishing, the surface is at all greasy, immerse it in the
-graining bath used for the albumenized plates, wash well and rub away
-the scum; then with a perfectly clean piece of blotting paper, remove
-the water from the surface and dry it over the spirit flame.
-
-To coat a piece of zinc with bitumen, place it in the whirler, and
-when fixed in position, dust the surface with a clean camel’s-hair
-brush; then flow over it sufficient of the filtered bitumen solution
-in benzole, then lower the whirler and set it in motion; whirl rapidly
-for about a minute. This will equalize the coat or film of bitumen
-and get rid of superfluous solution. When taken from the whirler the
-plate will be ready at once for the printing frame. These plates do not
-deteriorate, and a stock of them may be prepared and stored away in the
-dark till wanted. Great care must be taken not to allow the slightest
-ray of daylight to fall upon them, else the action once set up, will
-continue, and spoil the plate. |50|
-
-On examining the zinc plate after removing it from the whirler, it
-will be difficult to realize that there is really a sufficient film of
-bitumen on the zinc, but there will be quite sufficient.
-
-In printing upon bitumen from negatives that have been varnished, it
-will be as well to rub the varnished surface of the negative with a
-pledget of cotton dipped in dry French chalk.
-
-The same care in putting into the printing frame, as enjoined in the
-chapter on zinc printing with bichromated albumen, is requisite with
-these plates, as is also the applying the pressure by means of the
-screws. The exposure to light will vary from ten minutes in the sun, to
-two or three hours in the shade.
-
-
-DEVELOPING THE IMAGE.
-
-To develop, place the exposed plate, face up, in a shallow tin tray,
-and pour into the tray sufficient turpentine to cover the plate; rock
-the tray so as to keep the solution in motion, and (if the exposure
-has been right) the image will gradually make its appearance; the
-bitumen protected from the action of light by the dense portions of
-the negative gradually dissolves away. As the development approaches
-completion, great care must be used, and when the last detail is
-visible, remove the plate, and rinse it with water from a rose top;
-now, if the image is quite perfect, immerse the plate at once in a
-mixture of nitric acid and water, the acid being just strong enough to
-taste. Keep the tray containing this acid solution rocking for about
-a minute, then remove the plate, and wash it thoroughly, rubbing it
-very gently with cotton-wool. If the exposure under the negative has
-been barely sufficient, the image will be too delicate for touching, so
-before rubbing it with the cotton-wool, try some portion of the margin,
-and if that stands the friction, it is all right; if not, be content
-with rinsing with water.
-
-The immersion in the acid water will have removed the shiny appearance
-of the zinc, and the matt surface will enable the operator to see if
-all the requisite details of the image are visible. If not, and they
-are covered with bitumen, another immersion in the turpentine will
-complete the development; but if any of the lines are rotten or the
-details are dissolved away, the exposure has been too short, and the
-plate will require repolishing and another exposure.
-
-The image being satisfactory, the water is blotted off with clean
-blotting paper and allowed to dry. _Don’t use heat for drying._ It may
-then be exposed to light for a few minutes. This is not absolutely
-necessary, although it tends to make the image finer. The plate is now
-ready for etching in relief.
-
-
-|51|
-
-CHAPTER VII.
-
-DIRECT TRANSFERS TO ZINC.
-
-We have now treated of the various stages necessary to obtain a
-photographic transfer upon zinc, from a drawing or engraving, in line,
-in dot, or in stipple, first by making therefrom, in the camera, a
-negative—same size, reduced, or enlarged—and from that negative a print
-on zinc, either in ink on an albumen basis, or in bitumen.
-
-These transfers can be used, either for yielding re-transfers for
-lithographic press, or (as is at present our intention) for etching
-into relief, for use as blocks for printing from letter-press.
-
-Before proceeding to instruction for etching these photographic
-transfers into relief, we will consider the method of dealing with the
-direct transfer of drawings, in line or chalk, to zinc, without the
-intervention of photography.
-
-For direct transfers to zinc, the picture is drawn by the artist
-the exact dimensions of the finished block; if in line, on ordinary
-lithographic writing transfer paper, in ordinary lithographic writing
-ink, just in the same way that an ordinary line subject is treated for
-ordinary lithography.
-
-If the subject is in chalk, it may be drawn on a grained lithographic
-stone, which is rolled up, etched, washed out, again rolled up, then
-the transfer is pulled; or the picture may be drawn upon specially
-prepared transfer paper, like Josz’s polygraphic transfer paper, or
-other grained paper made for the purpose; or the subject may already
-be on stone, as a lithograph, or it may be a copper-plate engraving,
-in which case transfers are pulled and then put down upon zinc in the
-ordinary way.
-
-In making drawings on lithographic transfer paper, great care must be
-taken to avoid touching the surface with the fingers, as finger-marks
-will transfer and roll up black. In line work all lines must be firm
-and black; no attempt must be made to get effect by using thin or pale
-ink.
-
-In chalk work, also, the drawing must be firm and strong, and the
-corrections and alterations made on the transfer, not left to be done
-on the stone. If the corrections or alterations are small, they may be
-removed with an ink eraser, or by careful washing with turpentine, so
-that all the chalk is removed; if the |52| correction be large, paste
-a piece of clean transfer paper over the place, spreading the paste as
-thin as possible; gum must not be used.
-
-The drawing on transfer paper being obtained, the next step is to
-transfer it to stone; then, after rolling up and proving, another
-transfer is made, which is to zinc.
-
-From an engraved copper plate a transfer is made on India or upon
-Scotch transfer paper, on either a copper-plate press or a lithographic
-press, and then transferred direct to the zinc.
-
-The engraved copper plate is first of all examined to see that all the
-old ink is out of the lines; if not, wash with turpentine and wipe
-quite dry; then, in a piece of clean linen rag, tie up some plate
-re-transfer ink; warm the copper plate, either on the hot plate or over
-a Bunsen burner, until it can be barely held in the hand; then, holding
-it in a piece of cloth to protect the fingers, rub in the ink tied up
-in the linen rag, until sufficient is melted to well cover the surface,
-taking care to see that the ink is rubbed well into the lines. Then
-take a piece of clean, soft rag and wipe off the ink from the surface
-of the plate carefully, so as not to remove it from the reversed lines;
-this is best secured by wiping across the lines, not with them. When
-the surface of the plate is quite free from ink, rub the lower part of
-the palm of the hand upon a ball of whiting, and proceed to polish the
-surface of the plate. Do not get too much whiting upon the hand, else
-it may stick to the ink and prevent it adhering to the transfer paper.
-
-Now place a piece of clean transfer paper (India or Scotch), a little
-larger than the plate, face downward upon a piece of clean paper,
-sponge the back with a damp sponge, then let it lie a few minutes, so
-as to get evenly damp all through.
-
-Now see that the press is ready. If a copper-plate press is to be used,
-see that the bed is free from grit, and that the blankets are in place;
-if a lithographic press is to be used, put in a stone, wipe it free
-from grit, and see that the scraper is all right; remove the tympan if
-of leather, but if of zinc or millboard it is all right. Now put the
-inked and polished copper plate upon the stone, and the damp transfer
-paper, face down, upon the copper plate; then upon the transfer paper
-place a piece of printer’s blanket, turn down the tympan, or put a
-piece of thin millboard over the blanket, run the bed of the press
-under the scraper, turn down the lever, and, if necessary, adjust the
-pressure (a good nip is necessary), then run the bed through; now raise
-the lever, pull out the bed, lift the tympan and blanket, reverse
-the plate, and pull |53| through again. Now gently warm the plate,
-and carefully lift away the transfer paper, which should contain the
-picture with every line firm and sharp; if it is not so, sufficient
-pressure has not been used, or the transfer paper has been made too
-damp, or sufficient ink has not been put into the lines.
-
-The transfer, either drawn in line or in chalk, or from a plate, being
-obtained, it is next transferred to a polished litho stone. Of course,
-the picture can be at once transferred to the zinc which it is intended
-to etch, but it will be found best to first of all transfer to stone,
-then from the stone pull a transfer, and transfer that to the zinc,
-so that in case of an accident during the etching another plate can
-be quickly prepared. Before placing them upon the stone, the prepared
-transfers should lie in a damping book until evenly damp.
-
-Now take a polished litho stone and place it in front of a fire or
-in the sun until it is quite dry, then place it upon the bed of the
-press, and adjust the pressure; then place the transfer upon the stone
-in such a manner that it lies without any slurring. Next place a piece
-of clean paper upon the transfer, then the blanket, lower the tympan,
-run in the carriage, lower the lever, and pull through; then lift the
-lever, draw back the carriage, turn the stone round and pull through
-again, then sponge the back of the transfer with water and pull through
-again, repeating the damping, and pulling through three or four times.
-Now with a wet sponge saturate the back of the transfer with water, and
-lift away the paper, then wash away the composition, leaving the image
-on the stone; now cover it with thick gum solution, and allow it to dry.
-
-If more than one transfer is in hand at a time, they are trimmed as
-closely as possible and pasted with very thin paste close together
-upon a large piece of paper, and then all can be transferred at one
-operation.
-
-The gum upon the stone being dry, wash it off carefully with clean
-water, then roll up with transfer ink. Clean away any dirt there may
-be with sponge and snake stone; where the snake stone cannot be used,
-a piece of pointed wood, dipped into acid gum, will clear way the
-dirt. Take care to have the wet sponge handy so as to prevent the acid
-spreading upon the work; now roll up as strong as possible, then etch,
-by passing over water acidulated with nitric acid of such a strength
-that it just slightly effervesces when the stone is touched; saturate
-a sponge with the weak acidulated water and go gently over the stone,
-then with another sponge charged with clean water, wash off the acid.
-Now again roll up with transfer ink as strong as possible, and pull
-the transfer. Chalk drawings are transferred to stone in the same way,
-then etched, but the acid water is allowed to act a little longer than
-for a line transfer, and after |54| washing away the etching solution,
-the picture is washed out with clean turpentine, then wiped with a
-sponge, gummed in, fanned dry, moistened with a wet sponge, and the
-water removed. Then the image is rolled up with transfer ink, and the
-transfers pulled for subsequent etching.
-
-To transfer to zinc, take a piece of polished zinc and immerse it in
-the graining bath (page 40) for about a minute; then remove it, wash
-it under the tap, and rub it with soft sponge; then wipe it dry with a
-soft rag, and warm the plate slightly; lay it upon a litho stone in the
-press, lay the transfer (which has been lying in the damping book) upon
-the zinc plate; lay upon the transfer the piece of blanket, lower the
-tympan and pull through; then damp the back of the transfer, pull it
-through again; then reverse the plate, dampen the back of the transfer,
-pull through again; again dampen the back of the transfer, and again
-pull through; now saturate the transfer with water, peel off the paper,
-remove the composition, and apply with a sponge a sufficiency of a
-solution of gum (thickness of cream), 5 ounces; decoction of nutgalls,
-10 ounces. The decoction of nutgalls is made as directed on page 56.
-
-Allow this to stay on the zinc for about a minute, then wash off,
-cover with plain gum, fan dry, and dip a sponge in gum and rub over
-the plate; now dip a soft rag into the gum, then into the etching ink
-(page 57) mixed with a little cocoanut oil or mutton fat and middle
-varnish, continuing the application of gum and ink until the whole of
-the picture is sharp, black, and strong. Be sure and keep the plate
-well covered with gum and the ink as thick as possible.
-
-The plate is now dusted with finely powdered resin, sponged with a wet
-sponge, and then is placed in the etching trough containing water and
-just sufficient nitric acid to taste; in this the plate remains about
-half a minute, rocking the etching trough gently all the time; now
-remove the plate, wash it under the tap, rubbing gently back and front
-with a sponge, then dry by gentle heat; next coat the back, edges, and
-margin and portions of the front which are too large to etch away, with
-thin shellac varnish. When dry proceed to etch as directed in the next
-chapter.
-
-Instead of inking up with the rag after etching with the acid gum, wash
-off, then roll up with a leather roller charged with the etching ink
-mixed with a little cocoanut oil, and used as stiff as it is possible
-to work it, until the image has taken in all possible, damping the zinc
-with a sponge directly it shows any signs of getting dry; then dampen
-slightly, and repeat as above. Next immerse it in the etching bath as
-before; wash well, and dry; coat the back, edges and margin on the
-front with shellac varnish, when the plate will be ready for etching.
-
-
-|55|
-
-CHAPTER VIII.
-
-ETCHING LINE TRANSFERS.
-
-For etching transfers on zinc, whether photographic or direct, we shall
-require the following apparatus: A slab of iron about 24 × 18 inches
-and 1/2 or 1 inch thick, supported horizontally upon four legs, and
-heated by an atmospheric burner, arranged somewhat like a gridiron so
-that the heat is even all over. A set of rollers on litho stock, one
-of leather, one of flannel, and one or two glazed rollers, the same as
-lithographers use for tint printing—we also require an etching box—_i.
-e._, a wooden tray, 30 × 24 inches, and 8 inches deep, well made of
-seasoned wood, lined with either pitch (with a little tallow added), or
-gutta-percha, and mounted upon rockers.
-
-This box will require a firm table for its support during the etching,
-said table standing as close as convenient to a sink and water tap.
-
-The other requisites used during etching, are, nitric acid, turpentine,
-gum Arabic of a good quality, some powdered nutgalls, three or four
-sponges, some finely powdered resin, a flat camel’s-hair brush, a
-solution of shellac in spirits of wine, and the following inks:
-
-First the etching ink, composed of beeswax one-quarter ounce, Russian
-tallow two ounces, bitumen half an ounce, middle varnish two ounces.
-
-Melt these together in a pan over a fire, or Bunsen burner, stirring
-well during the operation, so as to mix them thoroughly; when all are
-melted, add five ounces of ordinary letterpress printing-ink, and
-thoroughly mix; then allow to boil and continue the heat until the gas
-escaping from the bursting bubbles explodes upon the application of a
-lighted taper; then remove all from the fire, and allow to cool.
-
-For a hard ink, for use after the plate is etched deep enough, and the
-resist is cleaned off, mix
-
- Beeswax                             1/2 ounce.
- Resin                                1  ounce.
- Shoemaker’s Wax                      1  ounce.
- Black Litho Ink (about $1 a pound)   2 ounces. |56|
-
-Melt, then cool and mix with turpentine to make it the consistency of
-soft soap.
-
-Now, with these and a solution of gum Arabic (in cold water), the
-thickness of cream, add one-quarter pint of a decoction of nutgalls to
-each quart of gum solution. The decoction of nutgalls is made by adding
-one-quarter pound of bruised nutgalls to one and one-half pints of
-water, in an earthenware vessel (not metal); boil, then allow to stand
-at the fire and simmer gently for six hours, keeping the vessel covered
-over; then allow to cool, filter and add the proper quantity to the
-above gum solution.
-
-We will assume that a suitable place is provided for carrying on the
-operations to be described, in the shape of plenty of bench room, and a
-good light to work by.
-
-The first stage in etching a zinc plate in relief is, to slightly warm
-it upon the hot plate, then allow it to cool (by-the-bye, it will be
-very convenient to have a clean litho stone handy for placing the plate
-upon to cool quickly). The plate being cold, with a piece of soft
-sponge carefully smear it over with the gum solution, allow the gum to
-dry, spontaneously, in a cold current of air; if heat be applied the
-gum will crack and bring away the image from the plate.
-
-Whilst the gum is drying, with a palette knife place equal parts of
-transfer ink (page 44) and of etching ink (page 54) upon one corner of
-the inking slab, then thin to the consistency of cream, with middle
-varnish, thoroughly incorporating the three ingredients with the
-palette knife.
-
-Now place a little of this ink upon the leather roller and roll
-vigorously upon the slab, so as to distribute the ink thoroughly upon
-both roller and slab; be careful not to get too much ink on the roller,
-nor to have it too thin; in fact, work the ink as stiff as is possible.
-
-Now lay the zinc upon a piece of clean paper, and sponge it gently over
-with a wet sponge, so as to loosen the film of gum, then squeeze the
-sponge nearly dry, and pass it over the plate again, so as to insure it
-being evenly damp all over, but be careful not to make it too dry.
-
-Now proceed to roll up, by passing the charged roller to and fro over
-the plate, using moderate pressure and slow motion, recharging the
-roller at short intervals from the inking slab. Occasionally use the
-damp sponge so as to keep the plate sufficiently damp to resist the ink.
-
-If the roller slides instead of rolling, wipe it with an old linen rag,
-which will remove the moisture; then recharge the roller again upon the
-slab. |57|
-
-The rolling is continued until the whole image is an intense black,
-when it is carefully dusted over with very finely powdered resin
-applied with a broad camel’s-hair brush, taking care that all the image
-gets covered. Then rub it gently with a wet, soft sponge and place it
-in the etching box containing a mixture of water and nitric acid, the
-acid being only just perceptible to the taste.
-
-The plate should remain in this for one minute (the box being kept
-rocking); it is then removed, and thoroughly washed back and front
-under the tap. Rub it gently with a clean soft sponge.
-
-This etching is merely to remove any traces of gum or dirt from the
-zinc which would interfere with the shellac varnish holding.
-
-Now dry the plates, using gentle heat, then coat the back with thin
-shellac varnish to protect it from the acid; do the same to the margin
-of the picture on front, also varnish the centre of any very broad
-whites up to half an inch of the image, so that the acid dissolves no
-more zinc than is necessary. Now examine the image carefully, and if
-any of the lines are defective touch them up, and make any alterations
-and additions required.
-
-The plate is now ready for the first etching, for which purpose a
-little nitric acid is added to the water in the etching tray—precise
-directions cannot be given as to how much acid to add, as so much
-depends upon the area of zinc on the plate that requires dissolving;
-practice, however, will soon enable the operator to judge the proper
-quantity. If too much acid is added, the plate will quickly be covered
-with myriads of minute bubbles, in which case it must be instantly
-removed, well washed, and the bath diluted with water before the plate
-is reimmersed. If, on the other hand, there is too little acid present,
-the action is too slow, and more must be added.
-
-The first etching must be carefully watched, and the rocking continued,
-until the application of the finger-nail to the margin shows that the
-zinc inside has been dissolved away to a depth of about the thickness
-of a visiting card.
-
-The first etching is the most important of the whole, as unless a
-sufficient depth be attained the sharp lines will not be obtained; and
-as the ink is not yet capable of resisting too strong acid, great care
-must be taken that the work is not damaged; proceed cautiously, adding
-acid from time to time as required.
-
-As a rule, the first etching will take from five to ten minutes (the
-tray being kept rocking all the time).
-
-When it is judged that the first etching has been carried far enough,
-remove the plate from the tray, wash it well under the tap, rubbing
-gently with a |58| sponge, so as to remove the scum left by the acid,
-dry by means of gentle heat, then allow it to cool.
-
-When the plate is quite cold, smear it over with gum solution, and with
-a piece of cardboard, fan the gum dry.
-
-Now sprinkle the inking slab with turpentine, and with a cloth wipe
-the slab clean. Take a piece of etching ink and thin it with middle
-varnish, mixing them well with the palette knife upon the slab; now
-take the leather roller, and with the palette knife place a little of
-the ink upon it, and roll up on the slab until both roller and slab are
-well coated; but on no account must there be too much ink, nor must it
-be too thin.
-
-Now lay the zinc down on the bench, on a piece of clean paper, and with
-the wet sponge carefully wash off the gum; then wipe all superfluous
-water off the plate, and roll up with the leather roller charged as
-above; roll the plate first one way, and then the other, keeping the
-zinc evenly damp all over, else the ink will catch in the whites, and
-probably spoil the picture. When the rolling is completed, and as much
-ink as possible has been piled on, the zinc will be nearly dry. If not,
-allow it to stand in a cold current for a little time, then take it to
-the drawer in which the powdered resin is kept, and smear the plate
-all over with the powder. Now brush as much of the resin away as will
-come, using the brush from all sides, so that all the lines get evenly
-coated, not only on the top, but upon the sides; this being done, take
-a damp sponge and carefully remove the superfluous resin from the
-whites, or unprotected zinc.
-
-The plate is now ready for the second etching, and the solution in
-the etching tray must be reinforced by the addition of a little acid;
-but do not add too much at once. It will be far best to add a little
-at a time, and then, as soon as the zinc shows there is no action
-going on, add a little more; an easy and simple method of ascertaining
-whether any acid be present or not is to wipe the bare metal with the
-tip of the finger, and if that spot (which will be brighter than the
-surrounding parts) does not speedily resume its dingy color, the acid
-is exhausted.
-
-The plate being immersed in the solution, set the tray rocking, and pay
-attention to the remarks above. At the end of ten minutes remove the
-plate from the tray, wash it under the tap, rub it gently with soft
-sponge, then remove as much of the water as possible, and examine the
-progress made by the acid. This can be seen by the lines being bare
-below the ink, in which case the etching has been carried far enough,
-and if not stopped, there would be danger |59| of under-cutting; if,
-however, no progress has been made, add a little more acid to the
-solution, replace the zinc, and rock again for another five or ten
-minutes.
-
-The second etching being effected, the zinc is carefully washed, and
-the scum left by the acid is carefully sponged away; now stand the zinc
-up near the hot plate, so that it will get the benefit of a gentle
-heat, and when quite dry lay it upon the hot plate (which should be
-heated to a temperature of 120° to 150° F.) face up, with a piece of
-brown paper between the zinc plate and the hot plate.
-
-As soon as the zinc plate begins to get hot, there will be a tendency
-to curl slightly away from the hot plate, which, if allowed, would
-prevent the ink being evenly melted. To prevent this, take a brad-awl
-in each hand, and press down the sides of the zinc, taking care not to
-touch any of the picture.
-
-Allow the zinc to remain on the hot plate until the ink and resin are
-melted and run down to the bottom of the etching, then remove it and
-lay it on the cold slab until the plate is cold.
-
-When cold, smear the plate with the gum solution, fan it dry (_never
-use heat for drying the gum_), moisten with wet sponge, roll up again
-(use the leather roller), using the ink pretty stiff on the inking
-slab; keep the surface of the zinc well moistened. When the roller gets
-too much water upon it, pass a piece of damp cheese-cloth over it to
-remove the water; then roll the roller vigorously on the slab until it
-again bites the ink. Continue rolling the zinc until all portions have
-received due attention from the roller. N. B.—Some of the closest work
-will be quite blocked up this time, and each subsequent rolling will
-block up more and more, until only the very open work will be left.
-
-Now allow the zinc to get dry, then cover it with resin, brushing from
-all sides, so as to coat the sides of the lines as well as the top, and
-then remove all superfluous resin from the whites with a damp sponge.
-The zinc is now ready for the next etching, for which more acid is
-added to the solution in the etching tray.
-
-Rock the tray carefully, watching the zinc to see that the acid is
-neither too weak nor too strong, until the progress can be seen by
-examining the plate; the time, with the proper quantity of acid, is
-twenty to thirty minutes.
-
-When the etching has proceeded far enough, after washing and sponging,
-again allow it to dry, then place it upon the hot plate until the ink
-is melted and runs down the sides of the lines; then cool, smear with
-gum, fan dry, moisten with sponge, and roll up as before; dry, cover
-with resin, using a |60| camel’s-hair brush, then dampen with a sponge
-and give a fourth etching, using the same precautions as to strength of
-acid and duration of rocking as before.
-
-Now cool the plate; get a little more ink on the roller, and roll the
-plate whilst cold. When the surface of the lines has a nice even coat
-of ink upon each and all (coarse and fine), again warm the zinc on the
-hot plate until it is just too hot to hold in the fingers; then cool
-it again, varnish the back with shellac varnish, then make a mark with
-a blunt point, in the ink on the margin, so as to lay a short line of
-zinc bare to the action of the acid.
-
-The round of operations is repeated; but for rolling up for the fifth
-and subsequent etching, a flannel roller is used, and more ink will be
-required upon the slab; it will also require to be a little thinner.
-
-For some subjects six or seven etchings will be required, whilst for
-others—especially where there are whites that are too small for cutting
-out with a fret saw or router—ten or twelve etches will be required.
-Practice, the best teacher, will soon enable the operator to judge how
-many are required.
-
-The etching having been carried as deep as is judged sufficient,
-sprinkle the plate liberally with turpentine, and with a stiff
-scrubbing brush loosen the ink from the lines, and wash it off with a
-solution of American potash.
-
-The plate being cleared from all ink, etc., is now examined carefully.
-The sides of the lines will show each etching, by a series of irregular
-steps. If the plate be put into the press in this condition, the
-chances are that before many copies had been made, these steps would
-take more or less ink from the rollers, and blur the image; therefore,
-before passing it into the hands of the printer, the plate will require
-etching two or three times more, to get rid of these irregularities.
-
-This is done by warming the zinc on the hot plate, and then, whilst
-still warm, rolling up with a fine glazed roller charged with the hard
-etching ink from a clean inking slab.
-
-Roll the zinc firmly, first one way and then the other, so that all
-the tops of the lines get well coated with ink; now make a mark on the
-margin with a blunt point in the ink, so as to lay a short line of zinc
-bare to the action of the acid.
-
-Next empty the etching tray, put into it some clean water, and add
-sufficient acid to make it taste like strong vinegar; in this immerse
-the plate, and keep rocking for ten or fifteen minutes, or until the
-mark on the margin, when felt with the finger-nail, shows that it has
-attained a depth about the same as that obtained in the first etching.
-|61|
-
-Now wash the plate under the tap, and wash off the ink with turpentine,
-followed by a solution of American potash; again wash and dry on the
-hot plate. Now examine, and if the lines are free from the steps, the
-plate is finished, but if not, the operation must be repeated until the
-steps are all removed.
-
-Be careful to cover the surface of the block thoroughly with the ink,
-else the acid will spoil the picture.
-
-The plate is now ready either for mounting for the press, or for
-electrotypes being taken from it; if the former, the deep whites
-are cut away with the router or fret saw, the edges are trimmed or
-bevelled, holes are drilled and counter-sunk at convenient places, for
-the insertion of nails or screws to fix the zinc to the wooden block,
-to make the surface type high.
-
-The object aimed at in the instruction in Part I. is the production
-of relief blocks on zinc from an original in black and white, which
-original may be a drawing made purposely for reproduction, or it may
-be from a drawing already in existence, a woodcut, or engraving,
-the picture being rendered entirely in line, or a chalk drawing may
-be used. In fact, any subject that is capable of being worked from
-either at a type press or by ordinary (monochrome) lithography. Washed
-drawings, or oil or water color drawings are not applicable.
-
-In fixing plans, or drawings on the easel, prior to photographing them,
-if they are cockled, and difficult to get flat, pins may be placed
-anywhere, so long as the lines are not interfered with, for these pins
-may be painted out with a camel’s-hair brush and gamboge or Indian ink.
-It is important that the plans or drawings be as flat as possible, as
-if the lines are cockled, they will not be photographed straight.
-
-In photographing drawings on tracing paper or cloth, a piece of white
-paper should be placed behind them.
-
-When, from an original of black lines on a white ground, it is desired
-to make a reverse block—_i. e._, white lines on a black ground—a
-negative is first made from the original, and from that negative
-a transparency is made; and a print made upon the zinc from that
-transparency will be a reverse of the original.
-
-Thus far I have tried to make plain the details of a process which is
-as fascinating and as pretty as any in photography, and which supplies
-results which could not be attained by the most expert workers two
-years ago. And since those experts first obtained even tolerable
-results by zinc etching, like |62| everything else in photography,
-it has made wonderful progress. At first we were delighted and
-content when a block was obtained with relief sufficient to enable
-us to print it upon an ordinary press with type. But now we can
-get from the zinc surface all the qualities which are given by the
-lithographic stone. Indeed, the process of zincography bears a very
-strong general resemblance to that of lithography; of course, it
-varies therefrom in matters of process detail. The manipulations of
-zincography, however, are no more complicated in their nature than the
-details of printing, etc., from stone. Crayon drawings, ink work in
-line and stipple, rubber work, in fact, anything that can be drawn on
-stone can be drawn on properly prepared zinc, with the exception of
-engraved lines (intaglio), the structure of the zinc not giving the
-yielding brittleness of stone. The great departure made possible by
-zinc plates exists in the fact that they can be bent to the surface of
-a cylinder, thus displacing the reciprocating bed and stop-cylinder
-of the lithographic press with the continuously rotating plate and
-impression cylinder of the zincographic press, which, at the same
-driving speed, produces double the number of impressions printed on
-the lithographic press. To Mr. Bernard Huber, of the Huber Printing
-Press Company of Taunton, Mass., belongs the credit of designing the
-only American zincographic press in existence, and which is now in
-successful operation in several lithographic establishments. It is a
-thoroughly American machine in design and construction, and while no
-glowing prophecies of its immediately taking the place of lithographic
-presses are indulged in, yet this kind of press has its place and use,
-and will by its qualities win favor in the trade.
-
-Many lithographers are beginning to give correct attention to
-zincography, but few are willing to give the time and constant
-experimenting to the subject that has been given by Messrs. Harris &
-Jones, who during the past three years have operated the zincographic
-presses in their lithographic establishment known as the Providence
-Lithograph Co. Having taken the selling agency of the Huber
-zincographic press, they offer to those who _buy_ the press full
-instructions in zincographic surface printing.
-
-These suggestions are given right here, first because we are now about
-to take a step higher in zinc etching—a step which will lead us to
-results which lithography can scarcely equal in some particulars—and
-second, because it is the policy of this work to withhold no
-information which the novice will need in supplying himself with a
-perfect outfit for doing the best of work. For the same reason the
-advertisers have been chosen, rather than received in the usual way.
-
-
-
-
-|63|
-
-PART II.
-
-PHOTO-ENGRAVING IN HALF-TONE.
-
-
-CHAPTER I.
-
-RETROSPECTIVE.
-
-The former chapters have treated entirely upon the production of blocks
-in line—_i. e._, where the picture has been made by a draughtsman,
-the half-tones and gradations being communicated by a greater or less
-thickness of line, or by dots, or stipple, or hatching.
-
-The picture for such blocks may have been specially drawn for the
-process, the same size or larger, or it may be a copy of some woodcut
-or engraving already in existence, but if it is desired to reproduce
-blocks from drawings, paintings, or photographs, then an entirely
-different method must be adopted, and the smooth gradations of
-half-tone levelled, so to speak, so as to bring the high lights and the
-shadows upon one plane.
-
-In photographs from nature (or from washed drawings or paintings) the
-scale of gradations runs, as it were, in a series of short steps from
-the deepest shadow to the highest light, and a block made, say in
-bichromated gelatine, from such a negative can give no half-tones, as
-the inking roller could only touch the deep shadows properly.
-
-Now the subject of making photographs applicable for the illustration
-of letter-press, instead of woodcuts, has occupied the attention of
-experimentalists from the early days of the art-science, as the records
-of the Patent Office show.
-
-The first patent, dated 1852, bears the honored name of Mr. Fox Talbot,
-and although it is for intaglio printing, and therefore a little out of
-place under the above heading, still it claims our attention as giving
-a method for breaking up the half-tones of the photograph, by placing
-muslin, crape, etc., between the photographic cliche and the sensitive
-surface; or a glass plate may be covered with fine lines, or glass may
-be coated with powder, which is caused to adhere. |64|
-
-In 1854, Paul Pretsch broke up the half-tone by the reticulation of
-gelatine, caused by the admixture with iodide of silver and bichromate
-of potash; this was spread upon a silvered copper plate, dried, and
-exposed to light under the half-tone negative, then washed in cold
-water and borax, or carbonate of soda, then in alcohol, coated with
-copal varnish, and immersed in a weak solution of tannin, after which
-an electrotype could be made, or a transfer made to zinc or stone.
-
-In 1855, A. J. Berchtold produced a grain by printing upon a photograph
-in black or in any color, from a plate or block or other surface, or
-by perforating or making strokes, lines, or dots upon it, by roller or
-other instrument. Repatented in 1883, by Brown, Barnes, and Bell.
-
-In 1860, E. J. Asser used starch, and in 1865, J. W. Swan used a tissue
-of gelatine mixed with charcoal or other chemically inert grit; in
-the same year Messrs. E. & J. Bullock published, perhaps, the most
-important specification, describing all, or nearly all, practical
-methods of obtaining grain, the most important of which are the
-placing of any fine fabric between the lens and the sensitive surface,
-or between the camera and the object, or copies of granulated or
-recticulated structures or fabrics could be used, or such copy could be
-placed in contact with negatives, and both copied together.
-
-In 1879, J. W. Swan made negatives by moving, during exposure, the
-Bullock’s screen, placed in front of a sensitive plate. Meisenbach’s
-method, patented a little later, is somewhat similar.
-
-If a Woodbury relief is thinly coated with transfer ink, and then laid
-upon a piece of ordinary litho transfer paper which has been embossed
-with lines, or dots, or stipple, by being pressed in contact with wire
-gauze or an engraved plate, and the inked relief and the embossed litho
-transfer are then subjected to heavy pressure, a grained image is
-impressed upon the transfer paper, which can be transferred to zinc,
-and then etched in relief.
-
-The method of making a grained negative to be now described, shortly
-stated, is done by interposing a screen, either before the sensitive
-plate in the dark slide of the camera (when copying a photograph) or
-placing the screen behind a transparency on glass when transmitted
-light is used. In the first instance the image projected upon the
-sensitive plate, having first to pass through the screen, is broken
-up by the dots upon the screen, the result being a definite grained
-negative. In the second instance, the screen being placed in contact
-with the transparency, a similar result follows. The first method
-is most generally used, as the print does not require the careful
-focussing necessitated by the second.
-
-
-|65|
-
-CHAPTER II.
-
-MAKING GRAINED NEGATIVES.
-
-
-THE SCREEN.
-
-For making grained negatives, the apparatus, chemicals, and
-manipulations described in Chapters I. and II., Part I., for line
-negatives, are required, with perhaps a little increased care to secure
-clean and bright negatives.
-
-The first requirement will be a proof, on fine white paper, from a
-machine-ruled plate, or a plate with fine dots or stipple; a favorite
-being plates ruled diagonally and straight, either in single lines or
-crossed. These plates must be of good size, say 18 by 15, ruled with
-lines as fine as possible, 100 or 150 to the inch. The ruled sheet must
-be perfect, as any defect in it will be fatal.
-
-Such a proof being secured, it should be carefully mounted with starch
-paste upon a stout piece of smooth cardboard, and should be carefully
-shielded from all chances of being soiled, as the slightest stain
-or mark upon it will unfit it for use. As such a fine line is very
-difficult to focus, especially in making the smaller screens, it will
-be found a good plan to cut four narrow strips of good, bold type, and
-paste these at the four corners of the sheet, just outside the ruling;
-these slips of type will be easy to focus, and will render the task of
-making the screens easier.
-
-Plates ruled with single lines, either diagonally or horizontally, may
-be used instead of the cross ruling, and are by many preferred.
-
-Those in possession of a ruling machine may make these ruled sheets by
-ruling a large litho stone, and pulling impressions from that stone.
-If this is done once, and done well, the sheets will last a lifetime;
-and if the stone be sufficiently large, and the lines very fine, the
-screens may be used for blocks 15 by 12 inches or larger.
-
-To copy this ruled sheet, remove the mirror from the lens, and put the
-lens in the camera in its ordinary position; then pin up the sheet
-on the easel, and, after seeing that the easel and camera are quite
-parallel, proceed to make a series of negatives from the sheet, making
-screens of various degrees of fineness, varying from a coarse grain for
-a coarse photograph, to the finest possible for |66| photographs full
-of delicate half-tone, and from three inches to ten inches wide. Many
-subjects will need screens made especially for them. The screens must
-be free from speck or stain, and should be made upon very thin glass.
-
-The nitrate bath should be in good condition, and the collodion ripe.
-Such negatives take a good deal of time making, but as they are the
-foundation of the process, and with care will last for years, the
-trouble must not be grudged.
-
-The screen negatives being made, they must be varnished with a good,
-hard, well-filtered varnish, applied in a room quite free from dust.
-
-The screens must be made by the wet collodion process. The ordinary
-gelatine dry-plate is utterly useless for such work. Gelatino-chloride
-plates might do, but the exposure is so very long that there is risk of
-shaking the camera during exposure.
-
-
-THE GRAINED NEGATIVE.
-
-For the first method a good vigorous photograph is selected, placed in
-position on a copying board, and the camera adjusted so as to get the
-image on the focussing screen the size wanted the mirror being used, as
-the negative must be reversed.
-
-A collodion plate is now prepared and well drained; then one of the
-transparent screens is fixed in front of the carrier by drawing pins,
-by passing strips of gum paper over, or by fixing with fine tacks
-a piece of thin card at the top, and one at the bottom, slightly
-overlapping the screen, and holding it firmly in a sort of rebate.
-
-The carrier is now placed in the dark slide, the sensitive plate in its
-place, the door of the slide closed and fastened.
-
-The exposure is now made in the camera, and if the screen is properly
-transparent the time will not be very much more than when copying in
-the ordinary way.
-
-The development of the exposed plate is done by means of the developer
-given in Chapter I., and the result must have all the details of the
-photograph, while the lines of the screen must be clear and free from
-veil.
-
-The negative is washed, fixed in cyanide, washed again and then
-intensified, first immersing it in the solution No. 1, Chapter I.,
-until bleached, then thoroughly washed and blacked with No. 2 solution,
-again washed, and varnished with the water varnish, or dried and
-varnished with benzole varnish.
-
-For the second method we shall require, instead of a paper photograph,
-a transparency on glass. |67|
-
-The transparency may be made on a gelatine dry-plate by printing in
-contact with the negative, or an enlarged transparency may be made,
-either on a dry plate or by the wet collodion process.
-
-The transparency should be made by contact, when the original negative
-is of larger size than the block required; the enlarged transparency is
-used if the negative be smaller or the same size as the block.
-
-The development of the transparencies on gelatine dry-plates will be
-treated of later, but if wet collodion be used, the manipulations will
-be the same as for negatives, except that the image is in reverse
-gradations, the lights being clear glass, and the shades dense and
-black. Every detail in lights, shadows, and half-tones must show
-distinct and strong.
-
-[Illustration: Fig. 5.]
-
-For the production of these enlarged transparencies, an enlarging
-camera will be required, which may be provided by having an arrangement
-in front of the ordinary camera, fitted like the accompanying figure,
-consisting of two boxes, one sliding within the other, the negative
-from which the transparency is to be made being placed in a carrier at
-B.
-
-In the illustration the sides are shown open, but only for simplicity,
-as they must be quite opaque. In using such an arrangement, the camera
-must be brought under the skylight of the studio, and the light
-reflected through the negative, by placing a large sheet of white paper
-at an angle of forty-five degrees in front of the negative.
-
-Another and perhaps better method will be to cut a hole in a dark-room
-at a proper height for the camera, and fix the negative in the hole,
-then adjust the focus upon the screen, illuminating the negative by
-means of a reflector fixed at an angle of forty-five degrees.
-
-The transparency being secured, it is varnished, and all blemishes or
-spots removed by means of a sable brush, and a little carmine color; it
-is then placed in contact with a suitable screen, and the two together
-are inserted in the |68| place previously occupied by the original
-negative. Now adjust the camera so as to get the image on the focussing
-screen the proper size, and proceed to make a grained negative by the
-wet collodion process exactly as described in Chapter II., Part I.,
-and above. When a negative containing all the details of the original
-negative broken up by the fine grain of the screen is obtained, it may
-be dried and varnished, and then it is ready for printing upon the zinc.
-
-All pinholes, etc., should be stopped by means of a fine sable brush
-and Indian ink. The printing on the zinc should be done by the bitumen
-process, Chapter VI., Part I., as the albumen is not nearly so perfect.
-If, however, the albumen process be preferred, the printing is done in
-the same way as described in Chapter V., but extra care must be taken,
-first, that the zinc plate is thoroughly and evenly polished; secondly,
-that the graining bath is kept weak with plenty of alum in, so as to
-have the grain on the plate as fine as possible; thirdly, that no
-speck of dust, dirt, or any air-bubbles be on the film after coating,
-and that the whirling be effectually done so as to get the sensitive
-coating as even as possible.
-
-The inking up requires no comment, as it must be done as evenly and
-thinly as possible, for both line and half-tone.
-
-In development, a little more energetic friction will be necessary, but
-extreme care must be taken not to abrade the ink surface. Continue the
-rubbing until all the details are developed, and bear in mind that the
-finished block will be exactly like the zinc after development.
-
-In printing these half-tone zincs, it often happens (like printing
-in silver) that to get the best results some portions will require
-less exposure than others. The best way to stop back any portion or
-portions, is to cover the front glass of the printing frame with
-whiting mixed with water to the consistency of thick cream; apply with
-a rag over the places in the negative, before exposing to light, and
-at the end of one-third, or in case of very deep shades, one-half the
-exposure, clean off the whiting and finish the exposure without any
-obstruction to the light.
-
-The exposure to a grained half-tone negative will be one-half to double
-as long as a simple line negative.
-
-A perfect print on the zinc must contain all the grain intact, for
-if there is any break in its continuity, it is of no use to proceed
-further with it.
-
-The printing in bitumen requires no more comment than to say care is
-necessary to avoid dust. The smallest speck will be likely to spoil an
-otherwise perfect print.
-
-
-|69|
-
-CHAPTER III.
-
-ETCHING IN HALF-TONE.
-
-
-WHEN THE PRINT IS IN ALBUMEN.
-
-The zinc plate with the image upon it in ink, is dried, then warmed
-slightly on the hot plate, cooled, and coated with thick gum* and
-fanned dry (not dried by heat, or the gum is certain to crack and bring
-away the image or part of it); then wash it under the tap, and rub it
-gently with a fine sponge so as to remove all gum from the ink, but
-not from the zinc. Next proceed to roll up as directed in Chapter V.,
-using the India-rubber roller charged with stiff ink. The surface of
-the zinc should be kept well covered with water. Use as little pressure
-as possible, but let the motion be fairly rapid, and if any portions of
-the image should smear, roll rapidly with slightly increased pressure.
-
-          * See page 55, Part I., Gum and Nut-galls.
-
-This operation of rolling up the image is the crucial one, for unless
-it is done properly, when it is finished, the result is a strong black
-and perfectly even image; it is of no use proceeding further with it,
-for in fact the picture must be perfect.
-
-The rolling up being done, any touching up that may be required can
-now be done, and any fine details clouded over, or made indistinct by
-the grain, strengthened or opened out. Additions should be made with
-transfer ink thinned with turpentine, laid on with a very fine sable
-brush. The whites are put in by scratching through the ink with a fine
-etching needle.
-
-To rest the hand upon in doing this touching up, so as to avoid
-touching the image, a bridge is used made of a strip of smooth wood,
-one inch wide, quarter of an inch thick, and sufficiently long to well
-span the plate; at each end of this strip nail narrow strips a quarter
-of an inch thick to serve as the feet for the bridge to stand upon.
-Then the zinc may be slid under it without touching the surface against
-the under part of the bridge.
-
-The zinc is now ready for the first etching in the rocking tray.
-The nitric acid solution must be very weak indeed to the taste, the
-presence of acid being just perceptible. The time of immersion in the
-first bath must not be longer |70| than thirty seconds; then the zinc
-is removed, washed under the tap, and gently rubbed with a sponge; dry
-it gently on the hot plate, allow the zinc to cool, coat it with gum,
-fan it dry, rinse it under the tap and rub it with a sponge; then again
-roll up, when it is ready for the second etching; that is done in the
-same bath as the first, without any addition of acid. Keep the tray
-gently rocking for three minutes, then again withdraw, wash it under
-the tap, rubbing with sponge, coat with gum, fan dry, wash under the
-tap rubbing gently with sponge, and again roll up, using the ink on
-the roller a little thicker, but stiff. When the image has taken the
-ink equally, place it on the hot plate and allow the zinc to get hot
-enough to melt the ink slightly; then allow it to cool, and place it in
-the etching bath, slightly reinforced with a few drops of nitric acid.
-Immerse it this time for five minutes.
-
-The operations of washing, gumming, rolling up, etc., are to be
-repeated until it is judged that the etching has been carried far
-enough. The time of immersion in the acid solution with each etching
-may be lengthened, but take special care to keep the bath weak until
-near the last etching, when the strength may be slightly increased.
-
-The resist is cleaned off with turpentine and a stiff brush, and then a
-proof is pulled. If further etching will improve it wholly or in part,
-the plate is inked up and again subjected to the action of the acid
-bath.
-
-If only portions require reëtching, cover the rest with bitumen
-varnish; but it will be scarcely safe to give more than one etching
-after cleaning off the original resist.
-
-
-WHEN THE IMAGE IS IN BITUMEN.
-
-A bitumen image is etched in the first bath in which the acid is
-just perceptible to the taste, without any preliminary rolling up.
-The duration of the first etching may be prolonged for three or five
-minutes; then the plate is withdrawn and well washed. Remove any scum
-with a soft sponge; then dry it in a cold current, and smear it with
-gum, fan it dry, and roll up with a leather roller charged with stiff
-ink, until all portions of the image have taken a film of ink. Now
-reinforce the nitrate bath with a few drops of nitric acid, and again
-immerse the plate, rocking the bath for ten minutes; watch the picture
-carefully so that in case of undercutting the plate may be removed
-before any mischief is done.
-
-The plate is again removed, washed, rubbed with a sponge, and dried; it
-is |71| then warmed on the hot plate, so as to slightly melt the ink,
-then allowed to cool, smeared with gum, fanned dry, damped over with
-a wet sponge, and rolled up, the roller being charged with stiff ink.
-The plate is now ready for another etching, for which the bath must
-be strengthened by the addition of more acid. The immersion (rocking
-all the time) may be fifteen or twenty minutes, after which the plate
-is withdrawn, washed, rubbed with a sponge, and if it is thought
-another etching would improve it, the cycle of operations is repeated,
-beginning with warming the zinc on the hot plate.
-
-After the resist is cleaned off (which with bitumen must be done first
-with turpentine and then with benzoline) further etching may be given,
-if deemed necessary, first inking up well with the hard ink mentioned
-in Chapter VIII., and then reimmersing in a weak bath of acid and
-water. If only a portion requires reëtching, those parts that are not
-to be touched, are protected by coating with bitumen varnish.
-
-The plate being etched, now requires finishing.
-
-The outside zinc is removed with a circular saw and then the edges are
-filed and holes drilled at an angle, so that the metal can be fixed
-upon the block.
-
-
-|72|
-
-CHAPTER IV.
-
-PRINTING FROM THE BLOCK.
-
-A half-tone block to give results commensurate with the care needed
-in its preparation, must be handled by the machine man with care and
-consideration.
-
-The blanket on the tympan or cylinder must be replaced with something
-harder, else the soft pressure of the blanket will blur the print.
-
-The block must also be made ready, not by putting cut-outs on the
-tympan or cylinder, but underneath the block, and there as thin as
-possible.
-
-The ink must be good and not too thin; the rollers must be free from
-flaws and not too tacky. In fact, as much care is required on the
-press as during the photographic and subsequent operations. Indeed
-photo-engraving and zinc etching would have come into popular use
-more rapidly than they have, if printers had been willing to give
-them the special “making-ready” attention they require. Despite all
-prejudice and indifference, “process-engraving” so called, has made
-continuous improvement ever since it came into use, and the good work
-goes on. The most delicate gradations of light and shade discernible
-in nature, may, from the photographic plate, be rendered in pure black
-and white by means of any of the methods given in this work. All that
-nature displays, and all that imagination compels, may be reproduced
-indefinitely.
-
-With regard to the storage and keeping of zinc blocks after using, Mr.
-T. Bolas, in the _Photographic News_ of September 24, 1886, says, “they
-should not be washed with the usual lye, but should have a few drops
-of paraffine oil poured upon them; and after this has been well rubbed
-in by a soft brush kept for the purpose, the paraffine should be well
-wiped away with a soft cloth. If the block is to be stored away for a
-long time, it should be waxed. The best way of doing this will be to
-make it rather warmer than is necessary to melt wax, and then to rub it
-over with a piece of yellow bees’-wax, after which the excess is wiped
-off with a piece of flannel.”
-
-Sometimes zinc blocks are electroplated with copper or nickel (a
-necessity when they are to be used for certain color work), and such
-blocks should also be treated in the same way as the bare zinc, as they
-cannot be safely cleaned with the lye solution.
-
-
-|73|
-
-CHAPTER V.
-
-THE TRANSFER OF THE DRAWING, AND ITS TREATMENT BEFORE ETCHING.
-
-According to the methods of producing them, classify the drawings as
-follows:
-
-(_a_) Freehand drawings in crayon or ink, drawn with lithographical
-chalk on rough paper, or with pen and chemical Indian ink on paper
-prepared for transferring.
-
-(_b_) Lithographical transfer of engravings, pen-and-ink crayon
-drawings, or drawings on stone.
-
-(_c_) Transfers from relief plates made in copper, steel, zinc, or lead
-(music).
-
-(_d_) Anastatic transfers.
-
-(_e_) Fat or resin prints from photographic negatives.
-
-Proceed as follows:
-
-(_a_) _Transfer of hand-drawing._—Place the drawing to be transferred
-with its face upon a sheet of clean, white paper, and moisten the
-back with a weak solution of nitric acid (1/2° Baumé), by means of a
-sponge. Over-moistening causes obliteration of the drawing, fringing
-of the single lines, and the running together of the hatched portions.
-The correct degree of moisture can be ascertained when the side
-prepared and drawn upon grows slightly sticky, and when the drawing
-becomes glossy. This will take place in from four to five minutes
-after moistening. This time is to be spent in arranging the zinc in
-the press, after having freed it from all greasiness. Place a card on
-the rolling press below the drawing and the zinc; above it, a sheet
-of good blotting-paper, a sheet of Bristol paper and are of pressing
-board; then make a trial print with the press, a clean piece of paper
-taking the place of the drawing. The correct pressure is a matter of
-experience; it is advisable to begin with a pressure less by one sheet,
-in order to be able to increase it during the process of transfer.
-
-In the lithographic press the ink-block is first to be adjusted; since
-it needs a greater “setting in” than the rolling press, the zinc must
-be cut larger. It must extend three centimetres on all sides beyond
-the drawing. The edges of the cut plate must be well ground off, in
-order that the ink-block may not be |74| caught; at all events, it is
-advisable to have the latter smaller than the plate. Observe that the
-range of the press should be regulated; then place the zinc directly,
-without any intervening layer of paper, on a solid stone; lay upon it
-a clean sheet of paper, a blotter, a sheet of Bristol paper, and a
-pressing board well covered with tallow. Make a trial by drawing the
-sheet through at a moderate pressure. If all is arranged, the work of
-transfer can be started. The temperature of the zinc should now be
-about 35° C.
-
-Place the drawing down carefully, without moving it about; upon it the
-blotter, the Bristol paper, and a pressing board, and draw it through
-three times with constantly increasing pressure; turn the plate in
-a contrary direction, and draw it through three times in the same
-manner. Now place a moistened sheet of good paper between the blotter
-and the drawing, and draw through, first with weak, and then with
-strong pressure, three times in both positions. Instead of turning the
-zinc, the ink-block may be reversed. This finishes the operation of
-transprinting, and the next question is the loosening of the paper from
-the zinc. Here we can pursue two methods: first, we can have hot water
-and a porcelain tray at hand; place the copied plate in the tray, and
-pour the water upon it. The coated layer bearing the drawing begins to
-separate from the paper. Shaking the tray promotes this action, and
-soon the paper will loosen itself from the layer which remains attached
-to the zinc. With the second method proceed thus: moisten the back of
-the copied drawing, thoroughly with a sponge and cold water; allow it
-to soak in, warm the plate to 60°–65° C. and carefully rub all parts by
-hand. The layer will again separate by degrees from the paper, which
-latter we can then easily lift off from the plate.
-
-On account of the strongly gelatinous layer, crayons on grained paper
-should only be moistened moderately before and after the first rolling,
-in order to avoid the coiling of the paper.
-
-Hand-drawings on paper without coloring require treatment with stronger
-acid (I recommend nitric acid, 4° Beaumé). At the same time the drawing
-should be cut as close as possible. To draw it through securely, place
-it as usual upon the zinc, and above it a piece of prepared copy paper
-moderately moistened, and a trifle larger than the drawing, then a
-blotter, a Bristol board, and a thick card, and draw through as before.
-The coated copy paper sticks tight to the zinc after the first rolling;
-it also retains the drawing in its first position, and allows repeated
-rolling. If the original was over-moist when |75| copying, it sticks
-to the zinc and separates with difficulty; if the moistening was just
-right, two perfect copies can often be made from the same original.
-
-I have attempted to copy drawings on a fatty zinc surface, and to etch
-them strongly, but, far from being satisfied with the result, I prefer
-the above method.
-
-(_b_ and _c_) Copies of lithographs, type, plates for printing of any
-kind, plates for _deep_ printing, I make on well satinized copying
-paper*; in making the prints, I employ a copying ink as thick as
-possible, with the addition of a few drops of a thick solution of
-asphaltum in lavender oil, rolling a long time with but little color,
-so as to get a sharp rather than a heavy print.
-
-          * Instead of the paste-gelatine-chalk, I prefer to prepare
-          the surface with a decoction of semina psyllii.
-
-Plates for _deep_ printing, I heat equally throughout before applying
-the color. Instead of color, I rub them with chemical Indian ink, wipe
-the surface carefully, even polish it finally with a ball and some
-Frankfort black. I then draw it through and again heat it uniformly, so
-that the copy comes off of itself. Fine, sharp transfers, with perfect
-relief, are thus obtained.
-
-(_d_) Anastatic copies are no longer of great value, since they always
-turn out roughly and cannot compare with photographic copies. Although
-I possess a safe method, I believe that I will have to omit it on
-account of the limited space of my work and the minute importance of
-the results.
-
-(_e_) Photographic fat or resin prints should be treated like ordinary
-prints. Moisten them on the back with water—which is preferable to
-placing them between moistened blotting-paper, since the drawing does
-not grow too wet—and wait till they are easily flexible. Drops of water
-on the film can and often do destroy the proof. Draw the plate through
-with increasing pressure and one intermediate moistening. Prints in
-fatty inks necessitate a temperature of plate of 35° C. Prints with
-dissolved etching varnish (resin) as a printing film should have from
-50°–60° C. When loosening the paper avoid warming, but moisten well.
-Sticking of the gelatine film happens, especially with Husnik’s paper;
-a safe remedy is to dry the copy in strong light, after developing.
-Old sensitized paper, on the contrary, seldom sticks at all, and fresh
-paper should always be sought.
-
-In printing with the rolling press, I observe that the rollers of the
-press need only once to be regulated, and that greater or less pressure
-can be attained by thicker or thinner covering of the print with
-sheets of paper. This gives much greater security than can be had when
-constantly readjusting the rollers. |76|
-
-
-THE FURTHER TREATMENT OF THE TRANSFER.
-
-Should we now proceed directly to etch the copy, the acid would act
-through the drawing, which is as yet but loosely attached to the zinc,
-and would at last cause the lines to appear broken, if not destroy them.
-
-It is, therefore, necessary to replace the loose copy by a possibly
-dense etching varnish, attached fast to the zinc, and to produce an
-intimate connection between the latter and the etching varnish. Here we
-meet a difference between the French and Austrian methods. The former,
-totally based on the lithographic process, favors the use of a resinous
-dense color as a _strengthening material_, whereas the Austrian method
-employs an ordinary copying color and endeavors to form an etching
-varnish by sprinkling and melting in a quantity of finely pulverized
-resin. In the method of etching with copper sulphate, it was attempted
-to restrict the corroding action of the sulphuric acid by the following
-method: The drawing, rubbed with color and thinly besprinkled with
-resin, was slightly melted in, then sprinkled and rubbed with the
-finest silver graphite or real water-gold. It was thus made an electric
-conductor. A thin coating of copper was then deposited on the drawing,
-which, in point of fact, hindered the destruction of the film. At the
-same time, however, the process became uncontrollable, since often a
-deposit of amorphous copper became tightly fastened to the metallic
-surface. The lateral action could not well be ascertained, since the
-narrowest parts were often clogged with metal, without preventing
-corrosion from below.
-
-The French method of etching is this: A thick solution of gum-arabic
-is mixed with extract of nutgalls; this is carefully spread over the
-surface of the plate by means of a fine sponge, and dried by a fan.
-Then a knife’s point full of etching color (composed of 500 grammes
-chalk color, 40 grammes coagulated mutton suet, 40 grammes soap, 125
-grammes yellow wax, 40 grammes margarin, and 40 grammes oleine, melted
-in the warm bath and passed through the color mill) is dissolved in
-oil of turpentine, and a portion of this solution is spread uniformly
-on the grinding stone by means of a fine sponge, so that the latter
-contains a similar layer of color throughout. The fatty gum film
-is then washed, with a wet sponge, free from fat and acid; a fresh
-quantity of the gum and nutgall solution is poured out, and the copy
-is by degrees strengthened by rubbing on the etching color with a
-sponge. This is repeated until the drawing has attained the proper
-strength throughout. The superposed layer of gum is then washed off,
-the superfluous water is removed with a sponge, a wet cloth, and
-blotting-paper, dried with a fan, then gently warmed. |77|
-
-Now the plate is to be dusted with the finest pulverized resin,
-consisting of equal parts of Syrian asphalt, washed in alcohol, and of
-mastic; the superfluous resin is removed with a brush and some cotton;
-the plate is then carefully heated, without beginning to melt the
-resin, however.
-
-This, by the French method, finishes the plate for etching. Only weak
-acid is safe for such a plate, however.
-
-According to the Austrian method (practised by me for several years),
-we proceed as follows: The copied plate is first copiously coated with
-a cold saturated solution of gallic acid, and then with a pure solution
-of gum. Without allowing it to dry, I remove the superfluous preparing
-materials with a wet sponge, and pour on some fresh gallic acid, as
-with an excess of acid the drawing assumes a more brilliant black color.
-
-The strengthening with ordinary copying color I effect, as the case may
-be, with the rollers, the sponge, or by coating.
-
-(_a_) _Strengthening with the Rollers._—I roll out some thick copying
-ink with good, rough rollers which have been frequently used, and begin
-to roll the transfer plate while still damp, without any pressure, till
-its surface begins to dry. I then grasp the handles of the rollers
-more firmly and blacken the dry plate uniformly, giving it a thin
-coat of ink. This done, I moisten it a little and roll it regularly
-with rollers freshly treated with color, so that the picture comes up
-harmoniously and strongly.
-
-Rolling off during drying keeps the gum solution from the drawing while
-drying on, and keeps open the connection for rolling in.
-
-Before going further I will explain the terms used*: To roll in is
-to give color or ink, and is done slowly, with tightly grasped handles
-and certain pressure. Rolling off is effected with loosely grasped
-handles, without pressure, and quickly, and is intended to draw off
-with the rollers any excess of color on the plate. _To work out_ or
-_make the rollers_ means to bring fresh color on it from the grinding
-stone, and is done with strong pressure and strong traction. The
-correct management of the rollers rests in the wrists. To _reverse the
-rollers_, to _change the handles_, means to turn the rollers around,
-to make the left-hand handle the right-hand one, and thus to correct
-irregularities in the distribution of color. After every advance and
-return on the stone or plate to be blackened the rollers are newly
-adjusted. The plate thus strengthened must be well |78| washed with
-clear water, to be dried, and at times even to be retouched with a
-brush and color dissolved in oil of turpentine.
-
-          * Color and ink are synonymous. “Burn in” and “melt in” mean
-          the same.
-
-(_b_) _Blackening in_ with a sponge. The initiatory etching is done
-with gallic acid, the gum coating put on and additional gallic
-acid poured over; then some turpentine solution of copy color, the
-consistency of syrup, is rubbed over the plate until the picture is
-uniformly strengthened. If, as may happen in hand-drawings, the color
-should become massed and not attach itself smoothly, it must be washed
-off with turpentine and then clean color must be rubbed on.
-
-This operation requires great delicacy. After having finished the
-blackening in, rinse well, dry with a sponge and thick blotting paper.
-Heat, so as to vaporize the last remnants of dampness, and retouch.
-
-(_c_) A peculiar method of strengthening, nowhere described, as far as
-I know, is that of drying the plate after coating it with gum, then
-washing the gum with water; then, after drying, of covering the plate
-with a thin solution of wax, asphaltum, rosin, and shellac in ether,
-and of carefully coating the quickly drying film with gum. The film
-remains on the lines of the copy, but easily detaches itself from the
-bright metallic spaces, which have an insoluble combination with the
-gallic acid and gum, and are thus protected from the fat.
-
-_Faults in strengthening_ are caused by the following:
-
-_a._ By ink which is too thick or too thin, or which has not been well
-ground. Stripes are caused by the dissolving of the color which is
-already present.
-
-_b._ By excessive dampness on the plate (it does not take the color;
-the color in the sponge changes to a slimy emulsion).
-
-_c._ By too great pressure with the color sponge the fine parts are
-lost. The same is the case with careless washing of the color of
-hand-drawings.
-
-_d._ In _rolling on_ excessive moisture on the plate spoils the work.
-The surface of the rollers becomes glossy and must be again inked.
-
-_e._ In pouring out the ink a very thick layer prevents the
-strengthening of the finest lines.
-
-Dirt on the plate often comes from handling the drawings; it must be
-scratched off and the plate must be perfect before proceeding.
-
-Now comes the changing of the ink into an etching varnish. But before
-beginning we must cover the free edges of the zinc for the distance
-of half a centimetre around the drawing with a solution of ink in
-turpentine; the same applies to large white surfaces in the drawing,
-which it is more convenient to cut out with a scroll saw. Then subject
-the plate to the finest asphaltum |79| powder, passed through a
-hair-sieve, and cover it by the dusting brush copiously with powdered
-rosin. Continue the rubbing on of fresh powder for a minute, until the
-ink is saturated, then dust out the superfluous powder with the dusting
-brush and fine cotton, so that the metal is bright (no film should be
-perceptible on looking over it).
-
-The plate should now be heated to about 60° C., till the color of the
-asphaltum changes from a coffee tint to a dead (matt) black. Place the
-plate in this condition a second time with the asphaltum, which is
-again absorbed rapidly. Dust off carefully as before and burn in again
-till the color changes to a somewhat shiny black; the yellow tint must
-be avoided, because this degree of burning exposes the lights in the
-closest hatchings to the danger of running together.
-
-Thus the coat of color is changed into an etching varnish of excellent
-resistance and adhesion, and the plate is ready for etching.
-
-
-THE ETCHING AND ITS INTERMEDIATE TREATMENT BEFORE MOUNTING THE CLICHÉ.
-
-_Introductory remarks._—If we examine a wood cut or an electrotype with
-regard to the depth of its narrow and wide-line complexes, we can at
-once determine a plane for the closest hatchings; in a uniformly deep
-layer the lines lie at a moderate distance apart, and those of the
-highest lights are very deep. These three planes are situated higher
-or lower according to the very narrow or very wide series of lines.
-This gives a natural division of the different stages of etching, and,
-according to the three depths, we distinguish the _sharp etching_ or
-_etching on_ in which the engraving must advance far enough to place
-the narrowest portions sufficiently low; _middle etching_, which has
-to accomplish the same for the moderately narrow portions, and _deep
-etching_, which must attain sufficient depth for the highest lights.
-
-On account of the lateral action of the acid it is impossible to etch
-down perpendicularly, but a wider covering is taken for each stage. Of
-these wider coverings there remain after etching all around the relief
-two terrace like grades, which must also be removed.
-
-We have, then, in addition to the above, three sorts of etching, a
-_round etching_, in which the grade remaining from the deep etching is
-to be removed, and a _clean etching_, or a removal of the wire-edge
-left after middle etching.
-
-This natural subdivision is found in the old French method as well
-as in the |80| new method, and both coating and the acids are of a
-strength proportionate to the different stages of the work.
-
-We have already alluded to the lateral action of the acid; it is a
-factor that taxes the care of the etcher in the highest degree. In the
-beginning of the action of the acid, the edge of the metal under the
-coating is exposed the more, the longer the action lasts; here, of
-course, the dissolving power becomes apparent. The deeper we go, the
-more the metal under the line is exposed, and the action on the lateral
-edge continually increases. In the effect of the acid we distinguish
-thence, a perpendicular and a lateral action. Since the latter cannot
-be removed by changing the character of the acid, we must give it a
-part in this process of dissolving metals, but at the same time must
-invent a method which will prevent the lines from growing thin.
-
-But in order to do this we must know the relation of the perpendicular
-to side action. Both are in proportion, a result both of theoretical
-and practical consideration. In order then to attain a certain depth of
-etching, a proportional lateral protection must take place, which is
-by degrees destroyed by the lateral action. Since this lateral action
-sets in at the beginning of the work, the dimension of the line must
-be secured from the start. This is done in the Vienna method by the
-already mentioned formation of the etching varnish, by means of dusting
-with resin and burning in, by which an almost imperceptible growing of
-the width of line is attained. The French method endeavors to correct
-this by using a very weak acid and a correspondingly thin coating,
-but coating oftener and etching at every new coating, as we shall see
-below. Also the coating for middle and deep etching must be arranged in
-accordance with the principles above elucidated. As deep as the middle
-or deep etching is desired, so wide must the lines be surrounded by
-etching varnish.
-
-
-ETCHING BY THE FRENCH METHOD.
-
-We have already seen (p. 76) how a copy is made by the French method
-for etching, and we now continue the development of this process.
-
-Into a tray pour 4 litres of water at 18° C., add 15 c.cm. nitric
-acid and mix well by shaking. Then place the prepared plate into the
-bath and rock it for seven or ten minutes (according to the fineness
-of the drawing), rinse well with water, remove the remaining water
-with blotting paper, and, finally, dry thoroughly with a fan. (Do not
-forget to dry the back.) Now warm the plate from the back, moving the
-flame about continually, so as to secure uniform heating and prevent
-warping of the zinc. The asphalt powder, which is as |81| yet but
-loosely attached, is more intimately connected with the subjacent ink
-through this heating process. The combination becomes evident from
-the assumption of a black lustre. With the appearance of this, stop
-heating, and lay the plate on a cold stone to cool. This done, spread
-some gallic acid over it with a soft sponge, and without washing it
-off, spread gum on the surface of the plate, and hasten the drying with
-a fan.
-
-Mix some etching ink with varnish and work it out into a thin layer
-with good rough rollers. If the rollers are in order, wash the coat of
-gallic acid and gum from the plate, remove superfluous water and _roll
-in_ (the manner similar to that used in lithography). The surface of
-the plate should not be more than moderately damp, so that the rollers
-may not slip. If a coat of color has been uniformly deposited, wash the
-plate with clean water, remove the excess with a sponge and blotter,
-dry by fan and remove all moisture by heating to 45° C. Dust the warm
-plate again with asphaltum (remove the excess), and warm it a trifle
-to secure better adherence. Strengthen the bath by the addition of
-15 c.cm. nitric acid, and etch again for seven or ten minutes under
-continued shaking. Then rinse the plate, remove the water and dry with
-a fan, and burn in the resin powder well. Careful inspection will now
-show a successful and uniform but still weak relief.
-
-As before, the plate is coated with gallic acid and solution of gum,
-is dried, washed, and _blackened in_, in which treatment one-third
-“wax pomatum”* is mixed with the etching ink. After washing and
-drying heat the plate up to 60° C., thus causing an imperceptible
-widening of the drawing. After coating dust once more with asphaltum,
-warm it and cover only the back and the white rim around the drawing
-with a solution of shellac (1 part ruby shellac in 10 parts spirits).
-Strengthen the bath with 20 c.cm. of acid and bathe it for seven to
-ten minutes, shaking the bath regularly. Continue until you see that
-the lateral action of the acid has almost wholly destroyed the lateral
-covering produced by heating. Do not, however, etch too long, and do
-not mistake the _over_-hanging coat for the other. Then follow washing,
-drying, melting on some resin, cooling, coating with gum, blacking
-in with equal parts of etching ink and “wax pomatum,” then washing,
-drying, greater heating (70° C.) (so that by increasing the ink each
-line receives lateral protection), cool and dust to excess with the
-finest resin dust. |82|
-
-          * Wax pomatum is prepared by cutting beeswax into fine
-          parts and covering it in a wide-necked flask with oil of
-          turpentine. In a few days a jelly-like mixture will remain,
-          which serves the above purpose.
-
-As we have now reached the necessary depth for the narrowest portions,
-we use, instead of the asphaltum, resin, which melts easily and spreads
-out readily, in order to attain protection for our middle etching.
-
-Strengthen the bath with 30 c.cm. acid, and bathe until the lateral
-action of the acid has reduced the lateral coating to a narrow edge.
-Then wash, dry, melt on some resin, cool, prepare with gum. Blacken in
-as before, but employ one-third etching ink and two-thirds wax pomade
-and apply so thickly that all the narrowest spaces of the drawing are
-completely filled with color. Continue warming until the ink, which was
-applied, has well covered each line; then dry and use resin as before.
-
-The acid may now be strengthened by 100–158 c.cm., according to the
-strength of coating chosen. Bathing must be continued until the edge
-that has run off begins to grow narrow. Wash, dry, burn in resin, cool,
-coat with gum, and blacken in by rollers with clean wax. Continue
-heating until each line is well covered by ink. Always dust until the
-ink is fully saturated and then heat gently.
-
-Strengthen the bath 200 c.cm. and begin the _deep etching_. According
-to the depth to be attained repeat the manipulation of strengthening
-once or twice. Whenever a corrosion of the lateral coating becomes
-apparent, coat freshly, adhering to the above order of operation. For
-obtaining the necessary depth ink is applied about _ten_ times, adding
-wax each time to facilitate the spreading when warming.
-
-In order to attain a fine, regular lateral coating, great ability in
-manipulating the rollers is necessary, since without such the correct
-degree of strengthening is never attained. Irregular coating leads,
-of course, to irregular melting of the ink; one spot then is already
-sufficiently wide, while another is not yet covered. In such cases
-coating with a brush must be resorted to.
-
-If the necessary depth is attained, the plate is to be freed carefully
-from the coating with a brush and oil of turpentine, and then placed in
-fresh sawdust, which absorbs the oil of turpentine and leaves behind
-a clean surface. Now the work can be criticised in all its parts. To
-every coating is a corresponding narrow edge of etching, which is now
-to be removed in order to make the plate fit for printing. To removing
-these edges we must devote our attention. We begin with the top one,
-and make preparations thus: Roll out on a clean, warm stone with
-faultlessly smooth rollers a very thin gauze-like layer of etching ink.
-Likewise warm the zinc plate and roll it in all directions without
-pressure till the picture becomes beautifully black. |83|
-
-Pressure must not be employed, but the coating must be obtained by
-renewed _working out_ of the rollers on the _color-slab_, and repeated
-coating. When at last the desired strength is obtained, dust with the
-finest asphaltum powder, blow the traces of dust out of the hollows,
-and warm till the layer becomes slightly brilliant. Next, etch in a new
-bath of 4000 c.cm. of water and 40 c.cm. of acid for 7 minutes, wash,
-and dry well; then, with more ink on the rollers, coat the dried plate,
-dust once with resin, heat gently, then apply the asphaltum and burn in
-strongly. Thus the first relief is protected laterally, and the first
-grade can be etched down completely, without endangering the drawing.
-To remove the second grade, we repeat washing, and put on etching ink
-mixed with one-third wax. Rolling must continue till the narrowest
-spaces of the etching are completely closed. Then follow dusting with
-resin, warming, and placing the warm plate in the asphalt, dusting,
-removing the excess, and finally burning in.
-
-With this coating a further rounding of the grades can take place (in
-a bath of 10° Baumé). Continue this process until all the grades are
-removed and the etching appears as perfect as a cast plate.
-
-Since hitherto all publications on chemigraphy have duly described
-this method, I believe that I should not enter into further details,
-improvements, etc. Suffice it to call attention to weak points. In
-view of the new method later to be described, the reader may make a
-comparison between the two.
-
-A very weak point is the method of strengthening based on the
-lithographic process of superimposing new color upon the old color.
-In consequence of the repeated melting in of resin, this latter
-acquires an uneven surface, which can be blackened in only with great
-difficulty. Equally untrustworthy is the lateral protection by _melting
-off_, which is only attained with safe uniformity by skilled workers.
-And what is more, with the weak coating at the beginning; even weak
-acid often works its way through to the etching, so that the finished
-etching appears slightly porous, and gives no dense black print. Also
-shaking, which is to promote the removal of the metallic mud and the
-gas bubbles from the lines of the etching, has an unsatisfactory
-effect, inasmuch as the single lines are often thus under-washed.
-
-But the principal defect is that no accurate determination of the
-degree of each operation can be made, everything depending on the
-delicate execution of the process.
-
-The time that the etching of a correct, deep cliché requires by this
-method is from eight to ten hours. This procedure also demands better
-trained hands |84| than the Austrian, which, in large establishments,
-is based on a division of labor, and in which men trained in a single
-manipulation, under good supervision, accomplish the maximum work
-surely and excellently.
-
-Furthermore, the expenses of the manufacture on a large scale are
-far greater, since each etcher draws a greater salary than a workman
-skilled in a few manipulations, such as the following method requires.
-
-
-THE AUSTRIAN METHOD—THE ETCHING ON.
-
-I have already shown how a transferred plate should be prepared for
-etching by this method. Before proceeding to the details, however,
-we will prepare the etching baths, which, by the way, may always be
-employed for several plates. Corresponding to the three steps of
-etching, we require three baths of different concentration to be
-determined by means of an areometer with a Baumé scale. The bath for
-_etching on_ is prepared in strength of 2° Baumé at a temperature
-of 18° C. There must be a quantity sufficient to cover the plate to
-a depth of 4 to 5 centimetres. The bath for middle etching requires
-10° Baumé and a temperature of 18° C.; the bath for deep etching,
-18° Baumé. These baths are prepared at the beginning, and are used
-for the five successive stages of etching. If, after continued use,
-the bath for deep etching should grow weak, it may be used for middle
-etching. For protecting the trays, I recommend a coat of gutta-percha
-over a well-coated inner surface of asphaltum. Everything being ready,
-immerse the prepared plate in the bath, and with an etching-brush brush
-the surface of the plate uniformly for two minutes.
-
-The hairs of the brush must only rest lightly on the metallic surface.
-For determining time, use sand-glasses of two, three, and five minutes.
-After two minutes, take the plate out of the acid, wash it well with
-water, and examine it carefully. If the effect has not been uniform,
-see that two minutes more can be safely given in the etching bath. If
-by any sort of careless handling the plate has been injured, dry it
-with blotting-paper, vaporize the remaining dampness, and cover the
-soiled spot with very thick solution of asphaltum in turpentine. Cool,
-and continue brushing lightly for two minutes in the bath.
-
-At the end of this time, wash and examine again. Even now everything
-will be intact. With very fine drawings, however, lateral action has
-already progressed so far that, under all circumstances, the exposed
-edges must be covered. Coarser drawings generally stand one or two
-minutes more.
-
-To try the depth of etching: with your finger-nail on the edge of the
-black |85| rim, feel how far the etching-on has proceeded. As soon as
-the finger-nail catches, the depth is sufficient, and the sides of the
-lines may be covered.
-
-For this operation the plate needs, above all, thorough washing, drying
-on both sides by blotting-paper and gentle heat, and a temperature
-of 45° C. At this temperature place the plate into the finest
-resin-powder, and rub the latter several times over the warm drawing,
-using for this purpose a fine brush. The protection, which has grown
-sticky through heating, retains a thin coating of resin, which, after
-dusting off the bright metallic spots with a brush and fine cotton,
-and after careful fanning off, is reheated to about 50° C. At this
-temperature the plate is returned to the white rosin, receives a good
-dusting-in, and being freed from excess as before, is heated to about
-65°, so that the easily fusible rosin begins to spread out. At this
-moment extinguish the light, and put the plate into the asphaltum,
-which will attach itself copiously to the sticky resin. Brush the plate
-well with the substance, remove any excess from the bright spots, heat
-to 80° C.; then place it again into the asphaltum, brush it, clean
-it by removing any excess, and heat it to 100° C., when a complete
-combination of the resinous mass takes place, and a uniform etching
-varnish is formed. This last coating is extremely regular, and it is
-wonderful to see the accuracy with which the lines have been covered.
-Beginners are warned to pay attention to the careful cleaning of the
-bright parts of the plate when brushing and dusting it; should any
-resin remain behind, it melts on, and grows by degrees to a strong
-yellow tint, which is very difficult to remove, but very easy to guard
-against. Never forget to dust off the back.
-
-While the plate is still hot, lean it against the wall, face in, and
-the back covered with a solution of shellac.
-
-Now the plate is ready for further etching, which is carried on for two
-minutes in the first bath. At the end of two minutes, wash and examine
-critically. In almost every case we may etch for a third, or even a
-fourth time. It is, however, sufficient for the beginner to know that
-he has sufficiently etched in two spaces of two minutes each, after
-preparing with resin. Trying and examining with the finger-nail on the
-black edge will show a fine relief. Should it be possible to etch for
-a third space of two minutes, or even of one, without danger, it is
-preferable to do so. It should be a rule to proceed as far as possible,
-judging from the character of drawing and coating. Experience is easily
-gained in two or three trials, since anything can be examined at any
-moment. Beginners would do well to use a magnifying-glass with good
-field of view in examining, when they can observe the most sensitive
-portion, and |86| all changes may easily be noticed. The brush should
-be used lightly, to prevent scratching. Usually, it is fastened at
-right angles to a stick to protect the hands from the effect of the
-acid.
-
-To raise the plates out of the tray, lay a gutta-percha thread into the
-bottom of each tray, fastened at one end to the top edge of the tray,
-projecting over the same on the other side. The plate is placed on the
-thread while etching. It may be removed without touching the bath by
-pulling the free end of the thread.
-
-As already remarked, the spreading of ink on a surface which is more
-or less rough is difficult. For this reason the plate, when etched-on
-after my method, is to be washed out with oil of turpentine. A strong
-brush should be used for this, and some of the oil rubbed over the
-plate without pressure. You must cause a dissolving, not a rubbing off,
-of the coat. On continuing the addition of turpentine, the metal grows
-bright. Take, then, a handful of the coarsest of pine-wood sawdust and
-rub off the surface. This removes instantly every trace of turpentine,
-leaving a clean surface behind. For the sake of security, pour on more
-turpentine, rub with a somewhat softer brush, and remove again with
-clean sawdust.
-
-It is important that the wash-table should always remain free from
-sawdust, which latter should fall through the grating into a suitable
-receptacle. If this rule is disregarded, the wash-brush will soon be a
-conglomerate of sawdust and hairs. Sawdust and turpentine will stick to
-the brush so tightly that a new brush will have to be purchased.
-
-Now we again examine our work. It is a mark of success if the relief
-still shows its original smoothness in all its parts, and has nowhere
-grown porous. All the parts must be clear in their correct proportional
-strength, as seen in the transfer.
-
-The treatment of the plate from the time of transfer to the close
-of the etching-on takes: for the saving of the edges and the white
-portions of the drawing, 2 minutes; for preparing twice with asphaltum,
-4 minutes; for varnishing the back and coloring the plate, 4 minutes;
-for etching-on the lateral protection, 4 to 5 minutes; for preparing
-twice with resin, asphaltum, and varnishing, 16 minutes; for renewed
-etching, 4 to 5 minutes; and for washing, 5 minutes—that is, 33 minutes
-in all. Add 7 minutes for inspection and retouching, and 40 minutes
-will be the space allowed for etching-on. |87|
-
-
-MIDDLE ETCHING.
-
-In order to give to the middle tints of the drawing the depth necessary
-for printing, we begin with a new blacking-in. We need for this purpose
-excellent, smooth, and hard rollers, which are immersed in minium and
-linseed oil, and are then left to dry for a short time. Contrary to the
-French method, we need here a thin composition for the etching ink,
-obtained by concocting equal parts of paraffine, suet, beeswax, and
-ordinary ink, prepared in an excess of good linseed oil. (Ready-made
-color of right composition may be had of E. Liesegang, in Dusseldorf,
-and other dealers.)
-
-This color, when of right composition, possesses the power of absorbing
-resin-powder, and changes in combination with the same, when heated, to
-a compact, very solid, yet brittle mass.
-
-Of this color, which is soft as butter, take a portion on a
-knife-point, and spread it upon the smooth rollers, forming a perfectly
-uniform layer. The complete covering is done by rolling, changing the
-adjustment at intervals. When a perfectly uniform, oily coat is spread
-on the color-slab and the rollers, begin rolling-in the washed plate.
-
-Do not exert any pressure, but roll, carrying the handles so as to
-black the relief only from the surface of the rollers. Of course,
-it cannot be prevented, and is of no consequence, if ink attaches
-itself to the large white spots. Rolling continues till the oily brown
-coating has deposited itself uniformly. Exercise care in order not to
-get more ink on some spots than on others. The plate, now completely
-rolled, is placed in the finely powdered resin, with which it must
-be completely covered. For the space of two minutes the oily color
-absorbs the powder, which should, therefore, be strewn on it and rubbed
-off repeatedly. If saturation in the cold has taken place, dust off
-lightly with brush and cotton, blow off well, and heat uniformly to
-35° C. The resin should not melt now, but should only grow sticky and
-combine intimately with the color, which forms the binding material.
-This change is observed immediately in the change resulting in the gray
-resin coat. As soon as the change occurs (beware of unequal heating),
-again place the warm plate into the resin, saturate as before, dust
-out, blow strongly on the bright, metallic spaces, to remove remaining
-traces of resin, and heat to 50°–55° C. At this temperature cover the
-film with fine asphalt powder, dust off as before, and heat to 65° or
-70° C. In this condition the plate is again saturated with asphalt,
-and the layer, after careful dusting and blowing, is heated until it
-grows slightly |88| brilliant. Thus a complete coating is formed, and
-the plate has the appearance of Fig. 6. The black spots represent the
-dirt which has clung to the intensest lights, and must be removed.
-But before attempting this, we varnish the back of our plate with a
-solution of shellac, and cool it completely in water.
-
-[Illustration: Fig. 6.]
-
-Now take a very coarse scraper, ground with a sharp edge; hold it
-between the index and middle fingers, and scratch away the dirt from
-the light spots, making the edge of the scratcher draw the strokes
-close together. The brittle backing breaks off finely, and in a few
-minutes the dirt is removed and the plate is ready for etching. If
-(which will only happen to beginners) the drawing should be scratched,
-the exposed spot must be covered, by means of a brush, with a thick,
-warm solution of asphalt in turpentine; the dirt which was scratched
-loose is brushed off, and the plate goes into the bath for middle
-etching for about three minutes. Brushing and washing follow in the
-same way as in the previous operation. At the expiration of three
-minutes inspect (with or without a magnifying glass); places that have
-been uncovered must instantly be covered with asphaltum, as already
-directed. Etching is continued till the lateral coating no longer
-protects the first relief, which generally takes place after the third
-period (in about nine minutes) in a new bath, but requires twelve
-to fifteen minutes in an old one. It is proved by the existence of
-only a narrow thread alongside of the relief. The moment can be well
-ascertained. If we wish to be sure of it we may do so by exposing the
-edge of the black rim at different places; the width of the thread
-is then apparent, and a safe conclusion may be drawn from the single
-spots as to the whole plate. If not enough middle etching has taken
-place, the thread remains wide and requires an extraordinary clean
-etching, which may lead to the picture growing thin and endanger the
-finest lines. Care, then, is necessary to ascertain the right moment of
-suspending the middle etching, and of continuing in the above-described
-manner with oil of turpentine, brushing, sawdusting, and washing.
-After drying and brushing off the sawdust with a strong brush, we
-have the clean plate ready for examination. We observe the grade of
-etching produced by |89| middle etching parallel to the contours of
-the different parts, and can safely assert that the process has taken
-its natural course. Etchings without real deep places (as high lights)
-might here be _etched clean_—that is, might undergo removal of the
-formed _etching grade_. Yet it is preferable to place the edge of the
-drawing as low as possible, to prevent a tendency to crookedness,
-so-called facetting, and to get a deep edge for nailing the plate on
-wood. The outward appearance of the etching improves considerably, and
-the cliché can be fastened much more securely. The chemigraphist must
-endeavor to satisfy the demands of the printer in all respects, and
-should omit nothing that serves to perfect his work. Thus only can he
-gain a good reputation both for himself and for his work.
-
-
-DEEP ETCHING.
-
-Having been successfully treated in the middle etching process, the
-plate needs only depression of the larger light spots. Some simplify
-this part of the work by cutting out the highest lights by means of
-a chisel, reverse ground. This can easily be done after a little
-practice, and often saves time and acid. Care should be taken with the
-chisel; the plate should lie on a flat surface and the cutting twist
-be executed lightly and regularly. If this course is decided upon and
-is applied to the highest lights, proceed to the execution of the deep
-etching. Such chiselling does not happen in my laboratory, since I
-prefer to etch all plates alike to their normal depth.
-
-An excess of ink is now well spread over the rollers and the plate
-is rolled in all directions. Close up all the middle tints and give
-the acid room only in the densest lights. This coating is done by
-warming the regularly covered plate to 31° C., and allowing the ink to
-flow down rapidly and cover the recesses. A second coating with slow
-manipulating of the rollers and manipulation of the handles without
-pressure, will yield a sufficient coat from above. If, despite this,
-certain parts should not be sufficiently blackened, rub on more ink
-till the covering is sufficient and the side protection perfect.
-
-As in middle etching, we must proceed to the formation of an etching
-varnish by dusting with gums, placing into resin, by lightly rubbing
-this resin on in constantly renewed layers, till the absorptive power
-of the ink ceases; then warming and dusting warm with the same resin to
-complete saturation; then raising the heat as above, and dusting with
-asphaltum to saturation, heating stronger and finally placing the hot
-plate into asphaltum, which again secures all parts covered with ink
-and resin. |90|
-
-At the different times of removing the dust, pay particular attention
-to the bright metallic parts. Over-removal of dust removes resin from
-the layer; under-removal leaves behind an obstinate yellow tint in the
-bright spots. Practice and experience readily prove the best teachers
-in this respect.
-
-The final heating of the etching varnish must be pushed so far that
-an intimate connection is effected between all of its parts. This is
-easily noticeable from the uniform gloss of the mass. While still hot,
-the back of the plate is carefully varnished and cooling is promoted by
-dipping it into cold water.
-
-[Illustration: Fig. 7.]
-
-But few spots are to be removed by chiselling (see Fig. 7), for the
-rollers have only blacked the middle of the highest lights. These
-spots, as indicated in middle etching, are scratched bright with a
-chisel. It is important always to scrape off the white edge around the
-drawing. Scratching of the plate does not even happen with beginners,
-except in cases of gross carelessness. If it does happen, a good
-covering with the turpentine solution of asphalt must be used. When
-this is all done properly we proceed to etch.
-
-The process of etching by the aid of a brush is continued in periods
-of five minutes each. It is necessary to examine the side covering
-carefully at the end of every operation; a diligent brushing off of
-the surface is also to be recommended. Etching is continued until, by
-degrees, the lateral coating decreases and the grade grows narrower. At
-this juncture—that is, after about five to six operations (twenty-five
-minutes) the necessary depth is attained. In few cases (and almost
-always with beginners), it happens that a single coating does not
-suffice for deep etching without endangering the plate. In such cases
-wash the plate, coat it a second time, and form a second etching
-varnish.
-
-When the depth is satisfactory the plate is washed and the new grade
-may be criticised.
-
-After a proper examination, we proceed to the
-
-
-ROUND ETCHING.
-
-Its object is to remove the last formed grade. Coat the plate with a
-very uniform coating of ink, corresponding to the one used in middle
-etching. A |91| criterion for correct coating is, that only the grade
-caused by middle etching be covered, while the grade from deep etching
-must remain exposed. Remember also that in heating the plate a further
-spreading is caused by melting.
-
-To the inexperienced it may happen that the grade caused by deep
-etching is of variable width. These places must be removed by working
-over with a graver before continuing, as otherwise we will not attain
-symmetrical round etching.
-
-The plate prepared for the latter treatment is only dusted once in
-resin, and then blown out. It is then heated to 45° C., and is dusted
-and heated twice with asphaltum at increasing temperature, just as in
-both the previous processes. Nothing now remains to be scratched away.
-After having varnished the back, the plate is etched in the middle
-etching bath two or three times for three minutes. At the end of each
-period examine whether another whole period is necessary, or whether
-rounding the plate requires less time. When this is over (several
-parts, which perhaps were already finished beforehand, have been
-covered), wash and approach the next problem, the removal of the grade
-resulting from the middle etching. This is called
-
-
-CLEAN ETCHING.
-
-Upon the clean, smooth rollers spread thick transfer ink and roll it
-out perfectly. It is advisable to warm the stone previously with a
-little alcohol, which promotes the working out of the color. When the
-surface of the color has become perfectly uniform the plate is rolled
-in slowly and without pressure. Pressure would deposit too much color
-in the finest recesses, and prevent the clean etching and sharpening of
-the same, thus causing lack of harmony in the prints.
-
-It is better to coat the shadows with a pad, as they require more color.
-
-The plate, thus blackened, is to be dusted once with the finest asphalt
-powder, then freed from excess by dusting off and blowing until the
-coating becomes brilliant.
-
-Clean etching then takes place in the bath for etching on, in
-periods of one minute each, and repeatedly until the last thread has
-disappeared.
-
-Now everything is ready for a proof, and for subsequent mounting.
-
-Fig. 6 shows a print of the little picture given during the process of
-middle and deep etching, and admits of an instructive comparison during
-the progress of the work. |92|
-
-Proofs are made from the cleaned plate (the back of which has been
-scratched clean) in the following manner: Upon a good lithographic
-roller place a quantity of the best ink and coat the etching uniformly.
-Help the shadows along by dabbing on some ink with a leather pad.
-When this is done, carefully rub off the excess in the lightest
-spots, and fix the plate in the rolling-press; place on it a sheet of
-well-calendered tissue paper, next a sheet of writing paper, a sheet
-of Bristol paper, and a cardboard. With very little pressure (the
-thickness of one cardboard less than in the transfer) draw it through.
-If the print is too weak, place paper below, sheet by sheet. The
-stronger spots may be blackened separately.
-
-[Illustration: Fig. 8.]
-
-
-FINISHING AND MOUNTING THE PLATE.
-
-The first thing to be done is the removal of the black edge left by
-etching and the sawing out of such spots in the drawing as were spared
-for this from the beginning. The waste may be removed by means of
-a circular saw or a fine-toothed carpenter’s saw. Do not, however,
-forget to leave behind a margin of about three millimetres for the
-purpose of nailing the plate to the wood. The edges must be smoothed
-with a graver, filed and chipped off to a suitable plane, since sawing
-produces a sharp edge.
-
-To remove the spots spared in the drawing, bore a hole through the
-metal at that spot with an American gimlet, introduce a scroll saw, and
-thus cut out the metal. The edge should be worked over with a dog-leg
-chisel.
-
-By aid of the borer we also make the conical holes in the edge, through
-which the nails are to be hammered. Elevations caused on the back of
-the plate by boring should be removed by filing.
-
-The block of wood which is to raise the height of the plate to that of
-type should be cut from perfectly dry maple, oak, or mahogany wood.
-With the plate it must just reach to the top of the type; the sides
-must be parallel, and all should be perfectly smooth.
-
-Cutting at right angles can be done with a circular saw or with the aid
-of a mitre saw used by printers for such work. For exact examination
-of height, |93| pass the block and zinc through the caliber-bridge
-(Fig. 9). Roughen the base and top surface of the block with a
-toothing-plane. When convinced that the block fits perfectly, nail the
-etching upon it, taking care to drive the heads of the nails well into
-the holes provided for them, otherwise they will show in the print. If
-other small details are noticed, they may be removed with a dog-leg
-chisel.
-
-[Illustration: Fig. 9.]
-
-This finishes the plate for delivery.
-
-In the expounded explanation of my chemigraphical method, the following
-arrangement may serve the beginner as a guide to the manipulations from
-the beginning to the end of the work:
-
-1. Planing the plate. 2. Grinding it out. 3. Freeing from fat, and then
-testing its cleanliness. 4. Transferring the drawing to the metal. 5.
-Preparing the metallic surface after transfer. 6. Strengthening the
-transferred drawing by rubbing, rolling, or flooding it as directed.
-7. Transmutation of the transferred drawing into a resisting etching
-varnish by double besprinkling and burning in of asphaltum, subsequent
-to covering the edges and large light parts, and after varnishing the
-back. 8. Sharp or preliminary etching, strengthening with resin powder,
-and finishing preliminary etching. 9. Washing and examining the work.
-10. Coating with etching ink for middle etching. 11. Formation of the
-etching varnish by double dusting and increasing burning-in of (_a_)
-resin and (_b_) asphalt; varnishing the back. 12. Chiselling out the
-lights of the picture. 13. Middle etching. 14. Washing and examining
-the result. 15. Coating for deep etching. 16. Formation of etching
-varnish by dusting, heating with increasing strength of resin and
-asphaltum; varnishing the back. 17. Deep etching. 18. Washing out and
-examining. 19. Coating for round etching. 20. Formation of etching
-varnish by single dusting and warming of resin, and double dusting
-and burning-in of asphaltum; varnishing the back. 21. Round etching.
-22. Washing and examining the plate. 23. Coating for clean etching.
-24. Formation of etching varnish by single dusting and burning-in of
-asphaltum at a high temperature. 25. Clean etching. 26. Washing and
-scraping the back. 27. Proofs. 28. Cutting out and mounting the plate.
-
-
-|94|
-
-CHAPTER VI.
-
-HINTS FROM ALL SOURCES.
-
-Although the number increases almost every week, there are but few
-persons who understand photo-reproductive processes in all their
-details. Those who do, have been so chary of giving of what they know,
-that our literature on the subject is very scanty indeed. Consequently,
-as all the hints that are obtainable are very welcome, I have collated
-a few from various sources, and make a mosaics of them here for the
-general good.
-
-Every would-be photo-engraver, if he is not already a skilled
-photographer, should obtain and study a good photographic text-book. If
-he proposes to make his own drawings, he should also obtain Burnet’s
-_Essays on Art_. The first will not only teach the best formula for
-the production of negatives, but it will also enjoin the importance
-of being careful, cleanly, and exact in all the manipulations. The
-second will teach how to draw according to the best rules of art.
-Remember always, the old injunction, _whatever you are, be best_! After
-the regular photographic manipulations are well looked after, the
-preparation of the drawing should have attention.—EDWARD L. WILSON.
-
-
-AS TO THE DRAWING.
-
-There are two separate and distinct styles of drawing for reproductive
-purposes, whether the artistic engraver be employed, or any of the
-means of automatic engraving be used. These two methods are technically
-known respectively as _fac simile_ drawing, and drawing in wash. The
-former consists in the sole employment of lines, in which the shading
-is to be produced as well as the outline of a picture. Every line and
-mark that is subsequently to appear in the engraving must be traced
-in the original. This description of drawing is applicable to wood
-engraving, to line engraving upon copper or steel, as well as to all
-the methods for automatically producing blocks for relief printing. The
-line method is also universally adopted by etchers in _intaglio_.
-
-Successfully to prepare drawings for photographic reproduction it is
-essential that some knowledge should be possessed of the fundamental
-principles of |95| photography, as well as an acquaintance with the
-capabilities of the particular process of production which is to be
-employed. Thus, the material upon which the drawing is to be made
-should be of such a character as will yield a strong and well-defined
-contrast to the lines of the drawing; while the pigment employed for
-the drawing should be as black as can be procured. White Bristol
-board of fine surface, and the best India ink meet these conditions.
-A blue-black does not form a desirable drawing medium, but the
-introduction of red or orange into the composition should serve to
-intensify the photographic image. To draw upon a dark orange-colored
-paper with a pale blue-gray ink would be simply to disregard all
-photographic principles, for the photographic value of the paper and of
-the ink would be nearly equal, and the drawing would consequently be
-lost.
-
-Uniformity of color in the drawing is also desirable, and the artist
-should resist the natural tendency to express distance and to produce
-his effects by diminishing the intensity of color in parts of his
-picture. From a drawing uniform in color a satisfactory negative is
-obtained; but, in the other case, the photographer must estimate an
-average duration of exposure, and will rarely escape the dilemma
-of some portions being overexposed while others are comparatively
-undeveloped. This theory receives illustration from the fact that
-very good subdued effects can be obtained from well-executed pencil
-drawings, where this uniformity of color is preserved. A longer
-exposure may be required, but every part of the picture will be equally
-developed.
-
-To return to the matter of the paper used, color is not the only
-important consideration. If the surface of the paper is irregular and
-coarse in texture, such as painters in water-color delight in, good
-results must not be expected. A negative, taken in the ordinary way
-from a drawing made on such material, would inevitably reproduce all
-the inequalities of the texture of the paper, to the manifest injury
-of the more delicate parts of the drawing. In reproductions from old
-prints or printed books, the conditions and character of the paper
-present some of the greatest difficulties with which the photographer
-has to contend. The ridges in the surface of the paper cast shadows
-which are too faithfully reproduced in the negative. The employment of
-a diffusive rather than a direct light is the usual remedy, but the
-best way of dealing with the difficulty is that employed in the studio
-of the Autotype Company. The original is laid upon the floor under a
-strong light, and the camera set at an angle of forty-five degrees.
-
-Mr. Alfred Dawson informs me that he inclines to the opinion, founded
-upon |96| his extensive experience and untiring experiment, that it
-is desirable to get rid of the surface of the paper altogether, by
-covering it with a substance similar to an enamel.
-
-In conclusion, the conditions required in the successful preparation of
-drawings for photographic reproduction, may be thus briefly summarized:
-That a sufficient photographic contrast should exist between the
-pigment employed and the material upon which the drawing is made; that
-a paper should be selected which is smooth and without water-mark, and
-white; that the drawing material may be pencil or ink, in which blue is
-not a component.—JAMES S. HODGSON.
-
-
-FADING OUT THE PHOTOGRAPH.
-
-For newspaper line work excellent results may be obtained by drawing
-over a photograph, and then fading out the photographic parts not
-wanted. There are several methods, but the following is the most
-simple and the easiest to manage: Make a weak solution of cyanide of
-potassium and add a flake or two of iodine. When the drawing is made
-with water-proof ink and on a photograph printed upon bromo-gelatine
-paper the above solution flowed over it will at once cause such
-portions of the image as have not been drawn upon with the ink, to fade
-away and leave nothing but a fine ink sketch against a perfectly white
-background.—ROBERTS & FELLOWS.
-
-
-THE REVERSAL OF DRAWINGS (NEGATIVE PRINTING).
-
-This very simple and very safe method is to be recommended especially
-for advertisements in papers and for titles of books, and can be made
-both by aid of photography (by a transparency) and without it, in the
-following manner:
-
-Make a copy, on copy-paper, of the drawing to be reversed, using an
-ink of gum, glycerine, and aniline, and transfer it carefully, without
-using too much water, when loosening. Dry the plate, and pour over it
-a solution of 1 part of asphaltum, 1 part Venetian turpentine, in 18
-parts benzole; then allow to dry upon a plate. Place the plate into a
-weak soda solution, and develop with a fine pad of cotton, till the
-drawing stands clear. Ordinarily I employ the following method: A plate
-prepared for transfer is uniformly cleansed with gallic acid and then
-coated with gum, as in the case of blackening a transferred drawing,
-while both solutions are left to dry spontaneously. This done, the
-coating of gum and gallic acid is thoroughly washed off, and the plate
-is carefully dried and gently warmed. The transferred drawing must be
-made on |97| paper with an easily soluble layer composed as follows:
-dissolve 100 grammes of wheat starch—_i. e._, starch _made_ of wheat—in
-400 c.cm. of rain-water; raise 1 litre of water to boiling and dissolve
-therein: 50 grammes of common salt, 75 grammes of glycerine, 50 grammes
-of gelatine, and 25 grammes of molasses; when these are well dissolved
-and taken up, add slowly the wheat-starch, stirring continually; then
-allow to boil a short time so that we may dissolve it without an excess
-of water after the ordinary transfer of the picture. When this has been
-done, we wash it again with a soft brush and water, dry, dust twice,
-and burn in thoroughly with asphaltum. Place the plate in a very weak
-bath of nitric acid (10 cubic centimetres of acid to 1 litre of water),
-and rock it lightly for about two minutes until the zinc changes color.
-Then wash, dry, and warm.
-
-The combination of gum and gallic acid is broken up by this etching
-in all those places which were not protected through the transferred
-drawing, and the latter itself, in the subsequent blackening with
-chemical India-ink, forms the coating and protection against a
-combination of the zinc below. It is best to blacken it with a brush
-and to warm the plate until the ink has become dry. Now moisten again
-with gallic acid and gum, wash the plate (without great pressure) with
-spirits of turpentine, rub on more of the solution of gum, and blacken
-as usual. Practice will insure safe working by this method.—J. O. MORCH.
-
-
-ETCHING APPARATUS.
-
-It does not come within the province of this work to instruct in the
-preparation of inks and colors for etching or for printing, since such
-articles are better purchased of the dealers ready prepared. In all
-cases the choicest results are obtained by using the best apparatus
-and the purest materials. There is no economy in “getting on” with the
-“cheap.”
-
-A few hints as to some of the “tools” which are found convenient in
-practice: For sifting the fine _resin dust_, a machine is employed,
-known to sieve manufacturers as “the _composition_ sieve.” It consists
-of the ordinary sieve, having on each side a cover with a bottom of
-calf skin. The sieve-bottom is made of the finest silk texture. (See
-Fig. 10.)
-
-For fixing and melting-in of the drawing on metal, I use a grate made
-of a wooden frame with diagonal iron rods. This form is preferable
-to the ordinary grate, because it allows the flame free access to
-the metal plate. Inasmuch as the heat is strongest in the _centre_,
-the cross-bars protect the centre of the plate from burning and from
-warping. The source of heat is either an alcohol |98| lamp (Fig. 11)
-in which cotton soaked in alcohol is ignited (the cover shown in the
-drawing serves to smother the flame), or a strong gas flame (Bunsen
-burner). The adoption of the latter mode is advisable.
-
-[Illustration: Fig. 10. The Sieve.]
-
-[Illustration: Fig. 11.]
-
-Formerly I employed a plain cast-iron heating-plate, with a gas or a
-petroleum flame. The zinc plate, however, being in direct contact with
-the hot surface, warped very much. I obviated that somewhat by covering
-the heating-plate with a piece of wire-gauze. The strata of hot air
-thus obtained between the cast-iron and the zinc plate heats the latter
-equally throughout, and prevents warping. Still I prefer the direct
-method.
-
-For freeing the plate from resin-dust, employ a strong pair of ordinary
-bellows.
-
-The table (Fig. 12) for washing the coating material from the plate
-consists of a heavy framework, upon which rests a wooden grate. A
-massive table-board is not to be recommended, as the dirty sawdust
-adheres to the same, while with the other it easily falls through the
-openings into a box, and leaves the table free and clear.
-
-[Illustration: Fig. 12.]
-
-The measuring or calibre-bridge (see Fig. 7) serves to determine
-accurately whether the ready plates have the height of type. A rule of
-forty |99| centimetres will suffice for any plate. No plate should
-leave the workshop without having been tested as to its thickness or
-height on this instrument.
-
-The zinc plane is of ordinary construction, to the bottom of which
-is attached a double layer of hard wood. The iron being arranged for
-scraping can be inserted in a position just the reverse of the ordinary
-plane.
-
-The “hand-bridge” is a strong ruler, thirty centimetres long, and five
-centimetres wide, to the ends of which are fastened two blocks of wood
-one centimetre high. It serves as a support for the hand in retouching.
-
-The rollers of the “chemigraphist,” and also the pads, are of greatest
-importance. For etching by the French process we need a good, rough
-roller, and a faultless, smooth one; for the Vienna process only the
-latter is needed, in addition to a smooth, tight leather ball or pad,
-such as was used in the art of printing prior to the introduction of
-rollers. A perfectly smooth surface is obtained by covering the rollers
-with a dryer, and allowing them to dry in the open air. A solution of
-shellac with camphor, applied like furniture polish, also yields a fine
-surface.—J. O. MORCH.
-
-
-THE BEST DRYING BOX.
-
-After bichromatizing the gelatine sheet for printing the transfer
-image, I proceed with the drying in a box constructed as follows:
-
-The box has four walls or sides of cloth, or any other stuff that
-allows the air to pass through, and must have a solid bottom, which
-will allow the attachment of a heating apparatus beneath it. In this
-box is a cylinder which turns on its own axle, and which can be set in
-rotation from the outside when the box is closed. Upon this cylinder
-the gelatine paper, as we may call it, is placed, and the box closed.
-A very equalizing drying is thus obtained, by keeping the heating
-apparatus under the bottom of the box constantly at a steady, uniform
-heat. By these means, it will be noticed:
-
-1. That an uneven running down of the chrome-layer is avoided,
-and uneven drying also positively prevented in consequence of the
-centrifugal force.
-
-2. That the drying by the draft of air is regulated, and at the same
-time the air can be driven to a more rapid current.
-
-3. That the grain formed by this extraordinary method is unusually
-perfect, and the nature of the grain more pleasing to the eye than when
-formed by chlorides.
-
-4. That, as already stated, a rolling up or an uneven drying is hereby
-|100| positively prevented, as the paper is placed tight around the
-cylinder. And now for the main advantage:
-
-This so dried paper is ready for use, and, when exposed to light, under
-a negative, produces a perfect and correct picture, which, when rolled
-up with transfer ink and developed in water, is ready for transferring
-direct on to the lithographic stone, or on to a metal plate, and to be
-further proceeded with as usual.—EDWARD MEISSNER.
-
-
-TO PRODUCE GRAIN ON A NEGATIVE.
-
-The negative is taken, and a solid pigment of Chinese ink sprinkled
-on it with the Air Brush, by which it gets a wonderfully fine grain.
-A coarser grain is made in a similar way, by sprinkling with a knife
-over a tooth-brush that has been dipped in Chinese ink. The Air Brush,
-however, will always be found the most suitable instrument, and now a
-wide field for its use is opened to artists of all classes. Instead
-of using Chinese ink, gamboge, or any other solid and well-covering
-pigment may be used.
-
-For the practical photo-engraver, lithographer, photo-lithographer,
-and other men of experience in photo-mechanical processes, no further
-explanation is required. They will at once see the _superiority_ of
-this process over everything that has hitherto appeared. After the
-information we have just given, they will all be enabled to do work by
-this process. It will henceforward be easy to produce photo-lithographs
-for lithographic printing as well as printing plates for the type press
-_without difficulty, in a short time, and at trifling expense_.—FRED.
-BUEHRING.
-
-
-ON THE USE OF ACIDS.
-
-A few hints on use of the acids will form my contribution to your work:
-
-In order to obtain a proper resistance and firmness in the lines, it is
-necessary to prevent the acid from making the base that supports them
-too thin, and to strengthen the base by giving the depression the form
-of a V, and the base itself the form of an A. The depth must be great
-enough in the broad blanks to prevent the roller from sinking (although
-there is no danger of this when the lines are close together), and thus
-soiling them. A useless depth between very thin sides might weaken
-them; but, in the process employed, the attack by the acid continues
-only in proportion to the width of the spaces to be excavated. |101|
-
-These results are obtained as follows: The prepared plate bearing the
-design is inked with a thick ink containing a little wax, and is placed
-in a trough with acidulated water, which slightly attacks the metal.
-
-The trough is mounted so as to rock, and is kept in motion by a lever
-actuated by a steam motor. The water moves to and fro over the entire
-surface, and keeps continually washing the parts that are not protected
-against its action. No local saturation, therefore occurs, and the
-continuously renewed liquid attacks the bottom as well as the sides
-of the hollow. The sides would soon be rendered too thin were the
-biting-in too long continued, and for this reason the first attack
-is made with great care. It is upon this that depends the sharpness
-of the proof. The acid used is nitric, so dilute that it is scarcely
-perceptible to the taste, and in the proportion of about one and a half
-ounces to a quart of water. The acidity is kept up by a small quantity
-of acid of 36°, that falls drop by drop from a bottle provided with a
-cock. After about a quarter of an hour, the plate is taken out, and the
-operation repeated as generally directed.
-
-Remember this: At every new biting-in the acidity of the bath is
-increased, and, when the broad parts alone remain exposed to the
-attack, acid of 6° B. may be used. In this state, the zinc plate, taken
-from the bath and washed and dried, is treated with benzine, and then
-with potash, in order to remove all fatty matter. It may then be seen
-that the sides of the hollows do not exhibit a regular sloping surface,
-but a series of ridges corresponding to the series of bitings-in. As
-these might take the ink, and affect the purity of the lights and
-shades, it is necessary to remove them by an operation analogous to
-the first, but carried on quickly in an opposite direction. With this
-intent, the plate, well cleaned and heated upon the iron table, is
-inked while hot, with a composition formed of two parts printing ink
-and one part each of resin and beeswax. This ink, which can be used hot
-only, descends along the sides of the depressions, and when it has got
-half way to the bottom the plate is cooled, and the inking is renewed
-so as to well cover the entire surface.
-
-It must not be believed that in practice these operations can be
-conducted without extreme care. A want of attention, unsuitable ink, or
-a too high or low temperature, may lead to the loss or poor execution
-of the piece. It is often objected that the lines in this style of
-plates have not the boldness of those produced by the graver. It is
-not for us to answer the question whether this is a merit or a defect;
-artists generally endeavor to employ paper with an irregular and
-granular surface, and which is far from giving such boldness; |102|
-and he perhaps would be poorly appreciated who should present upon
-glazed paper a drawing made with the pen and resembling a picture made
-with the graver. It is the artist’s business to produce the work such
-as he desires the Gilloteur to render it.—GILLOT.
-
-
-MULTIPLICATION OF ZINC ETCHINGS BY GALVANIC MEANS AND BY STEREOTYPING.
-
-Multiplication of printing-blocks by galvanoplastic, or stereotyping,
-is not so easy as in case of woodcuts or type. The main difficulty
-lies in some peculiarities of the process of etching, especially if
-the plate has been produced by the French method. The reproduction
-of a form is often impossible, since the matrix is caught on certain
-rough spots and then tears, thus rendering galvanoplastic reproductions
-imperfect.
-
-Having very frequent opportunity of making matrices from plates, I call
-the etcher’s attention to several points upon which the success of the
-work depends. On no condition whatever may any parts of the plate be
-corroded from beneath, as wax or gutta-percha will invariably tear when
-lifting off the impression (mould).
-
-In the second place, the bottom of the etching must be perfectly
-smooth, not rough; the single grades, left by etching, must be removed,
-and the lines must incline perfectly smooth toward the depth of the
-etching.
-
-In stereotyping, the process of drying presents special difficulties,
-since with heat the wood warps and distorts the plate; the cold
-process, on the other hand, does not give equally sharp impressions.
-For this purpose I have mounted the plates on lead instead of on wood,
-and am thus enabled to get sharp impressions and to apply hot drying.
-
-Instead of paste, I employ light magnesia; instead of oiling the plate
-before planing or rolling it in, I give it a high polish with stearine
-oil and rouge by means of a circular brush, and brush it once more with
-talc. Thus I am sure of success.
-
-
-PREPARING ZINC PLATES ON THE PRINTER’S PRESS.
-
-A wood-cut gives the _outrunners_ of the finest portions in a plane
-which runs downward; an etching, on the contrary, shows the whole
-engraving in one plane. According to this the _outrunners_ (the
-borders) often print somewhat hard, unless care is taken to alleviate
-this fault. This will be easy to the experienced workman. |103|
-
-Starting from the fact that a zinc plate is easily bent, place
-something under the back of the _heavy_ portions in mounting, and when
-nailing drive the nails tight in the white lights and on the edges;
-thus the borders are deepened, and _print_ softer.
-
-In this manner an experienced and practised hand can produce effects
-impossible in any other way.
-
-For printing on rotary machines, galvanos are used in many places. But
-a zinc plate may be excellently fastened in the following manner:
-
-Clean the back well and solder the back with soft solder, as is
-customary in galvanic backing. Then attach it lightly to its place on
-the wooden or metal block, hammer or roll in the plate without paying
-special attention to the zinc plate, dry the matrix, and lift it from
-the form. After preparing for casting take the zinc plate from the
-wooden block, bend it while hot, put it back into its position in the
-matrix, cover the edges with tissue paper and paste, dry the edges
-with an iron, place into the casting apparatus and cast as usual. In
-this manner the zinc plate (metal, cast from a matrix) is in place at
-exactly the height of the type and will print excellently. (The face
-is to be slightly oiled before fastening in the matrix, to prevent any
-sticking of the lead.)
-
-As a _cover_ for the printing cylinder, I have always found paper most
-serviceable, although covers of English leather are also advantageous,
-especially for large editions. I should not recommend felt.
-
-The rollers for printing zinc plates should be held with somewhat
-stronger tension than for printing of wood-engravings.
-
-As a method of preparing, I recommend the gradating of the lights and
-shades, known to every intelligent machinist. Wherever possible, highly
-calendered paper should be used, as it gives the best results.
-
-
-ETCHING WITH SULPHATE OF COPPER SOLUTION.
-
-Nitric acid may be replaced by sulphate of copper, especially in
-the first periods of etching, and etching can be obtained both in a
-galvanic way and by easy shaking of the tray. The sulphuric acid of
-the copper sulphate combines with the zinc and the copper, and when
-liberated, precipitates as an amorphous, muddy substance.
-
-Although this process has almost entirely fallen into disuse, the most
-important points are treated of below.
-
-_The bath._—Dissolve pure copper sulphate (of the strength of
-9° Beaumé) at a temperature of 15° C. Etch galvanically in this bath
-by placing in it a clean |104| copper dish. The plate prepared for
-etching as per page 84, is rubbed bright at the four corners and four
-S-shaped narrow strips of sheet copper are so fastened to the bright
-zinc that the S-shaped end rises about three millimetres over the
-picture. Then place the plate face downward for three minutes into the
-bath, above the copper plate, which is electrically connected with the
-zinc by brass strips, so that instantly a strong galvanic current is
-set up. The etchings are found to be very satisfactory and interesting.
-In three periods (nine minutes) a beautiful preliminary etching is
-obtained with rather perpendicular faces.
-
-I cannot recommend etching by shaking, as the sediment causes rupture
-of the finest lines.
-
-
-PROCESS FOR HIGH ETCHING IN RELIEF.
-
-Experienced etchers can also apply their art to the reproduction of
-drawings by means of the printer’s press, in the following manner:
-
-A plate, ready for etching and free from grease, is cleaned with weakly
-acidified water, the remaining water drawn off with a blotter, and the
-plate gently heated. By means of a pad a fine paste of graphite is
-rubbed upon the surface; it is then moderately heated and a very thin
-gauze-like layer of warm white wax is applied to the graphite surface.
-After cooling the plate, spread upon it a coat consisting of the finest
-orange-colored chrome yellow (rubbed to a fine dough with water and
-gum). In this ground layer we can erase as for deep etching.
-
-Brush the finished surface with writing ink dissolved in benzine (using
-a fine wide brush). The plate should be warm. Take a pad made of
-cotton, dip it into water and work over the surface in small circles
-until the image has become well developed. From this point we can
-continue according to the usual method.
-
-J. O. MÖRCH.
-
-
-THE RUNNING OF A WORKSHOP.
-
-The great competition demands of every chemigraphical business a
-ready, productive organization, which is also attentive to the rules
-of economy. In following out the latter it is advisable to aim at
-a division of labor. By giving to the single workmen more practice
-in each particular manipulation, the quality of the work is also
-promoted. To secure a lucrative trade, we need the following helpers:
-1. A foreman thoroughly acquainted with the whole process. 2. A
-photographic assistant, who is skilled especially in straight line
-|105| reproduction, and who aids in the copying of negatives. 3. A
-carpenter, at the same time polisher of the zinc and finisher of the
-plates, who will also assist at other things in general. 4. A first
-manipulator, who understands blacking of the plates and the examination
-of the same throughout the whole process. 5. A man to form the etching
-varnish on the plates. 6. A man to scrape off. 7. A man to etch. 8.
-One to wash plates and to make himself generally useful. With the aid
-of such a staff it is possible to produce 2000 square centimetres of
-etching daily, and by the addition of a ninth assistant the capacity
-can be raised to 3000 square centimetres.
-
-A first manipulator can be trained in three months, a carpenter in the
-same time, and the others in four to six weeks.
-
-The head of the establishment will, of course, be doubly busy during
-these first months. Upon his abilities depends the success of the whole.
-
-I think it is inadvisable to introduce etching into all the printing
-establishments, as production on a small scale is far more expensive
-and less satisfactory. But it _is_ advisable to add to the chemigraphy
-a small lithographical laboratory.—J. O. MORCH.
-
-
-SOME WRINKLES AND DODGES.
-
-As I had to stumble through to success like many others, I gladly give
-a few little items of practice which may speed the work of others. I
-like this for a sensitizing solution:
-
- Bichromate of Potash in powder   1 ounce.
- Water                           15 ounces.
- Alcohol (950)                    4 ounces.
- Liquor Ammonia                   1 ounce.
-
-After I have sensitized the gelatine transfer paper I increase the
-surface quality by laying it upon a glass plate which has been heated
-_very slightly indeed_ with vaseline. I use a squeegee to secure close
-contact and then stand it up to dry, say over night. A slight start at
-one corner with a knife point will cause the paper to leave the glass
-readily.
-
-It pays always to get the best material. Nothing is worse than a bad
-quality of zinc. I use No. 10. A strong, well-made clotheswringer will
-answer for a time, for making transfers, when a lithographic press is
-not convenient. The pressure should be uniform.
-
-Learn to be systematic until you are familiar with all the details
-of the work. It might be well for you to make a numbered list of the
-necessary operations |106| and paste it up where you can see it and
-refer to it handily. Accustom yourself to having a place for everything
-and everything in its place. I have seen many an etching lost by
-disregard of this rule.—C. W. ROCHE.
-
-
-CARBON PRINTING.
-
-In Chapters III. and IV. on engraving on copper, the resist and relief
-are made by what is called in photographic nomenclature the carbon
-process—that is, printing in gelatine to which has been added a
-suitable pigment. This pigmented gelatine, spread upon paper and dried,
-is known in commerce as carbon tissue, and is sold of various colors
-and degrees of density as regards the quantity of pigment incorporated
-with the gelatine. For our purpose that tissue containing the minimum
-quantity of pigment is the best (this only applies to the resist or
-relief on the copper, not to the transparency necessary for printing
-the resist from; in this case what is known as transparency tissue must
-be used, and that is made with the maximum quantity of pigment (India
-ink) incorporated with the gelatine), but as the subject of making
-transparencies in carbon has already been treated of, the present notes
-will be confined entirely to developing carbon prints upon copper for
-resists (Chapter III. for reliefs Chapter IV.).
-
-The carbon tissue of commerce is not sold in a sensitive condition;
-therefore, the first care will be to render it sensitive to the action
-of light, which is done by immersion in a solution of bichromates of
-potash and ammonia.
-
-First of all dissolve in eighty ounces of water one and a half ounces
-of bichromate of ammonia, and one ounce of bichromate of potassium, and
-filter. Then cut the carbon tissue into suitable sized pieces—_i. e._,
-pieces a little larger than the subject on the transparency or negative
-to be used, and a little smaller than the copper plate upon which it
-is intended to develop the carbon print; next select a sufficient
-number of glass plates quite free from scratches a little larger
-than the pieces of tissue, now clean these glass plates carefully by
-polishing with clean linen or silk cloth free from lint, then dust over
-with French chalk and again well polish; then coat with thin plain
-collodion, and when the film is well set place the collodionized plate
-in clean cold water until the greasy appearance that shows on the first
-immersion in the water has disappeared.
-
-Place the filtered bichromate solution in a clean dish, then immerse
-the pieces of tissue, one at a time, taking care that no air bells are
-allowed to |107| remain upon the surface; if any form, remove them
-by bursting them with the fingers. After the tissue has been in the
-solution for three minutes, take one of the collodionized and washed
-plates from the water and remove one of the pieces of tissue from the
-bichromate bath, place the two face to face, lowering the tissue gently
-down upon the collodion film, then place the glass plate upon a bench,
-lay a piece of Macintosh cloth (larger than the plate) over the tissue,
-and with a squeegee gently scrape along the Macintosh; this will bring
-the carbon tissue into contact with the collodion film, and also expel
-superfluous bichromate solution, but care must be taken not to remove
-too much of the bichromate else the tissue will be insensitive and
-print hard. The plate is now placed upon a rack, and all the remaining
-pieces being done in the same way are also placed upon the rack.
-
-The tissue being thus squeegeed into optical contact (the squeegee is
-made with a strip of soft rubber fixed between two pieces of wood) with
-the collodionized glass, it must be dried in the dark room in a current
-of warm air, not higher than 60° F., else the pigmented gelatine will
-melt and be useless (bye the bye, the bichromate solution in hot
-weather should be iced so as to keep the temperature below 50° F.).
-
-When the tissue is dry it is stripped from the glass and stored in a
-tin tube, and care must be taken to keep it away from the light, as
-if the tissue be once exposed to the light even for a short time, the
-action will go on in the dark.
-
-In treating of the transparencies, it is mentioned that the subject on
-the transparency or negative is marked, this being necessary to form
-what is called a safe edge to the carbon print. If such a safe edge be
-not provided, the carbon print will not adhere to the copper during
-development; therefore, the extreme edges of the tissue must be guarded
-from the light during the exposure in the printing frame.
-
-The exposure to light under the negative or transparency must be timed
-by means of an actinometer, which may be improvised by dividing a strip
-of tracing paper into ten spaces, and numbering these spaces so:
-
- ─────┬─────┬─────┬─────┬─────┬─────┬─────┬─────┬─────┬──────
-      │     │     │     │     │     │     │     │     │
-   1  │  2  │  3  │  4  │  5  │  6  │  7  │  8  │  9  │  10
-      │     │     │     │     │     │     │     │     │
- ─────┴─────┴─────┴─────┴─────┴─────┴─────┴─────┴─────┴──────
-
-Write the figures with good black ink and then cut other pieces of
-white tracing paper into strips of the same width. |108|
-
-Now lay the piece of tracing paper with the numbers on it, upon a
-piece of glass 4-1/4 × 3-1/4 inches, and fix it in the centre, then
-place thicknesses of tracing paper over this so that space 2 has three
-thicknesses of tracing paper, space 3 five thicknesses, space 4 seven
-thicknesses, space 5 eight, space 6 nine, and so on up to 10. Now if a
-piece of ordinary sensitive albumen paper is put into a frame behind
-this screen, it will form an actinometer, and when, after exposure to
-light the figure 5 is just visible, five tints are registered.
-
-This actinometer will with practice enable the operator to judge when
-the carbon tissue has been exposed sufficiently long; the only guide
-that can be given, is to err on the side of overexposure rather than
-underexpose.
-
-The carbon tissue being exposed, it is removed from the frame, and
-placed in clean cold water; then as soon as it begins to uncurl itself,
-the copper plate is placed in the water, and the two are brought into
-contact, the tissue adjusted in position upon the copper, then removed
-from the water, and a squeegee applied vigorously to the back of the
-tissue, applying the squeegee first one way and then the other.
-
-Now allow to stand a few minutes, then immerse it in water at a
-temperature of 90° or 95° F., and in a few minutes the pigmented
-gelatine will begin to ooze from under the paper backing, which may now
-be stripped off and thrown away. The copper plate may now be raised
-and gently laved with the hot water, or it may be allowed to remain
-until the whole of the soluble gelatine is dissolved away, leaving the
-picture upon the copper plate, which is rinsed in cold water and dried.
-
-For the purpose of copper plate work, the image must be thoroughly
-well exposed, every detail being impressed, else it will be impossible
-to get a good photogravure; therefore, until the operator thoroughly
-understands the use of the actinometer it will be as well to make a few
-prints upon a piece of opal glass.
-
-Carbon tissue does not keep in a sensitive condition more than a month,
-under the most favorable conditions, the general time perhaps being a
-week. The first sign of deterioration is generally shown when trying to
-mount upon the copper, after soaking in cold water, the tissue refusing
-to adhere after the application of the squeegee. The best way to test
-the sensitive tissue is to take a small piece and immerse it in cold
-water for a minute, then put it into water at 95°, and, if the coating
-dissolves off the paper the tissue is all right; if it does not, it is
-useless. Tissue will generally be found at its best about |109| three
-days after sensitizing, and will gain rapidly in sensitiveness daily
-afterward.
-
-Carbon tissue can be made at home, the following being the formula:
-
- Gelatine (soft)      10 ounces.
- Sugar                 4 ounces.
- Water                30 ounces.
-
-Dissolve the gelatine at as low a temperature as possible, then add
-the sugar and churn thoroughly; then add sixty grains of India-ink,
-previously dissolved in a little water, again churn, then strain
-through muslin into a dish (which dish is placed in another containing
-hot water). Now take two sheets of paper, grasp one end tightly and
-drag them rapidly through the tissue compound, and directly they are
-lifted clear of the solution let an assistant grasp the bottom and you
-dropping the top, will reverse the sheets and keep the gelatine on the
-surface of the paper; when the gelatine has set, divide the two sheets
-and hang up to dry; when dry the subsequent proceedings are the same as
-for commercial tissue.
-
-
-COLAS’S BLACK PROCESS.
-
-This process will often be found useful to reproduce a drawing on
-yellow tracing-paper, so as to give a more suitable copy to photograph
-from.
-
-Coat with a fine sponge a hard, well-sized paper, with
-
- Water                         300 parts.
- Gelatine                       10 parts.
- Perchloride of Iron (dry)      20 parts.
- Tartaric Acid                  10 parts.
- Persulphate of Zinc            10 parts.
-
-and dry in a dark-room.
-
-When dry, expose under the tracing until the greenish-yellow tint of
-the paper has disappeared, except where covered by the opaque lines.
-
-Development is effected in a bath made by dissolving 20 parts of gallic
-acid in 200 parts of alcohol and 1000 parts of water; then wash in
-plenty of clean water.
-
-
-MORDANTS FOR ETCHING.
-
-I. MORDANTS FOR STEEL.—Nitric acid forms the basis of most fluids for
-etching steel as well as for other metals. Acetic acid and alcohol are
-sometimes added, and some formulæ contain nitrate of silver, corrosive
-sublimate, salts of |110| copper, etc. Iodine is also a most efficient
-mordant for steel, and Mr. Fox-Talbot used the chlorides of iron and
-platinum for etching his plates through the coating of bichromated
-gelatine.
-
-
-_Plain Acid Mordant.—(Kruger.)_
-
- First biting:
-   Muriatic or Nitric Acid      1 part.
-   Water                        8 parts.
-
- Stronger:
-   Acid                         1 part.
-   Water                        4 parts.
-
- Deepest:
-   Equal parts acid and water.
-
-_Kruger._—Chromic acid, diluted according to the effect to be produced.
-This also serves for zinc, copper, and brass, and bites with great ease
-and certainty, making a good vertical cut.
-
-
-_Ed. Turrell._
-
- Glacial Acetic Acid                        4 parts.
- Absolute Alcohol                           1 part.
- Nitric Acid (specific gravity, 1.28)       1 part.
-
-The acetic acid and alcohol are mixed and allowed to stand for half an
-hour, then the nitric acid is added very gradually. This mordant is
-applied from one to fifteen minutes, according to the strength desired,
-and may be strengthened by adding nitric acid.
-
-
-_Etching Solution with Alcohol._
-
-Alcohol seems to be added with the object of softening the action in
-the first biting, and of making the mordant bite at once. For etching
-Niepce de St. Victor’s asphaltum plates, M. Lemaitre used, for the
-first biting:
-
- Nitric acid, at 36°       1 part.
- Distilled Water           8 parts.
- Alcohol, at 36°           2 parts.
-
-And finished off with nitric acid and water, without alcohol.
-
-
-_Etching Solution with Nitrate of Silver._
-
- Alcohol                  6    parts.
- Distilled Water          9    parts.
- Pure Nitric Acid        16.6  parts.
- Nitrate of Silver        0.83 parts. |111|
-
-The liquid improves by keeping. Before beginning, wash the plate for a
-few seconds with dilute nitric acid (at four per cent.), then apply
-the above mordant for about three minutes, and wash off with distilled
-water containing six per cent. of alcohol. Repeat the biting as often
-as may be necessary, well washing between each operation.
-
-
-_Deleschamps.—Glyphogen._
-
- Acetate of Silver         8 parts.
- Rectified Spirits       500 parts.
- Distilled Water         500 parts.
- Pure Nitric Acid        260 parts.
- Nitric Ether             64 parts.
- Oxalic Acid               4 parts.
-
-This is recommended as being free from the defects of many of the other
-mordants, and as giving a clean vertical bite.
-
-Several formulæ contain salts of copper.
-
-
-_Roret._
-
- Nitric Acid              62 parts.
- Distilled Water         125 parts.
- Alcohol                 187 parts.
- Nitrate of Copper         8 parts.
-
-Iodine is recommended as a very efficient mordant for steel, being free
-from the inconveniences caused by the disengagement of gas, as when
-biting with nitric acid. Messrs. Schwarz and Boehme give the following:
-
- Iodine                     2 parts.
- Iodide of Potassium        5 parts.
- Water                     40 parts.
-
-This may be further diluted up to 40 parts more water, for etching the
-finest lines. It gives good deep lines, sharp, and with clear edges
-even, for the finest and closely ruled lines have no tendency to run
-one into the other.
-
-The following resembles the etching fluids for copper, commonly known
-as “Dutch mordant.”
-
-
-_Cooley._
-
- Hydrochloric Acid        5 parts.
- Water                   95 parts.
-
-Mix and add:
-
- Chlorate of Potash       1 part.
- Water                   50 parts. |112|
-
-_Cooley._—For electric etching with the battery, a solution of common
-salt is used.
-
-
-II. MORDANTS FOR COPPER.—The most useful mordants for copper are nitric
-and nitrous acids, more or less diluted with water. Latterly, however,
-a mixture of chlorate of potash and hydrochloric acid, known as the
-“Dutch mordant,” has come more into use. For some purposes, perchloride
-of iron in solution is a useful mordant, particularly in photographic
-work with gelatine films. These two latter mordants bite more quietly
-than the acids, so that the lines are not so much enlarged, and
-there is not the same risk of close lines running together and other
-inconveniences caused by the evolution of bubbles of gas.
-
-
-_Acid Mordants.—(Lalanne.)_
-
- Nitric Acid, at 40°      1 part.
- Water                    1 part.
-
-With a little old etching solution added, or pieces of scrap copper.
-
-
-_Malaret._
-
- Nitric or Sulphuric Acid                        1 part.
- Saturated Solution of Bichromate of Potash      2 parts.
- Water                                           5 parts.
-
-Fizeau used for daguerrotype etching a mordant composed of nitric,
-nitrous, and hydrochloric acids.
-
-
-_Dutch Mordant._
-
- Fuming Muriatic Acid (specific gravity, 1.190)      10 parts.
- Water                                               70 parts.
-
-To this add a boiling solution of
-
- Chlorate of Potash       2 parts.
- Water                   20 parts.
-
-This may be diluted with from 100 to 400 parts of water as required.
-
-Perchloride of iron, more or less diluted in water, is, according
-to Hamerton, an excellent mordant. It bites deep and clear, without
-enlarging the line much, and there is no ebullition, as with nitric
-acid. It is particularly useful in photographic etching through
-gelatine, as the latter is insoluble in it.
-
-In most cases the mordant is flowed over the plate, or kept moving
-on it in the same way as a photographic developer. Such mordants are
-generally used for finishing off and deepening the light tints, and are
-called _eau fortis à couler or à passer_. The following formulæ are
-given: |113|
-
-
-_Roret.—(Abraham Rosse’s.)_
-
- Strong White or Distilled Vinegar        3 litres.
- Sal Ammoniac                           180 grammes.
- Common Salt                            180 grammes.
- Pure Verdigris                         120 grammes.
-
-A little oxalic acid is sometimes added. The solids are ground up, and
-boiled in the vinegar. Acetic acid at 3°, or pyroligneous acid, may be
-used in place of vinegar, and, if too strong, more vinegar should be
-added.
-
-The following, used by Callot and Piranesi, is similar and prepared in
-the same way:
-
- Strong Vinegar       8 parts.
- Verdigris            4 parts.
- Sal Ammoniac         4 parts.
- Salt                 4 parts.
- Alum                 1 part.
- Water               16 parts.
-
-For relief etching use only 10 parts of water.
-
-
-_Relief Etching._
-
-For etching copper in relief, the following glyphogen is recommended by
-Deleschamps:
-
- Nitrous Acid, at 30°        2 ounces.
- Acetate of Silver           6 drachms.
- Hydrated Nitric Ether      16 ounces.
-
-The nitric ether is prepared by mixing two ounces each of nitric acid
-and alcohol, and, when the reaction commences, stopping it by adding
-eight ounces of distilled water.
-
-
-_Tint Etching._
-
-Flour of sulphur mixed with oil forms a good composition for etching
-tints. It can be applied with a brush. For a flat tint, Hamerton says
-“Oil the plate liberally with olive oil, and blow flour of sulphur upon
-this.” The sulphur, if allowed to remain on the plate, will produce a
-flat tint, more or less deep in proportion to the time it remains.
-
-Roret gives the following formula for tint etching:
-
- Bay Salt          2 parts.
- Sal Ammoniac      1 parts.
- Verdigris         1 part.
-
-These are pounded together, and the mixture kept in a bottle. |114|
-
-When required for use, grind up a little in a glass with some syrup of
-old honey, so as to make a mixture which flows readily. It may be used
-with a brush like a color. It is used after the bitings of aquatint
-plates with acid, to give finish and vary the tints.
-
-
-_Fielding (for aquatint)._
-
- Nitrous Acid      1 part.
- Water             5 parts.
-
-For the strongest touches, nitrous acid and water, equal parts, applied
-with a feather or brush. No. 19 may also be used for this purpose,
-either with or without a little gum.
-
-
-_Hamman._—Dilute nitric acid at 12° (sp. gr. 1.09), mixed with:
-
- Distilled Water      12 parts.
- Alcohol               3 parts.
-
-This is said to give a grain in biting, so that the ordinary grained
-ground may be dispensed with.
-
-
-_Electric Etching._
-
-It has frequently been proposed to etch by means of electricity, and in
-some cases it may be an advantage to do so.
-
-The copper plate to be engraved is attached to the positive pole of
-a suitable battery and placed as anode in a solution of sulphate of
-copper, or in water acidulated with sulphuric acid.
-
-In suitable cases, different degrees of depth may be given, putting
-parts of the anode and cathode nearer together or further apart.
-
-Grove etched daguerrotype plates with a single pair of Grove or Bunsen
-cells, by inserting the plate to be etched, and a platinum plate of the
-same size, in a wooden frame having two grooves a quarter of an inch
-apart.
-
-The daguerrotype having been attached to the battery as anode, and the
-platinum plates as cathode, the frame is immersed in a suitable vessel
-filled with
-
- Hydrochloric Acid      2 parts.
- Distilled Water        1 part.
-
-Contact is made for about half a minute, after which the plate is
-removed from the acid, washed thoroughly with distilled water, then
-placed in a solution of hyposulphite of soda or ammonia, and the
-deposit removed from the surface |115| with gentle rubbing with
-cotton. It is again rinsed with distilled water and dried.
-
-
-MORDANTS FOR ZINC.
-
-The comparative cheapness of zinc would give it an advantage over
-copper or steel for engraving or etching with the graver or point,
-but it does not seem to be recommended for these purposes. It is
-hard to cut with the graver, and, though it bites easily, it is not
-suitable for fine work. Another defect is that it will not stand a
-long impression; but this may be overcome by surfacing the plate with
-copper. The principal uses of this metal for printing purposes are for
-surface printing or zincography in the same manner as lithography, and
-for the process of biting in relief, and zinco-typography or Gillotage,
-now so largely employed as a substitute for wood blocks. It can also
-be engraved very delicately in the same style as engraving is done on
-stone, through a coating of gum.
-
-The etching fluids for zinc are of two entirely different kinds:
-first, mixtures of gum and weak acids used for preparing plates for
-zincographic printing in the lithographic press, or for preliminary
-inking preparatory to being bitten in relief by the Gillotage process;
-and secondly, mineral acid, more or less dilute, used for biting in
-relief and ordinary etching.
-
-
-_Zincographic Etching._
-
-This kind of etching is more of a preparation of the plate for printing
-than engraving or biting, the object being merely to fill up the pores
-of the metal with gum, and prevent it receiving printers’ ink from the
-roller elsewhere than on the lines of the drawing.
-
-The solution most commonly employed for this purpose is a mixture
-of gum and decoction of nut-galls, in use at the Ordnance Survey
-Office, Southampton, and given by Sir Henry James in his work on
-_Photo-zincography_. It is prepared as follows: Four ounces of Aleppo
-galls are bruised and steeped in three quarts of cold water for
-twenty-four hours; the water and galls are then boiled up together, and
-the decoction strained. The gum-water should be about the consistency
-of cream. One quart of the decoction of galls is added to three quarts
-of the gum-water and to the mixture are added about three ounces of
-phosphoric acid, which is prepared by placing sticks of phosphorus in a
-loosely corked bottle of water, so that the ends of the sticks may be
-uncovered. The oxidation of the phosphorus produces phosphoric acid,
-which dissolves as fast as it is formed. |116|
-
-The etching solution should only just mark a piece of plain zinc.
-
-In Richmond’s _Grammar of Lithography_ the following modifications of
-this formula are given:
-
- Decoction of Nutgalls              3/4 pint.
- Gum Water as thick as Cream        1/4 pint.
- Phosphoric Acid Solution           3   drachms.
-
-Boil one and a quarter ounces of bruised nutgalls in one and a quarter
-pounds of water till reduced to one-third, strain, and add two drachms
-of nitric acid and four drops of acetic acid.
-
-Richmond recommends, however, the use of a simple decoction of galls
-without acid, and gumming in after etching.
-
-Scamoni has the following, by Garnier: Boil about one and a half ounces
-of bruised gall-nuts in a pint of water till reduced to one-third,
-filter, and add two drops of nitric acid, and three or four drops of
-muriatic acid. For very fine work this may be weakened with water. It
-is applied for about a minute, then washed off, and the plate gummed.
-
-
-_Zinco-typographic Etching._
-
-In biting zinc plates in relief, the acid generally used is nitric of
-different degrees of strength, according to the nature and state of the
-work.
-
-After the transfer is made, the plate is etched with one of the
-foregoing preparations, then inked in and dusted with finely powdered
-resin, which adheres only to the lines. This procedure is followed
-after every biting, the plate being warmed to melt the resin and inky
-coating, so that it may run down between the lines and protect them
-from the undercutting action of the acid.
-
-Kruger, in his _Die Zinkogravure_, recommends for the first relief
-etching, nitric acid 30 to 40 drops to 100 grammes of water, applied
-for five minutes. For each subsequent etching, 8 to 10 drops of acid
-are added for each 100 grammes of water, and the time is increased,
-from five to fifteen minutes. For the final etching of the broad lights
-he uses:
-
- Muriatic Acid       4 parts.
- Nitric acid         1 part.
- Water              16 parts.
-
-To soften down the ridges between the lines the plate is inked and
-dusted as before, and etched with dilute nitric acid at five per cent.,
-applied for a |117| minute, and the inking, dusting, and etching
-repeated as often as may be necessary.
-
-
-THE DIFFERENCE.
-
-Finally, in this department, only the novice will require an
-explanation of the varied productions possible by means of the
-processes already given. As actual examples, reference may be had to
-the illustrations in this work. Figures 1, 2, and 3 are specimens of
-line work, zinc etchings made from pen and ink drawings. The figures in
-the following chapter were made in the same way.
-
-[Illustration: Fig. 13.]
-
-Figures 4, 5, 6, and 7, as well as some others, are zinc etchings
-reproduced from Mr. Mörch’s work. With them more effort has been made
-to secure half-tone by a variety and quantity, or filling, in of lines.
-The example below was made by using the objects (ferns) themselves as
-the negative, without any interposition from photography, and shows one
-of the possible applications of zinc etching. It is delicate work and
-is very beautiful when carefully done. An example of true half-tone,
-obtained in the manner described in Part II., is the one which follows.
-It was made by Mr. F. E. Ives, the earliest inventor of a half-tone
-process, several years ago. The larger examples of half-tone work which
-appear in this book are made after the most modern fashion and formulæ,
-as described in Part II., and will serve well to show what the worker
-in this fascinating process may expect to reach after patient and
-persistent experiment. When we look upon Fig. 1 and see the very best
-that zinc |118| etching could do a few years ago, and compare it with
-the Mosstype and other half-tone pictures now possible, we may well
-wonder at the growth of the art.
-
-[Illustration: Fig. 14.]
-
-It has been attained by the careful and persistent plodding of a few.
-Many a method has been discarded for a newcomer, and there is no
-telling what may come next. Photography has about revolutionized the
-illustration of books and magazines, and has made the newspaper far
-more attractive than it was a few years ago. It has made the faces of
-almost every renowned individual familiar in every land and in every
-household, and the attractions of every known country have been so
-pictured by it that every intelligent child is familiar with them. It
-has been said that process-engraving has supplanted wood-engraving.
-This is not so. How many newspapers were illustrated before
-process-engraving was made available? How many works of the old masters
-and gems of the old museums abroad were made familiar to the lovers
-of pictures everywhere, by wood-engraving? Instead of coming into the
-arts to take the place of another, photo-engraving has made a place for
-itself and a market for itself. Moreover, it is refining and educating
-the masses by creating a love for art, where before its advent, there
-was very little feeling for the beautiful. Its accomplishments have
-been marvellous, and yet they have hardly begun. The good photography
-has done in bringing the wood-engraver up to his duty in following the
-artist in every line and light and shade, it will augment by teaching
-him how to secure the loveliest effects of nature. It will make way for
-more wood-engraving as well as for more process-pictures if you choose
-to call them such.
-
-
-
-
-|119|
-
-PART III.
-
-PHOTO-ENGRAVING ON COPPER.
-
-
-CHAPTER I.
-
-SUBJECTS IN LINE.
-
-In printing from copper plates, the ink, instead of being spread on
-the surface of the plate by means of a flexible roller as in ordinary
-type printing, is smeared over the previously warmed plate and thereby
-forced into the deep parts of the plate. Then, after the surface is
-polished, the paper picks out the ink from these cavities and so forms
-the picture. Therefore, instead of using a negative for producing the
-resist, a transparency is required; and for the production of subjects
-in line, the transparency must fulfil all the conditions laid down as
-required in a negative for the production of prints for zinc etching
-and for photo-litho. transfers, and must be from a subject in line or
-in stipple.
-
-The negative is made the exact size required, by the wet collodion
-process (the lens being used without the reversing mirror). This
-negative is intensified by immersion in the bichloride of mercury
-solution, and after well washing is blackened by the application
-of ammonia, as directed in Part I. of this book, under the head of
-photographic manipulation.
-
-The negative must be varnished, and the margin outside the actual
-subject required to be shown in the copper plate, must be masked by
-means of strips of tin-foil cut perfectly straight and laid in position
-squarely and symmetrically. The object is to make this margin appear in
-the transparency as perfectly clear glass.
-
-The masked negative is next placed in the carrier of the dark slide,
-film up; then a couple of thicknesses of blotting paper about the
-eighth of an inch square are laid on the extreme corners of the
-negative. Upon these pieces of blotting paper a sensitive wet collodion
-plate is placed face down. The little squares of blotting paper serve
-to prevent the sensitive plate from touching the negative. |120|
-
-The camera, with the lens out of focus, should be pointed to a large
-sheet of white paper; insert the dark slide, draw the shutter, uncap
-the lens, and the light reflected from the white sheet through the
-lens, through the negative upon the sensitive plate, will result, after
-development, in a transparent positive of the negative.
-
-The time of exposure will, of course, vary and can only be found by
-experiment. The operations of development, etc., are carried on as for
-a negative.
-
-This method of making transparencies in the camera yields the best
-possible results, as the rays of light are projected by the lens
-perfectly parallel, and the resulting picture is far crisper than it is
-possible to obtain by exposing in the ordinary manner.
-
-If the negative to be reproduced is already made, and is larger than
-required, mask the margin by means of the tin-foil, place it in the
-holder of an enlarging camera, film towards the lens if the negative
-was made without a mirror; but if the mirror was used and the negative
-is a reversed one, the film must be placed away from the lens.
-
-The camera is now adjusted so as to get the image the size required,
-then a sensitive wet collodion plate is used to receive that image and
-produce the transparency.
-
-The transparency for printing upon a copper plate must, when laid upon
-a piece of white paper, allow every detail, however minute, to be
-perfectly distinct by reflected light. If this is not so it will be
-impossible to get a good engraving on the copper plate.
-
-The transparency being secured, a plate of highly polished copper
-is cleaned with a little fine whiting and alcohol, then flooded
-with water. Take care that all grease has been removed (which will
-be detected by the water running in streaks); next wipe the plate
-carefully with a clean, soft cloth, and place it in the jaws of the
-whirler mentioned in the chapter on the apparatus for zinc printing. In
-the dark-room coat the copper plate with prepared bitumen (see chapter
-on engraving on zinc in half-tone), and set the whirler in motion. When
-the film of bitumen is dry, place it in contact with the transparency
-in a printing frame, and expose it to the light (sunlight, if possible).
-
-The time of exposure will depend very greatly upon the time of year and
-day, but, in direct sunlight, ten to fifteen minutes will be about the
-time.
-
-After exposure, the copper plate is removed from the frame, and placed
-in a dish containing turpentine. Keep it rocking until the image is
-developed by the unaltered bitumen being washed away, then remove the
-plate from the dish, |121| and wash it well under the tap. When quite
-dry, coat the back and edges of the copper with ordinary black varnish
-laid on with a camel’s-hair brush, so as to prevent the mordant to be
-used from attacking the back.
-
-Alterations and additions may now be made by means of transfer ink
-thinned with turpentine, applied by a sable brush, or by means of an
-etching needle or scraper, remembering that the etching needle or
-scraper will make a black line and the transfer ink will cause a white
-mark, or exactly the reverse of a type block. The plate is now ready
-for etching in a
-
- Saturated solution of Perchloride of Iron       2 ounces.
- Water                                          10 ounces.
-
-Use a porcelain dish for the solution. Immerse the plate, and keep it
-rocking for about ten or fifteen minutes, then remove it, and wash
-it under the tap, rubbing it gently with cotton-wool. After drying
-it, warm it slightly, then roll up with a glazed leather roller, or a
-smooth India-rubber roller charged with the hard ink used during the
-clearing-up of the zinc block, viz.:
-
- Beeswax                         1/2 ounce.
- Resin                             1 ounce.
- Shoemaker’s Wax                   1 ounce.
- Litho-printing Ink, black         2 ounces.
-
-Melt together. When cool, mix with turpentine to the consistency of
-soft soap.
-
-The roller is charged with this ink, and the plate warmed and rolled
-up, so as to close up the high lights and half tones, leaving only the
-deepest portions bare. Immerse in the etching fluid again for about
-three minutes, rocking during the immersion, and finally wash the plate.
-
-Next remove the resist of bitumen, by means of turpentine, and take
-proofs in the press. If deeper etching is required, proceed as before.
-
-The following is equally satisfactory, and a little quicker:
-
- Fuming Muriatic Acid (sp. gr. 1.190)      10 parts.
- Water                                     70 parts.
-
-To this is added a boiling solution of
-
- Chlorate of Potash                         2 parts.
- Water                                     20 parts.
-
-This is diluted for use by adding 1 part to from 100 to 400 parts of
-water.
-
-The time of immersion in either of these mordants is ruled by the
-temperature of the room and of the liquids used. One or two careful
-trials will soon give the desired information.
-
-
-|122|
-
-CHAPTER II.
-
-HALF-TONE INTAGLIOS.
-
-We now come to quite a different class of work, namely, the production
-of half-tone intaglio plates. They may be produced in many ways, each
-way giving results quite unlike the others.
-
-The first process is based on the half-tone method given for
-typographic blocks, modified to suit intaglio.
-
-In this, as in fact with ALL methods, we must first of all produce
-a satisfactory transparency. That is best done by reproducing in an
-enlarging camera.
-
-Place the negative, with the subject masked with tin-foil, in the
-window, then focus upon the ground-glass screen of the camera the
-requisite size; then prepare a wet collodion plate, and, having fixed a
-grained screen* in front of the carrier, put the plate in its place,
-then expose to the light and develop as directed for wet collodion
-pictures; the result, however, will be a positive and not a negative,
-and instead of the grain being interspersed through the high lights,
-the shadows will be grained.
-
-          * The grained screen is a copy from a proof from a fine ruled
-          copper plate. See Chapter on “Half-tone Blocks on Zinc.”
-
-The transparency must be made in this manner—_i. e._, from an ordinary
-negative with a screen in front of the sensitive plate, so that the
-shadows and half tones are grained or broken up. This would not be
-the case if the transparency was made from a negative grained for
-the production of a type block, as in such a negative the blacks are
-represented solid and the lights and half-tones grained should be made
-on large sized plates.
-
-The transparency made must fulfil all the conditions necessary for the
-production of type blocks—_i. e._, the film must be perfectly free from
-veil or fog; it may be varnished or not.
-
-The mark put upon the negative from which the transparency is made,
-will cause the edges of the transparency to be quite clear. Coat a
-clean piece of polished copper with the bitumen solution, using the
-whirler as before; then |123| place the transparency in the printing
-frame, film up, and place the bitumen coated copper plate in position,
-so that the image is quite in the centre of the plate: fasten the
-printing frame and expose to the light.
-
-The exposure will, of course, vary according to the strength of the
-light, and should always, if possible, be made either in direct
-sunlight or by electric arc light.
-
-The development is effected by immersion in turpentine, and with the
-washing and drying, has already been described.
-
-The image on the copper plate being satisfactory, it may be retouched,
-if necessary, then immersed in either of the etching fluids described
-in the last chapter.
-
-Rebiting, if necessary, may be done after rolling up with the resist
-ink there given, but care must be taken in this rebiting to guard
-against interfering with the grain of the plate.
-
-
-|124|
-
-CHAPTER III.
-
-HALF-TONE INTAGLIOS—(_Continued_).
-
-The next process under consideration is that in which the grain is
-given to the copper plate by dusting it with fine powder of resin
-(colophony) or of asphalt. To do this a dusting box is required, which
-may be an ordinary aqua-tint box hung on centres for the purpose of
-revolving it when desired to cover large plates with the powder. The
-following figure will illustrate a box suitable for small work.
-
-[Illustration: Fig. 15.]
-
-The box should be eighteen inches high, twelve inches wide, and eight
-inches deep; it may be made of cardboard with the inside quite smooth.
-It should be closed all around except at A, where there is a small door
-four inches high; the bottom of the box is either studded with small
-nails or some coarse wire netting is stretched across, upon which the
-copper plates can rest, as near level as possible. To use this box,
-four ounces of resin or asphalt are powdered in a mortar until quite
-fine. The powder is placed inside the box, and the door closed; the box
-is now vigorously shaken, then placed on the table, the door opened,
-and a copper plate (previously cleaned and polished) is at once placed
-face up on the nails or wire netting. By the time the door is opened
-and the copper plate or plates are in position, the coarser particles
-of the resin will have subsided, leaving only the fine dust floating in
-the interior of the box; now close the door, and leave the copper plate
-within until it is judged that it is powdered sufficiently, which, of
-course, will be a matter for the operator to find out by practice.
-
-When the plate has been sufficiently powdered, it is carefully
-withdrawn and placed upon a hot iron plate and allowed to remain there
-until the resinous |125| powder is just sufficiently melted to adhere
-to the copper plate, preserving as much as possible the separate
-existence of each atom of dust. Take care to stop the action of the
-heat before the resin is melted completely and made to run together and
-form a smooth surface.
-
-The heat having acted long enough, carefully withdraw the prepared
-copper from the hot plate and allow it to cool. Any desired quantity of
-these plates may be prepared and stored away for future use. When they
-are required the grain may be selected to suit each picture, as the
-operator can prepare at will (after practice) either a coarse or a fine
-grained ground.
-
-Instead of using a hot plate the resin may be melted over a gas flame,
-but the hot plate will be found the best.
-
-There is another method of laying this aquatint ground that is simple
-and novel, viz., by using the air brush. Those who are in possession of
-this instrument need no further instructions than to be reminded that
-ordinary bitumen dissolved in benzole, or a resinous-spirit varnish,
-is placed in the color reservoir, and then the brush will coat the
-clean copper plate with an aquatint as fine or as coarse as required,
-according to the distance between the plate and the “brush.” Another
-advantage with this method of laying the ground is, the ground need not
-be even, as in the dusting method, but the artist may lay the ground
-coarse in some places and fine in others, _verb sap_.
-
-The next step in this process will be to get a transparency of the
-subject. This may be made by any known process (at last, some one says
-we are getting away from the wet collodion) so long as it is clean,
-vigorous, and free from fog.
-
-The transparency being at hand, that portion of it required to be
-transferred to the copper plate is carefully surrounded by a mask of
-tinfoil, or of non-actinic paper, which will serve as a safe edge to
-the carbon tissue to be used in making the negative resist, as well as
-to keep the margin of the plate free from extraneous picture.
-
-This done, a piece of sensitive carbon tissue, a little smaller than
-the copper plate, which has been previously sensitized with bichromate
-of potash and dried, is placed upon the masked transparency and exposed
-to light until sufficiently printed; the tissue is then removed from
-the printing frame and placed in a dish of clean cold water; then one
-of the copper plates with aquatinted ground is also placed in the
-water, and the face of the tissue and the copper plate are brought in
-contact. After adjusting the tissue on the copper |126| plate, the two
-are withdrawn from the water, laid upon a bench, and a squeegee passed
-over the back of the tissue. Thus the driving away of the water from
-between the two surfaces will cause the tissue to adhere to the copper
-plate.
-
-Now let the plate stand a few minutes, then immerse it in a dish of
-warm water at about 90° F. As soon as the tissue compound is melted,
-lift away the paper backing and throw it aside, then gently lave the
-copper plate with the warm water until all the soluble pigmented
-gelatine is dissolved; after that wash it under the tap, and place it
-in a strong solution of alum for fifteen minutes, and again wash and
-allow to dry.
-
-When the gelatine image on the copper plate is quite dry, the margin
-outside the picture is coated with bitumen or spirit varnish, then the
-plate is placed in the etching bath of perchloride of iron (see page
-121), in which it is allowed to remain until the high lights under
-the thickest portions of the gelatine image just change color; then
-remove it and wash it under the tap; next clean off the resist image,
-and after drying and cleaning up, try a proof. If necessary, ink up as
-directed in Chapter I., page 121, and rebite.
-
-To succeed with this process it is only requisite to have a well-laid
-ground, a good, vigorous transparency, and the carbon tissue in good
-working order.
-
-       *       *       *       *       *
-
-N. B.—In order not to confuse the above directions by interpolating the
-working details of carbon printing, these will be given in a chapter
-further on, together with formulæ for making suitable tissue.
-
-
-|127|
-
-CHAPTER IV.
-
-HALF-TONE INTAGLIOS. ELECTROTYPING METHODS.
-
-The preceding methods of obtaining intaglio plates have been by the
-etching process. We now try another method whereby the printing plate
-is obtained by depositing a film of copper upon the photograph, and
-from this copper electrotype the prints are to be made.
-
-There are many ways of proceeding to make these copper intaglios, the
-grain being obtained in many ways, but the foundation is the same in
-all, and consists of incorporating bichromated gelatine with grit of
-such a nature as to cause the image to be rough instead of smooth, or
-else the roughness is given to an ordinary or modified so-called carbon
-image developed upon a silvered copper plate.
-
-The silvered copper plates upon which the gelatine images are to be
-developed are prepared by dipping clean polished plates in a solution
-of cyanide of silver, made by adding cyanide of potassium solution
-to a solution of nitrate of silver until there is a slight permanent
-precipitate. The copper plate remains in this for three or four
-minutes; it is then removed, washed under the tap, and dried.
-
-The gelatine tissue compound is had by first of all making a jelly of
-
- Gelatine (soft)      8 ounces.
- Sugar                5 ounces.
- Water               25 ounces.
-
-Soak the gelatine until soft, then melt it at as low a temperature as
-possible, add the sugar and churn all for fifteen minutes; then add to
-one-half of the jelly one ounce of finely powdered graphite, and to the
-other half one ounce of a coarser powdered graphite. Churn these well
-together.
-
-Paper is coated with the above mixtures, floating it first upon that
-containing the coarser graphite, then after drying, coat again by
-floating the paper upon the gelatine containing the fine graphite, and
-again drying.
-
-The paper is then sensitized by being immersed in a three per cent.
-solution of bichromate of potash. Dry it in the dark. After exposure
-to light under |128| a _negative_, it is developed upon the silvered
-copper plate, after which the electro is made.
-
-Another plan is to expose a piece of ordinary carbon tissue under a
-negative in the usual manner, then develop it upon the silvered copper
-plate, and sift over the wet gelatine image some finely powdered glass,
-sand, or emery which has been previously soaked in paraffine. The
-gelatine is then allowed to dry, when the grit is brushed away, leaving
-the gelatine image all marked and pitted. This pitted image is then
-black-leaded, and the electrotype is taken from it.
-
-Another method is to place the newly developed carbon print on the
-copper plate, inside the aqua-tint box, Chapter III. (having previously
-shaken up the powder); when it is well dusted over, allow it to dry,
-and then remove the powder by dissolving it out with either alcohol,
-turpentine, or benzole, after which the electrotype is made.
-
-
-
-
-|129|
-
-PART IV.
-
-PHOTO-LITHOGRAPHY IN LINE.
-
-
-CHAPTER I.
-
-This process is for making photographic reproductions of a subject in
-black lines on a white ground, half-tones and shadings being indicated
-by hatching, or stipple, but no washes of color are permissible. The
-object sought for from such a subject is to produce a transfer which
-can be laid down upon stone or zinc, and proofs printed therefrom in
-the ordinary lithographic press or machine.
-
-To gain this end there are three methods: the first, by printing upon
-paper prepared with bichromated gelatine, the lines of which, after
-exposure to light under a direct negative (_i.e._, a negative taken
-without a mirror behind the lens), will retain ink, whilst the gelatine
-protected from light absorbs water, and rejects the ink. The result is
-a replica of the original in fatty ink, and may be transferred to stone
-or zinc, and printed from by the usual lithographic method.
-
-In the second method, a print is made upon zinc from a reversed
-negative (in the same manner as directed in Chapter V., Part I.) in
-bichromated albumen, which is rolled up in transfer ink, and from
-that a transfer is pulled on Scotch transfer paper, which may then be
-transferred to stone or zinc, and printed from at a litho. press or
-machine.
-
-In the third, and by far the best method, the print is made from a
-reversed negative on zinc, in bitumen, as directed in Chapter V., Part
-I., then rolled up in transfer ink, the transfer pulled on Scotch
-transfer paper, then transferred to stone or zinc, and printed from at
-a litho. press or machine.
-
-The defects inherent to the first method are, first of all, in the
-preparation of the gelatine paper; this is tedious and messy. Then
-there is always danger of breaking the lines in transferring, and also
-the difficulty of working exactly to scale. |130|
-
-The second method is quick, easy, and simple, the only drawback being a
-tendency of the lines to thicken. With this and the third method there
-is no difficulty in getting absolute scale.
-
-The third method is perfect, and presents no drawbacks.
-
-The two latter methods having been amply explained in Part I., it will
-not be necessary to redescribe them, except to explain that when the
-print is made on the zinc in albumen, it is gummed in, fanned dry, then
-damped off with a wet sponge, followed by a damp cloth, rolled up with
-transfer ink, and the transfer pulled upon good Scotch transfer paper.
-
-The same remarks apply to bitumen prints.
-
-For a transfer printed in bitumen, the image is developed in
-turpentine, and when this is completed, wash the plate thoroughly under
-the tap, then immerse it in the graining bath (Part I., Chapter I.,
-page 24), and keep the tray rocking for a few minutes; the effect of
-this will be to destroy the polished surface of the metal, substituting
-a pearly matt surface, which will show up the picture properly, and
-allow the operator to judge whether any of the fine details are
-wanting; if there are, it will be necessary, if the details are
-dissolved out, to repolish the zinc, first with pumice-stone, then with
-snake-stone, then with pumice powder, finishing with fine rouge; then
-coat with bitumen, whirl, and again expose to light, giving this time,
-longer exposure under the negative.
-
-But if the fine details are buried in undissolved bitumen, a further
-immersion in the turpentine bath will soon clear them; then again wash
-under the tap, immerse in the graining bath, again wash, then, with a
-sheet of clean blotting paper, remove the surplus water, and allow the
-surface to dry in a cold current; but beware of using heat, as it has a
-tendency to make the bitumen image refuse ink in rolling up.
-
-The zinc being dry, it is gummed in, fanned dry, then the gum is
-washed off, and the image rolled up with a leather roller charged with
-transfer ink. As soon as the bitumen has taken the transfer ink all
-over, a transfer is pulled upon Scotch transfer paper, which in turn is
-transferred to stone for printing from.
-
-In rolling up these prints upon zinc, care must be taken to keep the
-surface (whether the image is in albumen or bitumen) properly damp.
-
-The preparation of paper transfers will be treated upon in the next
-chapter.
-
-The negative from which these transfers are made, must have all the
-characteristics of a good negative for printing on zinc for etched
-blocks, viz., the lines |131| must be represented by clear glass, and
-those portions of the negative representing the whites of the original,
-must be as near opaque as possible.
-
-The subjects to which photo-lithography is applicable, are those that
-are strictly in line, or stipple, or dots, or cross hatched, or chalk
-drawings; in fact, any subject that may be done by lithography, or in
-black and white; but no shading by color washes is permissible.
-
-Transferring to stone or zinc is done as follows:
-
-First of all, the transfer is trimmed to proper size; it is then placed
-in a damping book, made by placing wet sheets of brown or good printing
-paper alternately with dry sheets, then placing all under a weight for
-a few hours, until the whole of the book is evenly damp; the trimmed
-transfer is allowed to remain here until limp; it is then sponged on
-the back with a very little of oxalic acid (half an ounce), water
-eighty ounces; now lay the transfer carefully down on a perfectly clean
-and polished stone, backing the transfer with a piece of smooth paper.
-Having adjusted the pressure of the scraper on the stone, pull through
-twice, then reverse the stone in the press, and pull through twice
-more. Then remove the backing and lift the transfer from the stone,
-when the whole of the ink should be upon the stone, leaving the paper
-quite clean. Now, if the picture is quite satisfactory, wipe the stone
-first with a wet sponge, then with a damp cloth, then gum in and allow
-to dry, and, if possible, to stand with the gum on all night.
-
-
-|132|
-
-CHAPTER II.
-
-PAPER TRANSFERS.
-
-Paper for photo-lithographic transfers may be made by coating bank post
-paper or a good hand-made writing paper, with
-
- Gelatine (Nelson’s)      2 ounces.
- Water                   20 ounces.
-
-Put the above into a wide-mouthed bottle or jar, and allow the
-gelatine to soak until soft; then place the vessel in a large saucepan
-containing cold water, and set on a fire, or over a gas-burner, and
-by the time the water in the saucepan is hot the gelatine will be
-dissolved. Then add slowly (stirring the gelatine with a glass rod) one
-drachm of a ten-grain solution of chrome alum. Now strain the gelatine
-solution through fine muslin into a clean dish, standing it in a larger
-dish containing hot water; float the bank post paper upon this solution
-(taking care to avoid air-bubbles) for two minutes, then lift it off
-slowly and hang it up to dry, pinning it by two corners to the edge of
-a shelf.
-
-When dry, the operation is repeated, but this time the paper is hung
-up to dry by the two opposite corners, so as to equalize the coat of
-gelatine.
-
-When dry a second time, it must be floated for two minutes upon
-
- White of      5 eggs.
- Water        13 ounces.
-
-(Shake up well, and filter into a cold dish.)
-
-Paper prepared as above will keep for any reasonable length of time.
-
-For use, it is drawn slowly through a solution composed of
-
- Bichromate of Potash      1-1/2 ounces.
- Water                    20     ounces.
- Alcohol                   5     ounces.
- Liquor Ammonia           10     minims.
-
-This being done, the paper is again hung up to dry, this time in a dark
-room.
-
-When dry, the paper should be laid face down, upon a polished litho.
-stone, and be pulled through the press three or four times, so as to
-get the surface as smooth as possible, and insure absolute contact.
-|133|
-
-This must be done in a yellow light, or in a room lighted by gas or oil
-light.
-
-The paper is now placed in contact with the negative, in a
-printing-frame, and exposed to light; the exposure for such paper
-should be from five to fifteen minutes.
-
-Note well that these paper transfers are printed from negatives taken
-direct in the camera, without the intervention of the mirror, therefore
-negatives suitable for printing paper transfers will not do for
-printing upon zinc, or _vice versa._
-
-The progress may be watched by undoing one side of the back of the
-frame, and examining the image in the dark room; but in damp weather
-this should not be done too often, as the paper may expand or contract,
-and blur the image.
-
-The exposure to light under the negative being complete, the print is
-removed from the frame in the dark room, and is next coated with a thin
-film of ink as follows:
-
-A smooth litho. stone is carefully coated with a fatty ink by means of
-a leather roller, extreme care being necessary to insure an even coat
-of ink over the stone; this being attained, the exposed print is laid
-face down (the room being lit by yellow light or gaslight) upon the
-inked stone, then a piece of backing paper laid upon it, and pulled
-through the press, with a good nip upon it; pull it through twice,
-then reverse the stone on the press, and again pull through twice,
-which will leave a fine, thin film of ink upon it. Now take the inked
-print, and place it in a tray of clean, cold water, allow it to remain
-therein for five minutes, then lay the print upon a piece of glass,
-and rub it gently with a pad of cotton-wool—previously wetted in the
-water. This will remove the ink from those portions of the paper that
-were protected from the action of light by the opaque portions of the
-negative, representing the whites of the original.
-
-The application of the pad of cotton-wool is continued until the whole
-of the picture is cleared from superfluous ink, and the lines composing
-the image are evenly coated with ink. The ink adheres only to those
-portions of the paper which the light has acted upon, through the
-negative.
-
-Now wash the transfer under the tap, then hang it up to dry. When dry
-it is ready for transferring to stone or zinc.
-
-To transfer to stone or zinc, place the transfer first of all in the
-damping book, and when limp place it upon a clean, cold, polished
-stone, and pull it through the press. |134|
-
-When transferred, the image is treated in exactly the same manner as an
-ordinary transfer on stone or zinc.
-
-The enamelled double transfer paper sold for double transfer carbon
-work may be used for photo-litho. transfers by floating it upon
-
- Albumen                                         5 ounces.
- Water                                          20 ounces.
- Saturated Solution of Bichromate of Potash      3 ounces.
- Liquor Ammonia                                 10 drops.
-
-and then dried.
-
-Paper thus prepared must be kept in a dry air-tight case, and just
-before using is laid face down upon a smooth litho. stone, and pulled
-through the litho. press. After this, it is placed in contact with the
-negative in the printing frame, and exposed to light until the details
-are visible. Although the progress of the action of light can be seen,
-the frame must not be opened too often, or the paper is apt to expand
-and blur the image. After exposure the print is inked up, developed,
-and treated exactly as explained above.
-
-The ink suitable for inking up the stone, previous to laying upon it
-the exposed print, is composed of
-
- Best Chalk Litho. Printing Ink      3 parts.
- Mutton Fat                          1 part.
-
-Put the ink and fat into a small iron or earthenware pot, and place it
-over a Bunsen burner, or a paraffine stove, or on the hot plate of a
-kitchen stove (_but not over an open fire_); allow the heat to melt the
-two ingredients, stir so as to incorporate them thoroughly; take great
-care not to allow it to catch fire; if it does, at once extinguish the
-flame, as the firing would be apt to spoil the ink. When thoroughly
-melted and incorporated, pour into a tin, or pot, for use when cool;
-the time occupied in making this ink will not exceed twenty minutes.
-The mutton fat is obtained by dropping solid kidney suet (shredded)
-into a pan of clean boiling water, then allowing to cool, when the fat
-is taken off the surface of the water, freed from damp and stored for
-use.
-
-Another formula for the preparation of paper, to be inked up, after
-printing in the same manner as the above transfers, is to coat paper
-twice with the following preparation, drying between each coat:
-arrowroot, 1 ounce; wet this thoroughly with 5 ounces of cold water,
-stirring well with a spatula, adding more cold water, if necessary, to
-moisten the lot; then pour over it 20 ounces of boiling water, stirring
-all the time; if, when the 20 ounces are added, |135| the arrowroot
-has not thickened, add more boiling water until it does do so; now add
-1/2 an ounce of powdered bichromate of potash and stir until dissolved;
-then strain through muslin into a warm dish and float the paper upon it
-whilst hot, and dry at a temperature of 70° F.
-
-If the bichromate of potash be omitted, the paper may be prepared
-in quantity and stored away for future use, being made sensitive by
-floating for five minutes upon
-
- Bichromate of Potash      1 ounce.
- Water                    25 ounces.
-
-Paper for either gelatine or arrowroot transfers, after keeping so long
-after preparation as to be useless, should not be thrown away, but
-should be again floated upon bichromated gelatine or arrowroot, and
-after drying will give finer results than new paper.
-
-Prof. Husnik’s photo lithographic transfer paper is obtainable in
-England and in America. He recommends the following chromate bath:
-
- Bichromate of Ammonium      1 ounce.
- Water                      15 ounces.
- Alcohol                     4 ounces.
- Liquor Ammonia              1 ounce.
-
- Keep well corked in a dark place.
-
-
-|136|
-
-CHAPTER III.
-
-PAPER TRANSFERS—(_Continued_).
-
-Prepare a solution of
-
- Gelatine      5 ounces.
- Sugar         1 ounce.
- Water        20 ounces.
-
-Soak the gelatine in the water (cold) until quite soft, then melt it by
-the application of heat (nothing is better for this sort of work than a
-_Bain Marie_, a domestic utensil with a porcelain pan enclosed in one
-of tin); then add the sugar and stir well, continuing the application
-of heat until a temperature of 150° F. has been reached; now strain
-the gelatine through muslin, into a clean dish placed in a larger dish
-containing boiling water, the heat from which will keep the solution of
-gelatine in a properly liquid state during the operation of coating the
-paper.
-
-The best for these transfers is a good hand-made writing paper, or good
-bank-post.
-
-Cut the paper into suitable sizes, leaving a little extra margin at one
-end, and float it upon the hot gelatine solution as above; be careful
-in laying the paper upon the gelatine, that air bells are avoided; when
-the sheet is laid upon the surface, raise it rapidly, and throw it at
-once over a cylinder of cardboard or of wood, and at once commence
-to revolve this cylinder rapidly, first in one direction, and as the
-limit of the length of paper is reached, revolve it in the other,
-which motion will alternately bring first one end uppermost and then
-the other. By this means an even coating of gelatine upon the paper
-is secured, which is not possible when the paper is hung up by clips
-directly it is taken from the surface of the hot gelatine. The cylinder
-is kept revolving until the gelatine has set, when it may be hung up to
-dry upon clips, or laid face up, over a line upon a piece of cardboard;
-during the operation of revolving the cylinder, any air bells formed in
-the gelatine coating may be removed by blowing or pricking them.
-
-This, to my mind, is a most elegant method of coating small sheets (up
-to thirty inches long) with a coat of gelatine, for which I willingly
-give the |137| Royal Engineers the credit, it having been demonstrated
-to me by Ex-sergeant Dalton, of that corps.
-
-Paper coated in this manner, when dry, is ready for sensitizing; but if
-coated in the ordinary manner, it should, when dry, be coated a second
-time and hung up to dry in the opposite way that it was the first time.
-
-Paper coated with gelatine solution as above, may be stocked, as the
-coating does not deteriorate with time; but the operator must be
-careful not to allow the solution of gelatine to get below 125° during
-coating, else the surface will be sticky. The temperature of the drying
-room must not exceed 70°, in fact, 60° will be best.
-
-Paper so coated is sensitized by immersion for three minutes in
-
- Bichromate of Potash      2 ounces.
- Water                    50 ounces.
-
-In hot weather this solution must be kept cool with ice.
-
-When the time of immersion has expired the paper is removed, and laid
-face down upon a sheet of glass free from scratches—which sheet of
-glass has been well polished with finely powdered talc (or French
-chalk)—now squeegee the back of the paper vigorously, to remove the
-superfluous solution and bring the surface of the paper into absolute
-contact with the glass plate. The sheet of glass is now placed in a
-rack, in the dark room, until the paper is quite dry, when it may
-be readily stripped off the glass, and is ready for printing the
-transfer. The operation of drying should be done in a current of air
-at a temperature of about 60°, and the paper must be quite dry before
-attempting to strip it from the glass.
-
-The exposure under the negative is the same as described in the
-previous chapter.
-
-When sufficiently exposed, the print is removed from the frame in the
-dark room, and at once immersed in cold water, where it is allowed
-to stay for five minutes, when it is withdrawn and laid upon a piece
-of plate glass, or a zinc plate, the face being uppermost; then the
-loose end of the paper (provision for which must be made in cutting
-the paper) is tucked under the plate, so as to hold the transfer in
-position in the subsequent operations.
-
-Now take a glue roller (the same as used for inking up the albumen
-image on zinc, described in Part I., Chapter IV.), and having spread
-a little of the ink described in the last chapter (chalk, litho. ink,
-and mutton fat) upon the slab, charge the roller carefully with a thin
-coating of ink, and then, having |138| removed any moisture from the
-face of the transfer with a soft sponge, apply the inked glue roller,
-rolling one way only—_i.e._, from the body (presuming that the edge
-of paper tucked under the slab is next the body of the operator);
-continue rolling until the whole of the lines forming the picture are
-coated with ink, and the whites quite clean and free from ink. If the
-roller should get wet from water oozing from under the transfer, wipe
-it with a damp cloth and then roll it a few times on the inking slab,
-and continue rolling the transfer. Be careful that the portion of the
-transfer representing the whites of the picture has absorbed its full
-modicum of water before beginning to roll up, and also that there is
-not too much ink upon the roller. When the transfer is successfully
-inked up, it is hung up to dry, and when dry is trimmed to size, placed
-in a damping book, and transferred to stone.
-
-The exposed transfer, after wetting, and being placed upon the plate
-of glass, or zinc, may be developed in another way. First remove the
-superfluous water from the surface with a soft damp sponge, then rub it
-gently all over with a pad of cotton-wool dipped in a thin mixture of
-ink thinned with turpentine and well mixed with a palette knife (this
-ink should be a little thicker than ordinary copying ink); all the
-image must be covered with the ink. The turpentine is then allowed to
-evaporate, when by rolling with the glue roller from the body, the ink
-will clear away from the whites, leaving the lines sharp and distinct.
-Do not use too much pressure, else the ink may be removed from the
-lines, in which case cover the whole picture with a fresh coat of the
-thin ink, and again roll off. The subsequent operations are the same as
-for the other paper transfers.
-
-The ink for this method is made by melting over a Bunsen burner, or
-paraffine stove,
-
- Chalk Printing Ink      4 ounces.
- Beeswax               1/2 ounce.
- Stearine              1/2 ounce.
- Resin                 3/4 ounce.
-
-When these are melted and well stirred together, set the mixture on
-fire and allow to burn for three minutes, then extinguish by putting
-the cover on the pot or pan, then pour it into a tin. When cold it is
-ready for use.
-
-In handling the sensitized gelatine paper for transfers, every care
-must be exercised to keep the paper from being exposed to the action of
-light, before and after exposure in the printing frame, else there will
-be great difficulty in getting clean transfers.
-
-
-|139|
-
-CHAPTER IV.
-
-TOOVEY’S NEGATIVE TRANSFER PROCESS.
-
-A good smooth paper is floated for five minutes upon finest picked
-
- Gum Arabic                5 ounces.
- Water                    15 ounces.
- Bichromate of Potash      1 ounce.
-
-This is dried in the dark, then exposed to light in a printing frame
-under a direct negative. It is then laid, face down, upon a polished
-zinc or stone, if a line subject, or on a grained zinc or stone, if a
-half-tone subject; upon the back of the print several sheets of damp
-paper are laid, and then the whole is subjected to very heavy pressure
-in a hydraulic press, so that the water in the damp paper may be forced
-through the print and dissolve the gum in the unexposed parts of the
-sensitive gum coating (which is still soluble). The dissolved gum
-attaches itself to the stone, whilst the exposed parts being rendered
-insoluble by the action of light, the damp has no effect upon it, and
-the stone is protected in those parts.
-
-When the stone has been under pressure for a sufficient length of time,
-to allow the small traces of gum in the deepest shadows to attach
-themselves to the stone, the pressure is removed, the stone withdrawn,
-and the paper carrying the photographic print is carefully lifted up,
-leaving the bare negative image on a gummed ground. The stone is well
-dried, and covered all over with a greasy ink applied by a roller or
-otherwise. The ink is thus brought into contact with all parts of the
-stone or zinc unprotected by the gum.
-
-The image is then washed out with turpentine, and the gum removed by a
-damp sponge, after which the stone or zinc is rolled up in the ordinary
-manner with a leather roller, and is printed from in the ordinary
-manner.
-
-Of course, it will not be expected that the best results are obtainable
-by so simple a process. Perhaps in no other branch of work does an
-outlay of thought and time “pay” so well as in the practice of these
-interesting photo-printing methods.
-
-
-|140|
-
-CHAPTER V.
-
-PHOTO-LITHO. TRANSFERS.
-
-
-TO DEVELOP PHOTO-LITHO. TRANSFERS.
-
-_To develop photo-litho. transfers on paper_ there are two methods. The
-first and oldest is, after exposure, to coat a smooth litho. stone with
-a thin layer of transfer ink, by means of a leather roller, then to lay
-the exposed print face down upon this inked stone, and pull it through
-the press. Of course, this must be done in a dark room, or by gas or
-oil light, as daylight would spoil the transfer.
-
-Now the inked and exposed transfer is placed in water at 80° F., and
-allowed to remain for three or four minutes, when it is taken from the
-water and placed upon a plate of glass, and the superfluous ink is
-removed by means of a sponge dipped in the hot water. If the negative
-has been sufficiently opaque, and the exposure right, the image will
-quickly develop, the lines retaining the ink, while that upon the
-whites will come away.
-
-Hot water is used where the coating is of gelatine only; if gum arabic,
-or albumen has been used, then, after inking up on the stone, the
-transfer must be developed in cold water, and cotton-wool used to
-remove the ink from the whites, rubbing very carefully with very little
-pressure.
-
-Paper prepared with a thick coat of gelatine may be developed in
-another way; after removing it from the printing-frame, the transfer
-is inked up on the stone, then placed in a dish of cold water and left
-there for five or ten minutes; then removed and placed upon a thick
-glass slab, the end tucked under so that when placed on the bench
-the slab will press the paper and keep it in position. Now, with a
-sheet of clean blotting-paper, remove the water from the transfer,
-using pressure with the hands from the end tucked under the slab;
-then, with a glue roller, roll from the tucked under end until the
-image is developed. Instead of inking the transfer up when dry, the
-transfer may be placed in the cold water directly it is taken from
-the printing-frame, and allowed to remain for ten or fifteen minutes,
-during which time the image will swell, by the whites absorbing water.
-Now place upon the glass slab (one end being tucked under), and remove
-the superfluous water first with a |141| sponge, then with a damp
-cloth; now dip a sponge in transfer ink thinned to the consistency of
-cream by turpentine, and dab all over the damp transfer, then allow
-it to stand until the turpentine has evaporated. Next take the glue
-roller and roll the transfer until the whites are clear; only roll one
-way—_i.e._, from the end tucked under the slab.
-
-The transfers being developed, they are rinsed with clean water,
-and hung up to dry in a current of cool air. If dried at too high a
-temperature, the transfers will be inferior, and difficult to handle.
-
-[Illustration: Fig. 16.]
-
-Instead of using a slab of glass, and tucking the end of the transfer
-underneath, a proper developing-board may be used as follows: A is a
-clamped board 18 inches by 12 inches, by 1 inch thick; B is another 4
-inches by 12 inches; these are hinged together at C, the hinges being
-let into the boards underneath. Now, if the transfer be laid upon the
-board A, the end placed in the aperture C, then the pressure of the
-roller will cause the piece B to clamp the paper quite tight.
-
-A few little differences in manipulation are required by the various
-transfer papers found on sale in the market. For this reason I add the
-instructions given by Prof. Husnik for his transfer paper.
-
-_Making the paper sensitive._—Pour the solution in a shallow glass or
-porcelain dish (such as photographers use), take hold of the paper
-on two opposite ends, dip one end (prepared side _upward_) in the
-solution, and draw the paper through so that the whole surface is
-covered evenly with the solution; drain off and hang it up for drying
-in a _dark_ room. Pins may be used for this purpose. Never _reverse_
-the paper in hanging it up. Wet only as much of the paper as you intend
-using at every one occasion. In hot summer weather the so prepared
-paper must be used within a few hours. In cold and damp weather it
-keeps good for three days. After the paper has passed through the bath
-the _prepared side_ of it must not be brought in contact with anything
-whatever, as the least touch will create a spot in the picture. For
-pouring back the solution into the bottle use a glass funnel. It is
-very advisable to run the sensitive |142| paper on a polished stone or
-metal plate through a lithograph press to give a smooth surface.
-
-_The development_ of the picture can begin after the mentioned time and
-is to be accomplished with a fine, solid, and very soft sponge, rubbing
-in circle-form with it over all parts of the picture until all the ink
-is washed out of the lights, the lines becoming clear and distinct
-and the shade properly open. The water must be changed several times,
-passing always with the sponge delicately over all parts of the picture
-to remove all uncleanliness from it. But never go over the picture
-with a dry sponge. After washing the picture clean it is laid between
-damp printing paper and slightly pressed with the hands to remove
-the superfluous water. Was the exposure of the picture too _long_ it
-will be very difficult, yea, impossible to develop it. Too _short_ an
-exposure will lose the fine lines. The proper time of exposure will
-easily be learned.
-
-_For very fine reproductions_ the paper should be dried and inked in
-the following manner:
-
-Take a pane of glass, coat it with a fatty substance, as tallow or wax
-dissolved in benzine; wipe the glass clean, so as to leave only a trace
-of fat on; lay the paper in the solution about one minute, drain off
-and then lay the paper face down on the glass, removing all air bubbles
-by rubbing over the back with a rubber straight edge, or better, a
-squeegee. When dry, the paper will leave the glass easily and will have
-a glass-like surface.
-
-_The inking._—Take common lithographic transfer ink, mix with it
-one-fourth part of the photo-lithographic ink and coat a smooth stone
-with an even tint, taking care not to make it too thick (a smooth
-lithograph or composition roller will answer). Lay the printed picture
-face down and run it through the press with a good pressure; the
-picture will be covered with an even tint, showing the picture through
-it.
-
-The development is the same as above described. This later method gives
-excellent results.
-
-_Transferring._—When all the water is removed from the picture, and
-while damp, lay it on the stone and make the transfer with the same
-care as other transfers are made, starting with a very light pressure;
-and if the paper sticks to the stone, increase the pressure. It is
-advisable to wash the stone with pure turpentine, and dry it before
-transferring.
-
-
-
-
-|143|
-
-PART V.
-
-PHOTO-LITHOGRAPHY IN HALF-TONE.
-
-
-CHAPTER I.
-
-This process, like photo-engraving, has been the subject of many
-applications to the Patent Office, but the first notable progress was
-made by Messrs. Bullock, in 1865. They seem to have gone into the
-subject thoroughly, as the elaborate and practical specifications
-prove, but although the patentees issued some fine specimens of their
-work, and advertised the sale of prepared paper, nothing came of it.
-
-Messrs. Bullock’s method comprises the printing from grained stone
-tile, or a stone upon which has been laid a transfer, from a stipple
-plate, or a plate engraved in lines or dots—upon sensitive transfer
-paper in stiff ink.
-
-The sensitive paper, with such imprint upon it, is exposed to light
-under a negative, the specks of ink forming a medium for breaking up
-the half-tones.
-
-Suitable grain may be obtained from machine stippled plates, as well as
-from grained stone.
-
-Half-tone photo-lithography may also be made by making, from a proof
-pulled from a machine stipple, or a ruled plate, or a grained stone, a
-wet, collodion negative, which, being stripped from its glass support
-(by any of the means mentioned in the chapter on stripped films) is
-placed between the ordinary half-tone negative and the sensitive
-surface—zinc, coated with bichromated albumen, or with bitumen, or
-either of the transfer papers treated of in Part IV.—the result will be
-a grained transfer.
-
-Grained zinc, coated with bichromated albumen, or with bitumen, and
-exposed under a very thin half-tone negative, will also yield transfers
-suitable for a good many subjects, but the most successful methods are
-modifications of the collographic printing processes.
-
-Transfers made by any of the methods mentioned in the following
-chapters may be transferred to polished zinc, and then etched in
-relief, as directed in Part I.
-
-
-|144|
-
-CHAPTER II.
-
-INK PHOTOS.
-
-The various methods named in the last chapter for breaking up and
-transferring to stone the delicate half tints of a photograph from
-nature, are in a great measure rather crude and do not give the fine
-results yielded by the following modification of the collotype process,
-nor are they so certain and simple in their working.
-
-The production of ink photos is as follows: A plate of flat copper is
-grained by means of graining sand and a piece of litho. stone, the
-sand being put through a fine sieve (about 120 holes to the inch). The
-copper plate being, first of all, well polished and without scratches,
-is placed upon a flat board, the graining sand is then sieved over it,
-and moistened, then with a light, firm motion of the wrist, the whole
-of the surface is evenly ground. The operation of graining is very
-difficult to describe, except to say that the stone muller is shuffled
-all over the plate until the polished surface of the copper is replaced
-by an even matt. Renew the sand when necessary. Do not try to get
-through the operation rapidly by taking large circles, else scratches
-are sure to result.
-
-The copper plate being grained, it is well washed, back and front, so
-as to free it from all grit, then coated whilst wet with
-
- Stale Beer (not lager)         5 ounces.
- Water                          5 ounces.
- Silicate of Soda (syrupy)      1 ounce.
- Tannin                         1 grain.
-
-Shake well, then filter; coat the plate twice and stand it on a rack to
-drain and dry. When dry swill the plate under the tap and again dry.
-These plates may be prepared in advance, as they improve by keeping.
-
-Now prepare the following solutions:
-
- Best Cologne Glue      1 ounce.
- Water                 10 ounces.
-
-When dissolved add
-
- Bichromate of Potash, in powder      30 grains. |145|
-
-Stir until dissolved, then add
-
- Nitrate of Silver      30 grains.
- Dissolved in Water      1 ounce.
-
-Stir well, then add
-
- Chloride of Calcium (crystals)      10 grains.
- Dissolved in Water                   1 ounce.
-
-Stir up well, then add
-
- Acetic Acid      1/2 drachm.
-
-Again stir.
-
-Warm the coated copper plates by letting them lie upon the slab of
-the drying oven. The drying oven is described in the chapter on
-collotype printing, and for this process the slab should be at about a
-temperature of 150° F. Now strain the above mixture through muslin into
-an invalid’s cup with a long spout, and holding the warm copper plate
-horizontally on the palm of the left hand, proceed to pour over it as
-much of the gelatine mixture as will well cover it. Do not have a very
-thick film, else the grain will be too coarse; nor too thin, or there
-will be no grain at all. Practice will soon enable the operator to
-apportion the proper quantity to each plate. As a rough estimate, about
-one fluidounce of the mixture for a plate 12 × 10 will be required.
-
-The plate being coated, it is placed on the slab of the drying oven and
-left there until dry. That will take from one and a half to two hours.
-The exact temperature at which to dry these films cannot be arbitrarily
-stated, as so much will depend upon the picture which is to be printed;
-therefore, a few experiments will be necessary before settling down
-to an exact form of working. A good plan that answers admirably is to
-raise the water in the tank of the drying oven to boiling point before
-coating the plate, then coat the plate, lay it on the slab, let the
-water in the tank boil for a few minutes then turn out the gas and let
-the plate dry.
-
-The plate being dry it is exposed under a good ordinary (reversed)
-negative until the whole of the details are well out. Time the exposure
-by means of an actinometer.
-
-After exposure under the negative, remove the plate from the printing
-frame and in the dark room cover it with litho. transfer ink by means
-of a leather roller, taking care that the whole of the surface is well
-coated with the ink. Now place it in clean cold water for three or four
-hours, then with a soft |146| sponge remove as much of the ink as will
-come away. This operation will take time, as every care must be had not
-to scratch the film.
-
-Now rinse the plate under the tap and allow it to dry.
-
-When dry soak it in cold water for half an hour, then place it on the
-press (an ordinary letter press), and with a sponge and soft cloth
-remove the superfluous water from the film; then roll up with a leather
-roller charged with litho. transfer ink as thick as can be worked.
-When the image is properly inked up pull a transfer upon good Scotch
-transfer paper.
-
-Perhaps the first two or three pulls will not be satisfactory;
-therefore, it will be best to pull a few before using the transfer
-paper, damping and wiping between each pull just in the same way that
-is done in printing from a lithographic stone.
-
-A good transfer being obtained, it should be given to a lithographer
-to put it down upon a grained stone, an operation which requires great
-skill and experience. The student’s interest will be best consulted by
-not attempting to give a description of how to transfer to a grained
-stone.
-
-Another formula for a sensitive coating for the copper plate is
-
- Gelatine      1 ounce.
- Water         6 ounces.
-
-Soak the gelatine till soft; then melt, and add one drachm of
-bichromate of potash in powder; stir until dissolved; add twenty grains
-of good fresh dextrine and let the mixture cool to about 120° F.;
-then add one drachm of liquor ammonia and six ounces of alcohol. The
-subsequent operation of coating, etc., is the same as above.
-
-
-|147|
-
-CHAPTER III.
-
-HUSBAND’S PAPYROTINT PROCESS.
-
-This is a process for the production of photo-lithography in half-tone,
-direct from the negative, without the intervention of a collotype plate
-from which to pull the transfer, and is a distinct step in advance.
-
-This process has been named papyrotint, being a modification of Captain
-Abney’s improved method of photo-lithography, named papyrotype. It is
-specially adapted to the reproduction of subjects in half-tone, such
-as architectural drawings in monochrome, or subjects from nature, and
-it is inexpensive. Its advantages over other methods of half-tone
-photo-lithography are, that a transfer can be taken in greasy ink, for
-transfer to stone or zinc _direct_ from any negative, however large,
-without the aid of a medium, the grain or reticulation being obtained
-simply by a chemical change. The transfer paper being in direct contact
-with the negative, the resulting prints are sharper than by those
-processes where interposed media are used; whilst the same negative
-will answer either for a silver print, platinotype, or a transfer
-for zinc or stone. The advantage of being able to use a non-reversed
-negative is very great, now that gelatine plates have so largely
-superseded those made with collodion.
-
-The method of manipulation is as follows: Any good surface paper is
-floated twice on a bath composed of
-
- Gelatine (Nelson’s Flake)             8     ounces.
- Glycerine                             1-1/2 ounces.
- Chloride of Sodium (Common Salt)      2     ounces.
- Water                                50     ounces.
-
-Great care should be taken that the solution is not overheated, and
-that the paper is coated without bubbles. It is then dried in a
-temperature of 60° F. The paper will take about ten hours to dry, and
-in this state will keep for years. When required for use, it should be
-sensitized by floating on, or immersing in, a bath of
-
- Bichromate of Potash              1 ounce.
- Chloride of Sodium              1/2 ounce.
- Ferridcyanide of Potassium      100 grains.
- Water                            30 ounces. |148|
-
-This need not be done in a dark-room, as the solution is not sensitive
-to light.
-
-The paper, after sensitizing, is dried in a temperature of 70°, and in
-a dark room. When dry, it is exposed under any half-tone negative, in
-the ordinary printing frame. It is preferable to print in sunlight,
-and, for negatives of medium density, an exposure of three minutes is
-required; but the exposure will vary according to the density of the
-negative. The correct time of exposure can best be judged by looking at
-the print in the frame. When the image appears on the transfer paper
-of a dark fawn color, on a yellow ground, the transfer is sufficiently
-printed. It is put into a bath of cold water for about ten minutes,
-until the soluble gelatine has taken up its full quantity of water;
-then taken out, placed upon a flat piece of stone, glass, or zinc
-plate, and the surface dried with blotting paper.
-
-The action of the light has been to render the parts to which it has
-penetrated through the negative partly insoluble, and at the same time
-granulated. A hard transfer ink is now used, composed of
-
- White Virgin Wax              1/2 ounce.
- Stearine                      1/2 ounce.
- Common Resin                  1/2 ounce.
-
-These are melted together in a crucible over a small gas-jet, and to
-them are added four ounces of chalk printing ink, and the mixture
-reduced to the consistency of cream with spirits of turpentine. A
-soft sponge is saturated with this mixture and rubbed gently over
-the exposed paper (in this stage the nature of the grain can be best
-seen). An ordinary letter-press roller, charged with a little ink from
-the inking slab, is then passed over the transfer, causing the ink to
-adhere firmly to the parts affected by the light, and removing it from
-the parts unacted upon. It will be found that with practice, rolling
-slowly and carefully as a letter-press printer would his form, the ink
-will be removed by the roller according to the action that has taken
-place by light, leaving the shadows fully charged with ink, and the
-high lights almost clear, the result being a grained transfer in greasy
-ink. The transfer is next put into a weak bath of tannin and bichromate
-of potash for a few minutes, and when taken out the surplus solution
-should be carefully dried off between clean sheets of blotting paper.
-The transfer is hung up to dry, and when thoroughly dry, the whole of
-the still sensitive surface should be exposed to light for about two
-minutes. A weak solution of oxalic acid should be used for damping the
-|149| transfer (about 1 in 100), and this should be applied to the
-back of the transfer with a soft sponge. After it has been damped about
-four times, it should be carefully put between clean sheets of blotting
-paper, and the surplus moisture removed. A cold polished stone is then
-set on the press, and when everything is ready the transfer is placed
-on the stone and pulled through twice. The stone or scraper is then
-reversed, and the transfer is again twice pulled through. A moderate
-pressure and a hard backing sheet should be used, care being taken not
-to increase the pressure after the first pull through. The transfer is
-taken from the stone without damping, when it will be found that the
-ink has left the paper clean. Gum up the stone in the usual way, but,
-if possible, let the transfer remain a few hours before rolling up. Do
-not wash it out with turpentine, and use middle varnish to thin down
-the ink.
-
-It should have been mentioned that varying degrees of fineness of grain
-can be given to the transfer by adding a little more ferridcyanide of
-potassium in the sensitizing solution, and drying the transfer paper
-at a higher temperature, or by heating the paper a little before
-exposure, or by adding a little hot water to the cold water bath, after
-the transfer has been fully exposed; the higher the temperature of the
-water, the coarser the grain will be. The finer grain is best suited to
-negatives from Nature, when a considerable amount of detail has to be
-shown.
-
-The coarse grain is best for subjects in monochrome, or large negatives
-from Nature, of architecture, etc., where the detail is not so small.
-Even from the finer grain, several hundred copies can be pulled, as
-many as 1200 having been pulled from a single transfer. It would have
-produced a great many more if required.
-
-
-
-
-|151|
-
-PART VI.
-
-COLLOGRAPHIC PRINTING.
-
-
-CHAPTER I.
-
-HALF-TONE PHOTOGRAPHIC NEGATIVES.
-
-In all the processes and methods treated of up to Part III., the
-photographic negative has been what may properly be termed, a black
-and white negative, the lines being rendered clear, and the portions
-representing the whites of the original being as near black as
-possible. The extremes of clearness and opacity in these negatives are
-obtained by having the nitrate of silver bath kept and worked in a
-very acid state; then the opacity is obtained by intensifying with a
-solution of mercury followed by ammonia.
-
-Now for the methods to be treated of in this part. An entirely
-different class of negative is required in which the half-tones
-are fully preserved, both in the shadows, and in the lights. These
-half-tone negatives may be made either by the wet collodion process,
-or upon ordinary gelatine dry plates. For producing them by the wet
-collodion process, directions are given on page 11.
-
-In the processes treated in Part II. the aim has been to get the
-photographic half-tone broken up in such a manner that the picture
-could be reproduced by the same means as an ordinary wood block, but
-in collographic printing the half-tones are not (visibly) broken up,
-the gelatine holding the ink in exact proportion to its exposure to
-light, thereby giving a print with the smooth gradations of an ordinary
-photograph.
-
-The collographic methods are called “heliotype” and collotype. They
-are analogous in principle, but differ in detail; the heliotype is
-printed from a film of gelatine, which, after being dried upon a plate
-of glass, is stripped off, exposed to light under a reversed negative,
-then mounted upon a plate of pewter to support it during the operation
-of printing from. The collotype printing surface is the film of
-gelatine upon the glass or metal plate upon which it was dried. Note
-also the different printing methods.
-
-
-|152|
-
-CHAPTER II.
-
-THE HELIOTYPE PROCESS.
-
-A heliotype print is made in an Albion or other type-printing press,
-from a film or skin of bichromated gelatine, which, having been dried
-upon a plate glass (finely ground and waxed), is stripped off, then
-exposed to light in an ordinary printing-frame, under a reversed
-negative, then removed from the frame, laid face down upon a piece of
-black velvet, and the back of the skin exposed to light for a short
-time. The skin is next mounted upon a pewter plate, coated with a thin
-film of India-rubber, and placed upon the bed of the press, where the
-skin is covered with water from a sponge, and is allowed to soak for
-twenty or thirty minutes. It is then inked up, first with one roller,
-and then with another of a slightly different composition; the margin
-of the skin is then covered with a mask, with a suitable opening cut in
-it, then the paper that is to receive the image is put into position
-upon the mask. The picture is then printed.
-
-The above is a rough outline of the process; now for the working
-details.
-
-First of all, it will be necessary to understand that the gelatine skin
-from which the picture is printed must be of such a size as to allow a
-margin outside the actual picture of at least two inches all around,
-so that the rollers used in inking up will not overlap the margin, and
-strip the skin away from the pewter plate upon which it is mounted.
-For pictures 10 by 12, and under, a convenient size for the heliotype
-skin will be 21 inches by 15 inches, so the present chapter will treat
-entirely of skins 22 by 16, and the sizes of rollers, etc., given, as
-well as formulas for quantities of gelatine, etc., will be those most
-suitable for that size of skin; so if larger skins are adopted, the
-quantities here given must be modified accordingly.
-
-The first consideration will be the apparatus and materials necessary.
-The first thing that commands attention is the press—an Albion or
-other typographic hand press—(the pressure necessary to print from a
-heliotype skin must be vertical, not scraping, therefore a lithographic
-press will not do). The press must have the bed fitted with several
-thicknesses of Kamptulican sufficient to _nearly_ bring a sheet of
-thick zinc type high—“nearly” is said, because |153| due allowance
-must be made for the pewter plate (one-eighth of an inch in thickness)
-upon which the heliotype skin is mounted. Inside the tympan place a
-piece of good blanket, and also provide a loose blanket to lay over the
-paper when placed in position for receiving the impression.
-
-The press must be fastened down to the floor, as plenty of pressure
-will be required in printing; a bench will be required close to the
-press, upon which either one large inking slab or two small ones can be
-placed, as well as the stock of printing papers, and a dish of water. A
-couple of good sponges are also required, as well as a supply of thick
-plate paper, to blot off the superfluous water.
-
-
-THE ROLLERS.
-
-The quality of the print from a heliotype skin depends greatly upon
-having good rollers at hand for inking the image; therefore, the
-preparation of the rollers (two) must be made with every care. Get the
-usual printing office pattern, with handles in the centre. The stocks
-of these rollers are to be coated with India-rubber sponge, upon which
-is cast a mixture of gelatine, etc.
-
-First of all, procure two 12-inch rollers with handles complete, and
-get the stocks coated with India-rubber sponge a quarter of an inch
-thick; then, with strong twine tie down about a quarter of an inch from
-each end, trimming off the edges outside the string, so as to make them
-nice and round; now place one of the stocks in position upon the base
-socket of a 15-inch seamless roller mould, then carefully smear the
-inside of the mould with a rag saturated with whale oil (taking care
-that the whole of the surface of the mould is smeared with the oil);
-now place the mould in position over the stock, put the loose socket in
-position at the top, when it is ready for receiving the composition for
-the inking roller, made as follows—
-
- Scotch Glue    1 pound.
- Gelatine       1 pound.
-
-Soak all night in sufficient cold water to cover it. In the morning
-squeeze out the superfluous water, and in a suitable size glue kettle,
-“Baine Marie,” or a jar placed in a pan of water, melt over a fire or
-Bunsen burner, then add 1 pound of green treacle, mix, and add 2 ounces
-of castor oil, 1 ounce of glycerine; stir well until all are thoroughly
-mixed, then pour into a warm jug, and from the jug pour into the mould
-as gently as possible; when the mould is full, take a piece of wood,
-and tap the outside of the mould all round, from bottom to top. That
-will cause any air bubbles that may be imprisoned in the mixture to
-rise |154| to the surface; then, if the mixture in setting should
-shrink, pour in more until the mould is quite full.
-
-Now allow to stand for 12 or 18 hours, then remove the mould from the
-block, the socket from the top of the mould, then gently push the
-roller out. If due precautions have been taken, it ought to come out
-quite smooth. If it does not, the composition must be melted off in hot
-water, and the roller recast.
-
-Composition for the clearing roller—Scotch glue, 1 pound; gelatine, 2
-pounds; green treacle, 1/2 pound; castor oil, 2 ounces; glycerine, 1
-ounce.
-
-The glue and gelatine are soaked as before, then melted and mixed with
-the other ingredients. The stock (covered with India-rubber sponge) is
-placed inside the greased mould, and the roller cast exactly as before.
-
-The rollers being pushed out of the mould, trim the ends square with
-the ends of the stock, then dip the ends of each roller in hot water
-placed in a saucer to a depth of half an inch, until the composition is
-slightly softened. In this condition the sharp edges are rounded off
-with a damp cloth wound round the fingers.
-
-The object of thus rounding the edges is to prevent the roller marking
-the picture when rolling up the image.
-
-These rollers are not fit for use directly after casting, but should
-be placed on the handles, and washed with turpentine on a slab, then
-allowed to hang for two or three days, and occasionally washed over
-with a rag dipped in alcohol.
-
-When in use the inking roller should never be washed, but if the ink
-upon it requires cleaning off, it should be done by rolling it upon a
-clean piece of hard paper. When put away after a job, the roller should
-be coated with fatty ink. Clear it for work next time by rolling it on
-the paper.
-
-The clearing roller will require keeping free from a superfluity of ink
-by washing.
-
-Instead of making the roller composition, and casting rollers, some of
-the high class composition sold for type printing may be used, or the
-rollers may be obtained ready cast, which will, perhaps, be found far
-more economical in the long run.
-
-
-PREPARATION AND CARE OF THE ROLLERS.
-
-Leather rollers when new should first of all be warmed in front of a
-brisk fire, and when warm rubbed with a piece of Russian tallow until
-the leather will not absorb any more. Then allow the roller to stand
-twelve hours |155| and repeat the operation; then take some middle
-varnish, smear some of it along the roller, and on a clean slab roll
-vigorously, and repeat the operation two or three times, scrape the
-roller with the grain, then roll up in varnish, allow to stand all
-night, scrape again, roll up again next day, scrape, then roll up with
-collotype ink, scrape and roll up, repeating this until the roller
-takes the ink evenly. After each time of using, scrape the roller
-before putting away, and if, after using, the roller is likely to be
-some time before being wanted again, after scraping smear it with
-Russian tallow, and wrap it up in paper, scraping it before rolling it
-up in the ink again.
-
-Glue rollers should be hung up after use in a cold place, and before
-being put away should be coated with fatty ink, and just before using
-should be rolled clean upon a piece of rather fluffy paper; washing
-glue rollers in turpentine is not to be recommended, as it tends to
-harden them, and deprives them of their feeding quality. Glue rollers
-can be bought ready cast, and it is advisable to so buy them; any
-dealer in typographic material will supply them of a suitable quality,
-if the purpose for which they are required be stated at the time of
-ordering. The “durable” composition being very good for collographic
-printing, it may be purchased and used for the rollers, for printing
-from a heliotype skin, instead of the mixture given previously. For
-roller No. 2, add two ounces of gelatine previously soaked in cold
-water, and as much water squeezed out as is possible, then add this to
-the “durable” composition, and stir until the gelatine is melted and
-well incorporated with the composition.
-
-These rollers may be cast upon the bare stock, without the India-rubber
-sponge, if preferred, but the India-rubber sponge makes the roller much
-lighter for use, which is a great consideration when long numbers are
-printed straight away.
-
-These remarks are applicable to the rollers used in the work described
-in the previous chapters. Too much care cannot be given to the rollers.
-The skilled printer who has feeling for his work will soon learn to
-regard his rollers as the magic wands which produce his results. And
-well he may.
-
-The ink used for heliotype printing is the best chalk ink as purchased
-in tins, brought to working consistency by mixing with lard, the two
-ingredients being well mulled on the slab. Varnish must not be used,
-lard being the best. Cocoanut and olive oil are also good. |156|
-
-
-HELIOTYPE SKIN
-
-is composed of a mixture of gelatine, glycerine, chrome alum,
-bichromate of potash, and water, dried upon a slab of thick plate
-glass. The surface of the plate glass must be very finely ground with
-emery powder (great care being taken that there are no scratches or
-holes, or they will spoil the skin), then thoroughly cleaned, and waxed
-with a solution of beeswax in benzole, a good plan being to first
-of all smear the glass with the wax, and then polish as much off as
-possible with an old linen duster (clean), then sprinkle with clean
-benzole, and with a fresh duster polish the plate thoroughly, noting
-well that wax marks will spoil the skin.
-
-This waxing need not be done every time a skin is made, but at
-intervals of every three or four skins.
-
-The waxed glass requires levelling, so that the gelatinous mixture
-will set of an even thickness; therefore, a levelling stand must be
-provided, as well as a good and true spirit level.
-
-The gelatinous mixture is dried in an oven (see Drying Oven in chapter
-on Collotype), at a temperature not exceeding 80° F., the time occupied
-being from thirty to forty hours.
-
-
-THE PEWTER PLATE.
-
-The skin after exposure to light under the negative, etc., is mounted
-by means of a squeegee upon a plate of pewter 21 by 15 by 1/8 of an
-inch in thickness, and well polished. This plate is cleaned with
-benzole and coated with a solution of India-rubber in benzole (well
-filtered) and dried.
-
-
-THE MASK.
-
-To prevent the margin of paper upon which the ink picture is printed,
-being dirtied, it is necessary, after rolling up, to lay a mask over
-the skin, this mask having an opening in the centre the size of the
-picture. Paper suitable for this purpose is made by coating bank-post
-paper with a mixture of one part of gold size, and two parts boiled
-oil; this mixture is laid on the paper evenly with a sponge, then hung
-on a line to dry; when dry it is ready for use.
-
-
-THE HELIOTYPE SKIN.
-
-To prepare a skin 22 by 16, weigh out two ounces of a good gelatine,
-and soak it in ten ounces of cold water until soft, then place it in
-the porcelain |157| vessel of a “Bain Marie,” the outer vessel being
-duly provided with the requisite quantity of cold water; now place it
-over the fire or Bunsen burner, and stir until the gelatine is just
-melted, then add two drachms of glycerine; stir well, so as to mix
-thoroughly, and raise the temperature to 125° F.; add two ounces of
-solution No. 1, and two drachms of solution No. 2; stir well, then
-remove from the fire or Bunsen, and strain through muslin into a jug or
-beaker; now tie over the jug or beaker a clean piece of muslin, when
-the mixture is ready for pouring upon the ground side of thick plate
-glass, waxed, properly levelled, and slightly warmed. Begin by pouring
-in the centre of the plate, and gradually enlarge the circle until all
-the gelatinous mixture is out of the jug or beaker, then with a strip
-of clean card coax the gelatine to the edges.
-
-Now examine the film for air bubbles, which, if present, must be
-removed, either by pricking with a quill toothpick, or by coaxing to
-the edge with a piece of card.
-
-As soon as the mixture has thoroughly set (which it soon does), remove
-it to the drying box.
-
-Of course, the requisite quantity of gelatine for more than one skin
-may be melted at once, but it will be better only to strain into
-the pourer, from the “Bain Marie,” sufficient for one plate at a
-time, remembering that the quantity now given is for one plate only;
-therefore, if two, three, four, or more plates are to be dried at once,
-the quantities given above must be increased accordingly.
-
-The stock solutions named above are compounded as follows:
-
-
-_No. 1._
-
- Bichromate of Potash    1 ounce.
- Water                  20 ounces.
-
-
-_No. 2._
-
- Chrome Alum             1 ounce.
- Water                  20 ounces.
-
-The temperature of the drying box must not exceed 80° F., and the time
-occupied will be from thirty to forty hours, during the whole of which
-time the temperature must be steadily maintained, but not exceeded.
-
-When the skin is dry, with the point of a penknife separate the edges
-from the glass, and then lift the skin away, when it is ready for
-exposure to light under the negative. If it is desired to keep the
-skins a few days before using, they may be stored between sheets of dry
-brown paper in a drawer, or in a tin tube. |158|
-
-It will be just as well to remark here that the dry heliotype skins
-are sensitive to light; therefore, the drying oven must be in a room
-illuminated by yellow light, or by artificial light, and the skins must
-not be exposed to daylight until they are in the printing frame.
-
-
-PRINTING THE PICTURE.
-
-The heliotype skin is now ready for exposure under the negative, which
-is done in a printing frame 24 by 18 inches, provided with a plate
-glass front.
-
-The negative must be reversed (_i. e._, instead of being taken direct
-in the usual way, a reversing mirror is used). The margin of the
-negative must be protected by a mask, with an opening cut the size and
-shape of the intended picture, the outside edges of the mask being
-sufficient to cover the rest of the skin.
-
-To print, the back of the negative is cleaned, then laid with the film
-uppermost, in the centre of the plate glass front of the printing
-frame; the mask is then laid in position, the opening in the centre
-being adjusted so that exactly the amount of picture required will
-be printed upon the skin. The rest of the skin is protected from the
-action of light by the opaque margin of the mask. Now lay the skin,
-with the matt surface (_i. e._, the side that was in contact with the
-ground side of the glass plate during the process of drying) next the
-film of the negative; upon this lay a piece of dry black velvet, then
-a sheet of thick felt, then the back of the printing frame, fasten up,
-turn it over and see that the front of the glass is clean; then the
-frame is ready for exposure to light.
-
-
-EXPOSURE TO LIGHT
-
-should be made in a good diffused light, and its duration timed by
-means of an actinometer (see page 107).
-
-As the time of exposure to light will vary according to the quality of
-the negative, no precise rule can be made, the best way being to get a
-small negative as near the same density as the other, cut off a piece
-of the skin, and placing it in a frame, expose to light at the same
-time as the big frame, and occasionally examine the progress of the
-small strip of skin in the dark room. A very good idea of the exposure
-of the big one can thus be had. A heliotype skin is properly printed as
-soon as the details in the half-tones show themselves. Of course, it
-should be understood that the small negative must be exposed to light
-at the same time and place as the big one. |159|
-
-
-SUNNING THE BACK OF THE SKIN.
-
-The exposure to light under the negative being completed, remove the
-skin from the printing frame, and lay it with the side that has just
-been in contact with the film of the negative, upon a piece of black
-velvet, covering the margin of the skin outside the picture with strips
-of brown paper—these strips not quite touching the picture; now cut
-off a strip of the skin, say a quarter inch wide by one inch long,
-and double it lengthways, then cut a hole in a piece of brown paper
-and place the doubled piece of skin under it. Now remove the skin to
-diffused light, and as soon as the shape of the hole can be seen upon
-the undermost half of the small strip, the sunning of the skin has gone
-far enough, and it is ready for mounting upon the pewter plate.
-
-The test here given for timing the sunning of the exposed skin is
-suitable, when a good ordinary negative has been used, but if a
-negative somewhat flat, or thin, has been used, then less sunning will
-be required, and if a very intense negative, the time of sunning must
-be increased, the object of the sunning being to reduce the relief
-caused by deep shadows.
-
-
-MOUNTING ON THE PEWTER PLATE.
-
-The pewter plate upon which the exposed and sunned heliotype skin is
-mounted for printing from, must be well polished, free from scratches
-or other marks, the size being 21 by 15 by 1/8 of an inch in thickness.
-This plate is polished with a soft duster, then coated with a solution
-of India-rubber in benzole (about the consistency of sweet oil), the
-solution being poured on, and flowed to the corners and edges; then the
-plate is placed upon a levelling stand, and the India-rubber allowed to
-dry.
-
-This India-rubber solution is made by dissolving India-rubber solution,
-as sold in tins at any India-rubber warehouse, in benzole or benzoline.
-
-When the solution is made it must be filtered through paper, or
-strained through five or six thicknesses of fine muslin, as the
-presence of any grit between the surface of the pewter and the skin
-would at once ruin the picture.
-
-The India-rubber film being dry, place the pewter plate in a tray of
-clean water, the water being about a quarter of an inch deep; now trim
-the skin with a sharp pair of scissors to a little smaller than the
-pewter (20-1/2 by 14-1/2), then lay the skin, face up, upon the surface
-of water, and at once lift the pewter plate from the water, keeping
-the skin in position by grasping the two top corners with the two
-forefingers. Now lay the pewter on the bench, and |160| with a nice,
-soft squeegee bring the skin into contact with the India-rubber film.
-This mounting must be done rapidly, as if the skin gets a chance of
-absorbing water it will frill, and be spoilt. The back merely requires
-moistening, and the squeegee, in expelling the water, brings it into
-contact with the India-rubber film. Now, with the squeegee, remove all
-the water from the plate, and then brush round the edges with some
-India-rubber solution, so as to reduce the chance of water, to be used
-subsequently, from getting under the skin.
-
-
-PRINTING FROM THE SKIN.
-
-Now place the pewter on the bed of the press, and with a clean sponge
-cover the picture with clean, cold water, in sufficient quantity to
-form a pool about one-eighth of an inch deep, care being taken that the
-water does not extend as far as the edges of the skin.
-
-The water is allowed to remain on the skin for five minutes; it is then
-soaked up, and a fresh supply added, and this operation is repeated
-at intervals for twenty or thirty minutes, the object being to partly
-remove the bichromate, and also to allow the gelatine that has not been
-rendered insoluble by the action of light, to absorb sufficient water
-to enable it to repel the ink from the roller.
-
-When it is judged that the image has been sufficiently soaked, with
-the sponge remove as much water as possible, then lay a clean sheet of
-paper upon the skin; upon the paper lay the loose blanket, lower the
-tympan, run the bed of the press under the platen, then pull over the
-lever, and subject to as much pressure as the press will give, allowing
-the pressure to “dwell” for a minute or two.
-
-This is to “smash” down the highest relief in the skin, which, unless
-so smashed down, would interfere with the roller feeding the ink in the
-deepest shadows.
-
-The skin is now ready for inking up with No. 1 roller, charged with
-the best litho. ink mixed with a little lard, just sufficient, and no
-more, to make the stiff ink distribute on the slab, the ink and the
-lard being thoroughly incorporated, either with a stiff palette knife
-or with a muller. The ink and lard being thus well mixed upon the slab,
-gather up the compound and place it in one corner of the slab.
-
-For No. 2 roller take a portion of the above mixture and add to it a
-little more lard, and mix well, then place this in one corner of the
-other inking slab.
-
-With the palette knife touch the roller No. 1 at short intervals with
-little dabs of the first ink, then roll it vigorously on the slab up
-and down, and then |161| across and sideways, until the ink is evenly
-distributed over the roller and the slab; now with the roller proceed
-to ink up the image. Use plenty of pressure, and turn the roller first
-one way, then the other, until the image shows itself vigorous and
-strong.
-
-Now take No. 2 roller charged (in the same way as No. 1) with No. 2 ink
-well distributed (but do not use quite so much as with No. 1), and with
-a light pressure go over the inked image; this inking will fill up the
-light half-tones and clean up the image generally.
-
-Before pulling an impression take a sheet of mask paper (which must be
-a little larger than the pewter plate), and in the centre cut a clean,
-sharp opening the size the picture must be. This mask, with the oiled
-side down, is adjusted in position on the skin; then turn back the edge
-furthest from the operator, and upon the extreme edge of the pewter
-place a few small dabs of stiff ink, return the margin of the mask over
-these dabs of ink, and rub down; these dabs of ink serve to keep the
-mask in position, when turned back for each inking up. If the margin of
-the mask paper projects over the pewter plate, and outside the bed of
-the press, it must be turned down, else it will tear when the bed of
-the press is run in.
-
-The mask being laid in position to protect the margin of the print,
-lay a piece of matt enamel paper on the inked up and masked image,
-back this first with a sheet or two of clean blotting paper, then with
-a loose blanket; lower the tympan, and run the bed of the press under
-the platen and pull over the lever. The pressure requisite to pull
-an impression from a heliotype skin requires the full strength of an
-ordinary man to pull over the lever.
-
-Now examine the print, and if it is flat and dirty, the skin has not
-been soaked sufficiently before inking up, so remove the ink left by
-the paper by washing it over with a rag soaked in turpentine, then wash
-with a wet sponge, blot off the surplus and with the sponge again put
-a pool of water over the image, and allow it to soak for about five
-minutes; again wipe it off with a sponge, smash down and ink up again.
-
-If the image is black and white without half-tones, the fault may lie
-in the negative, which perhaps is too hard; or if that is all right,
-then the skin has not been sufficiently exposed in the printing frame,
-in which case it may be at once thrown away, as no amount of coaxing
-will make it yield a good print. Or it may be that the skin is too
-damp, in which case rub it gently with the water sponge, on which a few
-drops of alcohol have been sprinkled; then blot off, ink up again, and
-pull another proof. |162|
-
-If the back of the skin is “sunned” too much, the print will suffer by
-being dirty and flat, and will require sponging over with a little of
-the ten per cent. mixture of ammonia in water; then blot off, and again
-ink up; take care and keep the ammonia sponges away from the other
-sponges.
-
-If the deep shadows show a white margin and are difficult to ink up,
-the skin has been exposed under the negative for too long a time; and
-if “smashing” down does not remedy the defect, the only chance of
-saving it will be to allow the skin to get thoroughly dry, and then
-(say the next day) to soak it up again for an hour.
-
-Spots on the margin of the print may be removed by carefully painting
-them over with a camel’s-hair brush charged with dilute cyanide of
-potassium, carefully washing afterward to prevent spreading.
-
-Each time the image is inked up, the mask must be laid back, so as not
-to interfere with the roller; then after inking up, it is again laid in
-position, so as to protect the margin of the paper upon which the print
-is made.
-
-It must be borne in mind that the first print from the skin will not
-be the best it is capable of giving, therefore, before any of the
-above-named dodges are resorted to, the image should be inked up and
-proofs pulled four or five times; as a generul rule perfection will not
-be attained until about ten or twelve prints are made, using each time
-a good paper, as a soft spongy one will not pick up the ink on the skin.
-
-Of course, a plain black ink will not suit every class of subject,
-therefore, when the operator requires a different tint or color, it
-must be made by a judicious blending of stiff ink of the proper colors
-mixed with lard as given above. When a distinct change of color is
-required, it is not a good plan to wash No. 1 roller, but have a
-separate No. 1 roller for each color. No. 2 roller may be washed for
-such a purpose.
-
-If it is desired to print two tints, the darkest tint is applied with
-the No. 1 roller, the lightest with the No. 2 roller.
-
-
-|163|
-
-CHAPTER III.
-
-THE COLLOTYPE PROCESS.
-
-This process, roughly described, consists in carefully grinding with
-fine emery, a plate of thick glass, then coating it with a mixture of
-white of egg, or of stale beer and silicate of soda. After the plate is
-dried it is rinsed in water, and dried again, then warmed, and coated
-with a thin film of bichromated gelatine. This coating is then dried
-in a suitable oven, after which the plate is exposed to light under a
-reversed negative, followed by a short exposure of the back of the film
-to light, then washed in cold water until the whole of the bichromate
-is removed from the film, when the plate is allowed to dry. It is next
-soaked in cold water, then in a mixture of glycerine and water, after
-which it is placed upon the press, and the printing proceeded with.
-
-As in lithographic printing, the size of the paper upon which the
-picture is printed determines the size of the stone upon which the
-transfer is made, so as to give a good margin, not only large enough
-to prevent the paper being marked by the edge of the stone, but also
-to allow plenty of room for working the roller; so in collographic
-printing, the glass plate upon which the picture is to be made must
-be sufficiently large to allow a margin of _at least_ four inches all
-round the outside of the picture. This is not only requisite for the
-reasons that hold good in litho. printing, but for the additional one
-of giving plenty of room for the manipulation of the mask used to
-protect the margin of the print.
-
-Collographic plates should also be sufficiently large to prevent their
-edges from cutting the composition rollers used for inking the image;
-for instance, a roller nine inches long should never be used upon a
-plate less than twelve inches wide.
-
-Collographic films are made upon good patent plate-glass half an inch
-thick, free from scratches, with the edges nicely bevelled to avoid
-cutting the rollers; this bevelling the plates is absolutely necessary
-for use upon the machine, but is not so important for the hand press.
-
-To prepare plates for use they are first ground with fine emery powder.
-To do this place one plate upon a smooth board or a couple of bearers
-across the sink, sprinkle with fine emery powder (sifted through book
-muslin), then with |164| water. Now, with another plate on the top,
-proceed to grind with a circular motion, continuing the grinding until
-the emery is worn smooth; then renew the supply of emery, sprinkle with
-water and again grind until the emery is smooth; now work well with
-water, squeegee dry, and examine the surface; if it is evenly ground
-the plates are ready for the next stage. If they are not ground all
-over, cover them again with emery and water, and continue to grind
-until the surfaces are of an even matt all over.
-
-The plates being ground, they are well rinsed under the tap, and both
-sides are well rubbed with a rag to free them from all particles of
-grit, etc., then flood them with a mixture of
-
- Liquor Ammonia      1 ounce.
- Alcohol             1 ounce.
- Water               5 ounces.
-
-rub this well in with a clean rag, and again well wash with clean
-water, then allow to drain and flood with
-
-
-THE PRELIMINARY COATING OF
-
- Stale Beer                         5 ounces.
- Water                              5 ounces.
- Silicate of Soda (Waterglass)      2 ounces.
-
-made up an hour or two before using, and filtered.
-
-The wet plate is covered with this two or three times, and then placed
-on a rack to dry. When all the plates in the batch are coated the rack
-should be removed to the drying oven and the plates dried _in sitû_,
-not lying down.
-
-Be as careful as possible to prevent any of the beer and silicate
-mixture from getting on the back of the plate, as it interferes with
-the running of the image afterward.
-
-Plates may be prepared with the preliminary coating in quantity, as the
-coating hardens and improves by being kept.
-
-When the coating on the plates is quite dry rinse them under the tap
-and again dry them, this time quite spontaneously. Lastly, they are
-placed upon the slab of the drying oven to get sufficiently warm before
-being coated with the sensitive mixture.
-
-The sensitive mixture must be made exactly as follows, as everything
-depends upon the time and temperatures named: First of all, take thirty
-ounces of pure water and add ten drops of a saturated solution of
-chrome alum; shake up well and allow to stand ten minutes; if the water
-is very slightly opalescent, it is |165| quite satisfactory, but if
-there is any tinge of green then too much chrome alum has been used,
-and it must be thrown away and another lot made.
-
-Then add two and one-half ounces of fine gelatine and allow it to
-soak until soft, then place it in the “Baine Maire” and melt the
-gelatine, stirring all the time. Raise the temperature to 125° F. and
-keep it thus for fifteen minutes; next add 150 grains of bichromate
-of potassium in fine powder, stirring until dissolved, and raise
-the temperature to 150° F. Strain the mixture through muslin into a
-porcelain jar and allow it to cool, keeping it in jelly at least twelve
-hours before using it.
-
-This sensitive mixture does not work well if used to coat plates
-with directly it is made; therefore, it must be made up some time in
-advance. It keeps well, in fact improves, with keeping, up to about
-seven days. In remelting for use, only melt just sufficient for the
-plates to be coated, as it does not improve it to melt it too often.
-
-Plates coated with the above mixture are dried at a temperature of from
-100° to 120° F. in from two hours to three hours, and have a splendid
-grain.
-
-Here is another formula the mixture from which does not keep, but
-must be made and used directly. It is the formula most frequently
-used by the writer. Plates prepared with it can be dried, at lower
-temperatures, in from twenty to fifty minutes. It is also the best
-formula when copper plates are used instead of glass, of which mention
-will be made at the end of the chapter.
-
-Soak two and one-half ounces of gelatine in fifteen ounces of water
-until quite soft, then place all in the “Baine Maire” and melt at as
-low a temperature as possible; when melted add 100 grains of bichromate
-of potash and 50 grains of bichromate of ammonia both in fine powder,
-stirring until dissolved; now put in the thermometer, and raise the
-temperature to 140° F. and keep it there for ten minutes; then allow
-to cool to 125° F. and add the following mixture, stirring vigorously
-the while: fifteen ounces of alcohol and five ounces of a saturated
-solution of borax in alcohol. Mix the two before pouring them into
-the hot gelatine. With some gelatines the addition of this mixture
-will cause a slight coagulation of the gelatine, and it will stick to
-the stirring rod; therefore, the solution must be stirred until the
-coagulated gelatine is redissolved; then strain it through muslin into
-the pourer and at once use it by pouring it over the warm plates.
-
-One of the best vessels to use as a pourer is an invalid’s cup with a
-spout at the side.
-
-The above quantity of mixture is sufficient for sixteen plates 16 ×
-13 inches; |166| therefore, if only four are to be coated, which is
-the quantity that the drying oven to be described will take, the above
-quantities must be divided by four.
-
-Now if the first formula be used, take sufficient of the jelly,
-melt it and strain it through muslin; then take one of the plates
-from the drying oven—which plate should be just warm enough to be
-comfortably held on the palm of the hand—carefully brush it over with
-a dusting-brush, so as to remove any particles of dust that may have
-adhered and balancing the plate on the palm of the hand, pour over it
-sufficient of the warm gelatine to just cover it. A 16 × 13 plate will
-take a little less than two ounces of the gelatine mixture. Take care
-not to spill any. Next place the plate upon the hot slab, and coat the
-rest in the same way. When all are done close the door of the oven and
-do not open it again until the plates are dry.
-
-With the second formula the _modus operandi_ is the same, except, of
-course, that instead of melting the already made jelly, the mixture
-made as above directed is used directly after mixing. The plates being
-dry they are ready for exposure, which need not necessarily take place
-at once, as if stored away in the dark and away from damp they will
-keep two or three weeks.
-
-The exposure to light is made in a box-pattern frame, the negative
-having a mask in front of it to protect the margin of the plate from
-the light.
-
-The negative used must be reversed—_i. e._, the image must be in its
-right position on the negative when viewed through the film, not as
-ordinary negatives are—through the glass; therefore, a mirror must be
-used in making the negative, or a skin negative may be used; or, if
-neither is practicable, the negative must be reproduced by one of the
-methods already given.
-
-The exposure to light in the printing frame will vary according to the
-density of the negative, and the strength of the light, and should be
-continued until the image can be seen well defined upon the gelatine
-film when examined in the dark-room, by opening one-half of the back of
-the frame.
-
-The exposure being complete, lay the printing frame face down upon a
-table in the light, remove the back and packing, and expose the back of
-the film to the light for a short time, without in any way disturbing
-the position of the collotype plate or the negative.
-
-This exposure of the back of the image to the light has a twofold
-advantage, one being that it helps to weld the sensitized gelatine film
-to the surface of the plate, and so enables it to stand the wear and
-tear of printing; the other, that it reduces the relief of the picture,
-and so gives the inking roller a better chance of feeding the deep
-shadows. |167|
-
-The duration of the exposure of the back of the film to the light will
-vary very much with the subject in hand; if it be one with slight
-contrasts, a much shorter time will be required than where the picture
-contains a lot of very heavy shadows.
-
-The next step will be to remove the plate from the printing frame, and
-immerse it in clean cold water for five or six hours, or for such a
-time as suffices to remove the whole of the bichromate from the film.
-The plate is then placed in the rack to dry spontaneously, and should
-be allowed to stand for at least twelve hours afterward before printing
-from, so as to give the film a proper chance to become thoroughly hard.
-
-We now have a collotype plate which has undergone the following
-operations, viz.:
-
-A plate of thick glass ground with fine emery until of an even matt
-surface. Then it is washed and coated with the preliminary coating of
-beer and silicate of soda and dried. Then rinsed in cold water and
-again dried. Next placed on the warm slab of the drying oven until just
-warm enough to hold on the palm of hand. Then coated with the sensitive
-mixture, either No. 1 or No. 2, and placed in the oven until dried.
-Then exposed to the light under a reversed negative in a printing frame
-until the details of the image are well out. Then the back of the plate
-is exposed to the light for a short time. Then it is placed in clean
-cold water until the bichromate is removed. At last the plate is dried,
-after which it is ready for the printer.
-
-[Illustration: Fig. 17.]
-
-Now, before proceeding further, it will be as well to touch upon
-various points of procedure, and also to describe what may be reckoned
-the most important piece of a collotype plant, viz., the drying oven.
-Figure 17 gives a drawing of the oven as it stands on the table for
-use, the |168| dimensions being from the top to the bottom of the
-frame 5 feet by 3 feet 4 inches wide by 3 feet deep. The top A, and
-the back, are covered with matched boards well seasoned; the sides
-and front, B, B, B, B, are made of frames 2 inches by 1 inch, covered
-with canvas sufficiently close to exclude light, but still open enough
-to let out the heat slowly. The door C is also a frame covered with
-canvas, 24 inches square, sliding upward in grooves, and balanced
-by means of weights. D is the jacket of iron upon which a copper
-tank rests, the jacket serving to carry the tank and to protect the
-wood-work from the gas flame used to warm the water in the tank. E is a
-sliding door in the jacket for the purpose of lighting the gas burner.
-F F are the projecting ends of a levelling arrangement forming the base
-of the oven, these ends being fitted with good, strong screws working
-upon iron plates let into the top of a strong table upon which the oven
-is placed. The distance between the two lower rails or styles is 6
-inches, which is also the height of the iron jacket. D G is a tube let
-into the jacket to carry off the products of combustion from the gas. H
-is a tube with a screw nozzle, for filling the tank.
-
-[Illustration: Fig. 18.]
-
-[Illustration: Fig. 19.]
-
-[Illustration: Fig. 20.]
-
-Figure 18 is the base of the oven, _A A A_ being the three points where
-the levelling screws are placed; this base is formed of good 4 by 3
-inch quartering, the other dimensions being as marked. This base stands
-on the table, the oven on the top, without any fastenings. |169|
-
-Figure 19, the jacket of sheet iron well wired, with a tube at one
-corner, for carrying off the products of the combustion of the gas, and
-a hole at the other corner to carry the projecting tube from the tank,
-by which it is filled.
-
-Figure 20, the copper tank, the outside dimensions of which are 37 by
-31 inches, the flange fitting on top of the jacket; the depth of the
-tank in the centre is 3 inches; the inlet pipe is 1 inch bore, and 6
-inches long, the bend being taken high enough to be about 2 inches
-above the top of the tank.
-
-The base is placed upon the table, then the iron jacket on the top of
-the base; then the copper tank is fitted into the top of the jacket;
-upon the top of the tank is placed a slab of marble or slate 37-1/2 by
-31-1/2 inches, cemented by means of plaster-of-Paris. The wooden top of
-the oven is fitted into position, the canvas being nailed on last. But,
-before doing this, it will be as well to fix the bearers as at C C C,
-Fig. 21, with corresponding ones on the other side, so that slats may
-be placed across for the purpose of holding heliotype plates, and for
-drying transfer paper, etc. The interstices between the edges of the
-slab and woodwork should be made good, either by means of wooden laths
-or cement.
-
-[Illustration: Fig. 21.]
-
-The oven being erected, the first thing to do will be to fill the
-copper tank with water; then level the slab by means of the screws, or
-if the bottom ends of the base are shod with sheet iron, wedges may be
-used to level with. The drying oven must be kept in a room at a uniform
-temperature of about 60° F.
-
-In using the oven after the plates are dry (after rinsing), place a
-piece of clean, dry, brown paper upon the slab, then place on this
-paper four plates 16 by 13 inches—which are the size and quantity for
-which the dimensions of the oven have been calculated; then place a
-thermometer between the plates, and close the oven. After the water has
-been brought to boil, the plates will be ready for coating; but, if the
-thermometer registers over 120°, turn off the gas, coat the plates,
-again close the door, and let the plates dry.
-
-One of the first things the student must do is to familiarize himself
-with the oven. Note the time taken to bring the water to boil; the
-temperature of the |170| slab, and the time taken for the temperature
-to fall after turning off the gas. A day spent at this will teach far
-more than it is possible to do by writing.
-
-Do not try to improve the oven by having the door to open any other way
-than by sliding. If made to open in or out, a draught of air is created
-which will cause mischief. Petroleum, instead of gas, may be used for
-heating the water.
-
-Instead of using glass plates for carrying the collotype film, copper
-or brass plates may be used. They should be grained with fine sifted
-graining sand and a stone muller, then washed with plenty of fresh
-water, and coated with
-
- Stale Beer                    5 ounces.
- Water                         5 ounces.
- Silicate of Soda (syrup)      2 ounces.
- Tannin                        1 grain.
-
-Prepare the mixture three or four hours before using, and filter it
-carefully. The subsequent operations are the same as with glass, except
-that the sunning of the back of the film must be dispensed with, and
-the second formula for the bichromated gelatine mixture must be used,
-as the first one gives too high a relief for copper.
-
-Plates that have been used are cleaned again for further trial, by
-immersing them in a pickle of American potash or concentrated lye, then
-well washing, regrinding, washing, and finally coating with the beer
-and water-glass substratum, exactly as before mentioned.
-
-
-|171|
-
-CHAPTER IV.
-
-PRINTING FROM THE COLLOTYPE PLATE.
-
-Collotype plates are usually printed from, upon a typographic press,
-but the best press is one with a cylinder, like the lithographic
-machines. Such presses give a more even pressure, and at the same time
-will enable more impressions to be made in a given time.
-
-In the chapter on heliotype printing, a description is given for
-preparing the tympan for printing from the heliotype skin, and that
-description holds good for collotype plates; but we shall require a
-slate slab, the full size of the bed of the press, and a little under
-half an inch in thickness, upon which to fix the collotype plate by
-means of plaster of Paris.
-
-The press being ready, take the dried plate, and soak it for half an
-hour in clean cold water. After that wipe it with a clean soft rag, and
-scrape any gelatine from the back that may have found its way there;
-spread as evenly as possible some fine plaster of Paris over the slate
-slab on the bed of the press, then damp with sufficient water to make
-the plaster the consistency of cream, and lay the damp collotype plate
-in the centre, and press it well down, working it a little so as to
-get it level and well bedded in; allow the plaster to form a ridge all
-round the edges outside the plate, levelling these ridges by running
-the finger over the moist plaster, so that they do not project above
-the face of the plate. Now cover the collotype plate with a mixture of
-
- Glycerine       5 ounces.
- Water          10 ounces.
- Ox-gall         a little.
-
-Allow this fifteen minutes to permeate the film, taking care that it
-covers the whole of the surface evenly.
-
-Whilst the plate is thus soaking up, get the inking slab clean, and the
-two rollers ready, viz.: An ordinary lithographic roller, for inking up
-the heavier portion of the image, and a composition roller for inking
-the half-tones and clearing the image; then mix the ink to the desired
-shade by taking some stiff ink from the tin, and mixing to the proper
-consistency with a little olive oil. The ink must not be made thin, but
-just sufficiently softened to work up with |172| the palette knife.
-The ink used must be very finely ground by machinery with a minimum of
-olive oil. This, in hand grinding, is difficult to do, and the presence
-of too much varnish in the ink is prejudicial to the production of
-bright collotype prints.
-
-The ink being mixed, a little is taken up on the point of a palette
-knife and smeared along the face of the leather roller and then
-worked vigorously upon the inking slab, until the ink is thoroughly
-distributed upon both roller and slab. Do not attempt to thin the
-ink so as to lessen the labor of distributing the ink, as that will
-only render the collotype print flat and weak. The ink must be stiff
-and spare. Now remove the soaking fluid with a very soft sponge, and
-blot off with fine plate paper, then proceed to roll up with the
-leather roller, until the image just shows nicely on the plate. Do not
-attempt to get it to take sufficient ink to look black. Next take the
-composition roller, and a little ink thinned with lard to about half
-the consistency of that used with the leather roller, and touch it
-here and there with the palette knife holding this thinner ink, and
-roll up on another slab until the ink on the slab and roller are quite
-even; now apply the composition roller to the image inked up by the
-leather roller, and roll with a light pressure and quick motion. This
-will complete the inking up of the image. Now take a piece of the mask
-paper mentioned for heliotype printing, and having cut out a suitable
-aperture, place it in position upon the plate, then put a piece of
-paper in position upon the mask; upon this paper fix a large sheet of
-smooth waste paper, then loose the blanket, lower the tympan, run the
-bed of the press under the platen, and after adjusting the pressure,
-pull over the lever, run out the bed, and examine the proof. From that
-deduce whether the ink is too thin, or too thick, or not enough, or too
-much. Damp with a sponge dipped in water, then blot off or remove the
-surface water with a damp soft rag, then ink up again, and repeat until
-a suitable print is the result.
-
-Some collotype blocks require the ink far thinner than others,
-therefore it will be the aim of the printer to try various degrees of
-ink with each plate until the best result is attained. The best prints
-are got, as a rule, from a roller that seems to have very little ink
-upon it, but the ink thoroughly well distributed over both slab and
-roller.
-
-To print from a collotype plate it is necessary that those portions
-of the film which have not been exposed to the light—and from them in
-proportion as the gradation of tone progresses to the shadows—must be
-charged with moisture to enable them to resist the greasy ink; if plain
-water be used for this it would |173| be troublesome to get sufficient
-in the film to resist the ink, and at the same time enable the roller
-to feed the image without slipping. Therefore glycerine is used, mixed
-with water, and with various hygroscopic substances, to which the term
-“etching fluids” has been given. This term is a misnomer, and quite out
-of place, “damping fluids” being the best.
-
-In addition to the damping fluid previously given, a few others are
-here appended, each having their advantages under certain conditions:
-
- Glycerine alone or with water.
-
-or,
-
- Glycerine                5 ounces.
- Water                    5 ounces.
- Hyposulphite of Soda   1/2 drachm.
-
-or,
-
- Glycerine                5 ounces.
- Water                    5 ounces.
- Nitrate of Potash        1 drachm.
-
-or,
-
- Glycerine                5 ounces.
- Water                    5 ounces.
- Ammonia                 10 drops.
-
-or,
-
- Glycerine                5 ounces.
- Water                    5 ounces.
- Common Salt             30 grains.
-
-or,
-
- Glycerine                5 ounces.
- Water                    5 ounces.
- Chloride of Lime         1 drachm.
-
-The last one must only be used when it is desired to take away a
-tint, and if used too often, will be very likely to destroy the image
-altogether.
-
-During the printing from a collotype block, the number of impressions
-that may be pulled without redamping, will vary very much with each
-block. Sometimes as many as eight or ten may be pulled, but the average
-will not exceed two. As soon as there is a tendency to flatness, take
-a sponge containing a little of the damping fluid, and go over the
-film with it, then wipe it off |174| with another sponge, or a piece
-of damp cloth (soft), then blot it off with a piece of good blotting
-paper, and ink up again. In fact, as a rule, it is best to damp for
-each print.
-
-Good printing paper must be used for collotype prints, and for very
-fine work a fine neat enamel paper will be best. Coarse hand-made
-papers, however much admired, must soon break up the delicate image.
-
-[Illustration: Fig. 22.]
-
-I will describe another drying oven, the heating arrangement of which
-is the same as the other, but the superstructure is much smaller. It
-will require more care during the time the coated plates are drying
-to keep the temperature down, but it has the advantage of allowing a
-thermometer being inserted in the lid in such a manner as to allow
-the temperature of the interior being seen at a glance. Still another
-advantage is, it takes up much less room. It measures inside 18 inches
-wide by 32 inches long, and 9 inches deep to the top of the slab. The
-thickness of the slate slab and of the copper tank should be the same
-as in the larger oven; the lid at the top should be made solid and have
-an orifice in the centre through which the thermometer is pushed. The
-sides of the oven should be covered with one or two thicknesses of good
-red flannel.
-
-The only thing that calls for particular attention in these ovens is
-the copper tank, which should (especially the top) be made of good,
-stout sheet copper, otherwise the water on being heated has a tendency
-to make the copper bulge, and elevate the slab. By that means the care
-which should be taken in levelling the slab will be lost, as this
-elevation will put it all out. Before putting the superstructure in
-position, the slab must be cemented to the top of the copper tank by
-means of plaster-of-Paris; this is important, as a much more even heat
-is thus obtained.
-
-Now, whichever oven is decided upon, it must be erected in a room free
-from draught, where it can be kept at a temperature of 70° F., as the
-quality of the collotype plate is much influenced by the temperature of
-the room in which it is prepared. So, too, is the oven in which it is
-dried, especially if below 60°, for then it is very difficult to get
-good results, as the plate chills when taken from the oven, and the
-film is almost sure to prove rotten during the printing. |175|
-
-In the summer time, if the room gets too hot, the gelatine solution is
-apt to get frothy, and then dry hard and glossy, instead of with a nice
-half-mat surface. It is then best to prepare the plates only in the
-early morning.
-
-The temperature at which to dry the collotype plates will vary
-according to the subject to be printed upon them, as some subjects will
-require a finer grain than others. But a few intelligent experiments
-will soon enable the operator to judge of the temperature required;
-75° F. is the lowest, and 120° F. the highest temperature giving good,
-bright blacks.
-
-One of the great secrets in collotype is to give a double coating to
-the plate. I find it really a great advantage so to do. I found this
-out quite by accident. One day, when I went to use some plates, I
-found that they had not been properly levelled, and that the coating
-was thin at one end, and thick at the other. This happened to three
-out of a batch of four, the other one being all right; so, in a fit of
-laziness, or hurry, or something, I decided on recoating the three, and
-did so. When I came to print from the three twice coated and the one
-once coated, I was agreeably surprised at the difference; the pictures
-on those twice coated were much more vigorous. Since then I have tried
-the experiment exactly, and always get the same uniformly excellent
-results. The second coating is applied as soon as the first is dry;
-but this second coat cannot be applied so well if the plate be held on
-the hand, therefore a levelling stand should be used, and the gelatine
-poured on the centre and coated over the surface by means of a glass
-rod.
-
-The proper quantity of gelatine solution requisite for a plate 16 by 13
-inches is 2 ounces for each coat. Note well that all of it is left on
-the surface of the plate, not some on the table.
-
-When once the coated plates have been placed in the oven, and the
-lid is closed down, they must not be disturbed until they are dry;
-this will be in two or three hours, according to the thickness of the
-coating of gelatine. If removed before they are dry, there is danger of
-marking the film.
-
-After the second coating of gelatine is dried, the plate will be all
-the better if kept a few hours before being printed upon, care being
-taken to store it in the dark, or somewhere free from damp and gas
-fumes.
-
-By the bye, the oven must be placed in a room illuminated by yellow
-light—_i. e._, daylight filtered through yellow glass, cloth, or paper;
-or else the room must be lighted by gas or oil light.
-
-The negative to be printed from should have all the parts that are
-intended |176| to be quite white in the finished print, stopped out
-with India ink or Gihon’s opaque, and the limit of the picture should
-be masked by very thin tinfoil, cut quite straight and gummed upon the
-film side of the negative. The rest of the margin of the plate must be
-protected by a brown paper mask.
-
-The best printing frames for collotype printing are of the box (or
-“deep”) pattern, with plate glass fronts. They should be about two
-inches deep, and the bars behind quite plain—_i. e._, without either
-screws or springs. The back board should also be dispensed with, the
-pressure being got by means of wedges. The advantage of these frames is
-that the picture can be examined without undoing the back, and without
-risk of shifting the plates.
-
-After printing, the plate should be placed in a zinc vessel like
-a plate box fitted with a siphon, so that the water can be kept
-constantly changed, until the bichromate is removed; then the plate is
-drained, and, after being wiped with a soft cloth, is put away to dry.
-
-Now then, beginners, do not be in a hurry to try your first plate on
-the press directly it is free from the bichromate, as no plate will
-give a good result until it has been dried down. Before putting it on
-the press, soak it for half an hour in water, then half an hour in
-glycerine and water in equal parts, and, finally, wipe it, and proceed
-to ink up the press.
-
-The safest plan is the one mentioned, viz., bedding up slate with
-plaster-of-Paris. Another plan is to place on the iron bed of the press
-a piece of thin felt, then a slab of glass, upon which are placed two
-thicknesses of wet blotting-paper; upon these place the collotype plate
-(the back of which is free from any gelatine that may have run over
-after coating); then, if a chase be placed on the press, the plate may
-be blocked in position by means of a few pieces of furniture tightened
-by means of quoins.
-
-In the above only glass slabs are treated of; but brass plates, about
-one-eighth of an inch thick, will be found safer, and more economical
-than glass, and yield results just as good. They may be fixed upon a
-block of hard wood by means of a screw (countersunk) at each corner. If
-an ordinary type press is not at hand, brass plates may be printed from
-upon a litho. press.
-
-Whether the plate will require damping each time will depend greatly
-upon each individual plate and the subject. With some, damping must
-be done each time; with others, once only for four, six, up to a
-dozen pulls; but, of course, the temperature of the room in which the
-printing is conducted will be an important factor in determining this
-point. When the print is flat, and the whites degraded, then damp the
-plate before again inking up. |177|
-
-To insure even prints, care must be taken to keep the roller well
-charged with ink. Much more could be written on this subject, but
-practice will be the best guide.
-
-A word as to bedding the glass slab on. With a properly prepared
-leather litho. roller, charged with ink mixed with a little olive oil
-and varnish, brought to a working consistency with a muller on a smooth
-slab (be sure that the ink on the roller is evenly distributed), after
-wiping the plate carefully with a soft, damp cloth, proceed to ink up
-the image slowly and carefully; then, when all the ink possible has
-adhered to the image, take the glue roller and apply it three or four
-times, which will clear the image wonderfully. Now put the mask in
-position—either a cut-out, or four narrow strips of bank-post coated
-with gold size and oil, and then dried—then put a piece of mat enamel
-paper in position, then a piece of common printing paper on top, then a
-piece of blanket; lower the tympan, run in the bed, and press, and, if
-the pressure is not too much, the prints will be just as good; but, if
-too much pressure be used, the paper will be creased and spoiled, and
-the collotype image is in danger of being cut.
-
-
-|178|
-
-CHAPTER V.
-
-THE NEW HOME PRINTING PROCESS.
-
-There is a method of making reproductions from photographs without any
-photographing process further than that required to supply the print.
-Any good photograph with a matt surface may be traced over with the
-ink supplied for the purpose by the inventor of the process, or with
-the ordinary lithographic autographic ink, which comes in sticks like
-India-ink, and then the superfluous portions faded away (or not) as
-directed on a preceding page. From that or from a crayon sketch, music,
-a written letter, plans, or circulars, in fact, from anything written
-with the proper ink with a pen or printed, reproductions may be made.
-The principal appliances needed are the “Universal Copying Machine” and
-its accessories.
-
-[Illustration: Fig. 23.]
-
-Where the results desired need not be of as high a grade as those made
-by the Collotype processes, or where there is not time to make a zinc
-etching, this method will serve a good purpose and produce satisfactory
-results. The zinc plates used for etching will serve to hold the
-transfers. The methods for cleaning the plates, already given, will
-serve here also. The machine should be securely fastened to a table and
-_the bearings must be kept well oiled_.
-
-Write, draw, or trace the original with a steel pen and the ink, on
-well calendered paper, not too thick. For drawing, a fine pen is the
-best. Then lay it, written side up, in a shallow dish, cover the paper
-with the transfer solution, leave it from four to five minutes. If the
-writing is several days old, leave it longer—about ten minutes. Lay it
-between blotting paper and dry gently by rubbing with the hand or a
-cloth. Then lay it, written side down, upon the polished plate, pass
-it from four to six times under the iron roller, having first placed
-a pasteboard over it. To prevent slipping, it is well to cover the
-original with a sheet of blotting paper before putting the pasteboard
-|179| over it. If you are not sure your press is screwed up evenly,
-run the plate through two or three times, then turn it end for end and
-pass it through as many times the other way.
-
-[Illustration]
-
-Place upon the small distributing roller as much printer’s ink as will
-go upon the point of a knife, then holding the handle with the left
-hand, press it upon the inking roller, and turn the crank, moving
-the distributing roller from side to side, until the ink is evenly
-distributed.
-
-See that the rollers are an equal distance apart at each end, so as to
-print evenly. The original is now carefully removed.
-
-After washing the plate gently with a sponge and water and drying it,
-also gently, with a clean cloth, rub the whole printed or written side
-of the plate, by means of a cloth or sponge, with mixture No. 1, not
-pouring the mixture directly upon the writing, but upon an unprinted
-place upon the surface and rubbing over the whole plate. Wash off
-immediately with sponge and water, and dry gently; then pour about
-twenty drops of No. 2 upon the plate, not directly upon the print, and
-rub over the whole surface, so that there is a thin coating of it over
-the whole surface. This prevents the ink from sticking to the part of
-the plate not covered with writing or print. If there is too much, the
-paper of the copies will be yellow, and the negative may be injured.
-
-Now lay the plate upon the pasteboard and pass it under the inking
-roller (the pressure does not need to be strong); it falls before
-the iron roller; place a sheet of clean paper upon the negative, lay
-a pasteboard over it, and pass it under the roller. For the first
-impression it is well to pass it under several times, until the
-negative comes out clearly and distinctly. From time to time, after
-every ten or twelve impressions, apply No. 2; if the paper used for
-printing is very coarse or porous, it may be necessary to apply No. 2
-oftener.
-
-As soon as the impressions become faint, apply a little more ink in the
-manner described. After applying fresh ink, apply No. 2. Only when too
-much ink is put on or unevenly distributed, or when the plate is not
-covered with the thin coating of No. 2, or not properly cleaned, can
-the negative or plate become soiled. If this should happen from any of
-these causes, remove the spots carefully by means of a cloth wet with
-preparation No. 2.
-
-If the ink hardens on the rollers remove it with lye or washing soda.
-
-If you wish to interrupt the work, the plate must be washed with a wet
-sponge, to remove the preparation, and then dried with a cloth. On
-using again, apply No. 2, as before. If the plate has not been used for
-several days, apply both No. 1 and No. 2. Do not use woollen cloths.
-
-The mixtures No. 1 and No. 2 are supplied with the press. |180|
-
-Thus it will be seen that photographs may be reproduced by many
-processes and in quantities to accommodate all sorts of demands. As an
-averment of what the future holds, our book is brought to a close by
-the following quotation from a recent issue of a daily newspaper:
-
-“Some time ago the _Evening Post_ gave an account of a new process
-by which books were being reproduced in this country directly from
-photographic plates, and it was said that the field for such business
-would probably grow in proportion to the ease and certainty with which
-this kind of work could be done. Under this process the most important
-work issued so far has been seventeen volumes of the _Encyclopædia
-Britannica_, this production being sold at half the price asked for an
-American reprint already in the market, and at one-third of the price
-of the imported book. In order to make this reproduction, the sheets of
-the English volume are carefully photographed, and the glass negative
-placed over a thick sheet of specially prepared gelatine and exposed
-to the sun. Wherever the dark film upon the glass negative prevents
-the light from reaching the surface of the gelatine, this substance
-remains insoluble in water. Wherever the light penetrates, the gelatine
-undergoes a chemical change which makes it soluble. After an exposure
-to the sun or electric light for some minutes, the gelatine sheet is
-washed with water and the result is a plate in relief, every black
-line upon the glass negative being in high relief, and everything else
-washing away under the sponge.
-
-“Until the last few years, it had been very difficult to get this
-relief sufficient to print from, but by improvements in the process
-effected by a number of different inventors, this result has been
-obtained. The gelatine sheet having been hardened, an electrotype is
-made from it which is put into the printing press. Owing to chance, the
-gelatine sheet itself was used one day for printing from directly, and
-it was found that a larger number of good copies could be made from the
-gelatine direct than from the hardest electrotype. The only drawback
-to the use of the gelatine plate itself in the printing press is its
-liability to crack, for no reason that has as yet been discovered. If
-some way is found of making the gelatine plate durable, it would be
-used entirely in place of an electrotype, as it costs almost nothing
-and can be made quicker than an electrotype.”
-
-The way has been “found” and zinc etching is doing the work.
-
-Finally, the essays of John Burnet, “On the Education of the Eye,” “On
-Composition,” and “On Light and Shade,” copies of which are hard to get
-for $100, have recently been reproduced by one of the processes given
-in this book, full size, and is sold at $4.00. There is a great future
-ahead for all process work.
-
-
-
-
-|181|
-
-INDEX.
-
-
- Acid, lateral action of the, 80
-
- Acids, on the use of, 100
-
- Actinometer, to make an, 107
-
- Air brush, grain with the, 100
-
- Albumen, coating the zinc plate with sensitive, 41
- ― etching in half tone, 69
- ― printing on the zinc in, 45
-
- Albumenized zinc plate, inking the, 46
-
- Albumenizing the glass plate, 21
-
- Alcohol lamp, the, 98
-
- All sources, hints from, 94
-
- Apparatus etching, 97
- ― for printing upon zinc, 39
-
- Appliances for making negatives, 9
-
- As to the drawing, 94
-
- Austrian method, etching on, 84
- ― middle etching, 87
-
- Bath, the nitrate of silver, 12, 16, 27
-
- Beer, preliminary coating of, 164, 170
-
- Bitumen, printing on zinc in, 48
- ― etching in half tone, 70
- ― image on zinc, developing the, 50
- ― solution, to make the, 48
-
- Black process, Colas’s, 109
-
- Blackening in with a sponge, 78
-
- Block, printing from the half tone, 72
-
- Board, the developing, 141
-
- Box, the best drying, 99
-
- Bridge, the calibre, 93
-
- Calibre-bridge, the, 93
-
- Camera, the enlarging, 67
-
- Carbon printing, 106
- ― tissue for reproductions, 32
-
- Chiseling illustrated, 90
-
- Clean etching, 91
-
- Clearing solution, the, 18
- ― the glass, 21
-
- Coating the zinc plate with sensitive albumen, 41
-
- Colas’s black process, 109
-
- Collodion process, the wet, 11
- ― film, protecting the, 20
- ― ― stripping, 34
-
- Collotype process, the, 163
- ― ― sensitizing solution for, 164
- ― film, exposure at the back of the, 166
- ― ― exposure of the, 165
- ― operations, the, 167
- ― plate, printing from the, 171
- ― ― the finished, 67
- ― process, drying oven for the, 167, 174
-
- Copper, mordants for, 112
- ― photo-engraving on, 119
- ― ― in line, 119
- ― relief, mordants for, 113
- ― solution, etching with sulphate of, 103
-
- Damping fluids for collotype printing, 173
-
- Dark-room, the, 25
-
- Deep etching, 89
-
- Developer for wet plates, 24
- ― for gelatine dry plates, 30
-
- Developing the albumen image on the zinc plate, 42
- ― the bitumen image on the zinc plate, 50
- ― the paper transfer, 138
-
- Developing-board, the, 141
-
- Difference in processes, the, 117
-
- Direct transfers to zinc, 51
-
- Drawing, transfer of the, 83
- ― as to the, 94
- ― treatment of the, 73
-
- Drawings, Colas’s process for reproducing, 109
- ― for photo-engraving, 51, 73
- ― the reversal of, 96
-
- Dry plates in photo-engraving, 29
-
- Drying-box, the best, 99
-
- Drying oven for the collotype process, 167, 174
- ― the zinc plate, 42
-
- Dusting-box, the, 124
-
- Dusting sieve, 98
- ― the transfers, 54
-
- Electrotype methods for half-tone intaglios, 127
-
- Engraving, photo-, in half tone, 63
-
- Enlarging camera, the, 68
-
- Etching apparatus, 97
- ― clean, 91
- ― cleaning the, with a scraper, 88
- ― deep, 89
- ― ― illustrated, 90
- ― finishing and mounting the, 92
- ― fluids for collotype prints, 173
- ― galvanic process of, 101
- ― in half-tone (albumen), 69
- ― ― ― (bitumen), 70
- ― in relief, high, 104
- ― intermediate treatment, 79
- ― line transfers, 55
- ― manipulations of the process of, 93
- ― middle, Austrian method, 87
- ― ― and deep, illustrated, 88
- ― mordants for, 109
- ― ― for electric, 113
- ― ― for relief, 113
- ― ― for tint, 113
- ― ― for zinc, 115
- ― on copper, 121
- ― order of the manipulations, 86
- ― round, 88
- ― the Austrian method, 84
- ― ― illustrated, 88
- ― the first zinc, 57
- ― the French method of, 76, 80
- ― the second zinc, 58
- ― with sulphate of copper solution, 103
- ― zincographic, 115
-
- Exposed zinc, inking the, 44
-
- Exposure and timing, 43
- ― of the collotype film, 166
- ― ― ― ― ― at the back, 166
-
- Fading out the photograph, 96
-
- Faults in strengthening, 78
-
- Finishing and mounting the etching, 92
-
- Fixing, solution, the, 18
-
- Fluids, damping, for collotype printing, 173
- ― etching, for collotype printing, 173
-
- French method of etching, 76, 80
-
- Further treatment of the transfers, 16
-
- Galvanic process for etching, 102
-
- Gelatine dry plates in photo-engraving, 29
-
- Gillotage (Gillot’s process), 101
-
- Glass, albumenizing the, 22
- ― plate, the, 21
- ― silvering the, for mirrors, 36
-
- Grain on a negative, to produce, 100
-
- Grained negatives, making, 65
- ― ― transparencies for, 66
-
- Graining the zinc plate, 40
-
- Half-tone photo-engraving, 63
- ― ― etching in (albumen), 69
- ― ― ― ― (bitumen), 70
- ― ― block, printing from the, 72
- ― ― intaglios, 122, 124
- ― photo-lithography in, 143
-
- Heliotype process, the, 152
- ― skin, the, 160
- ― ― printing the, 158
- ― ― mounting on pewter, 159
-
- High etching in relief, 104
- ― ― dusting-box for, 124
- ― ― electrotype method for, 127
-
- Hints from all sources, 94
-
- Husband’s papyrotint process, 147
-
- Ink for transfers, hard, 55
-
- Inking the exposed zinc, 44
- ― transfers, 54
-
- Ink-photos, 144
-
- Intaglios, half-tone, 122, 124
- ― dusting-box for, 124
- ― electrotype methods for, 127
-
- Intensifier, the, 18
-
- Lamp, the alcohol, 99
-
- Lateral action of the acid, 80
-
- Line, photo-engraving in, 9
- ― ― on copper in, 119
- ― photo-lithography in, 128
-
- Line transfers, etching, 56
- ― ― ink for, 56
-
- Making grained negatives, 65
-
- Manipulations in etching, order of the, 86
-
- Manipulations of the etching process, 93
-
- Manipulations, photographic, 24
-
- Mask, the, 156
-
- Middle etching, Austrian method, 87
- ― ― French method, 80
-
- Mirror, the reversing, 10, 35
-
- Mordants for copper, 112
- ― for etching, 109
-
- Mounting and finishing the etching, 92
- ― the cliché, before, 79
- ― the zinc etching, 61
-
- Negative printing, 96
- ― ― to produce grain on a, 100
- ― transfer process, Toovey’s, 139
- ― washing, 19, 28
-
- Negatives, appliances for making, 9
- ― making grained, 65
- ― screen for grained, 65
- ― the reproduction of, 31
- ― transparencies for grained, 66
-
- Nitrate of silver bath, the, 12, 16
-
- Oven for the collotype process, drying, 167, 174
- ― using the, 168
-
- Paper transfers, 132, 136
- ― ― developing the, 138
- ― ― ― ― sensitizing solution for, 137
-
- Papyrotint process, Husband’s, 147
-
- Pewter plate, mounting on the, 159
- ― ― the, 156
-
- Photo-engraving, half tone, 63
-
- Photo-engraving in line, 9
-
- Photograph, fading out the, 96
-
- Photographic manipulations, 24
- ― negatives, appliances for making, 9
-
- Photo-inks, 144
-
- Photo-lithographic transfers, to develop, 140
-
- Photo-lithography in half-tone, 143
- ― in line, 129
-
- Plate, graining the zinc, 40
- ― the glass, 21
- ― the pewter, 156
-
- Polishing the zinc, 39
-
- Pomatum wax, how to make, 81
-
- Positives for negative reproduction, 31
-
- Preparation of the rollers, 154
-
- Preparing the printing press, 176
-
- Printing, carbon, 106
- ― collographic, 172
- ― ― damping fluids for, 173
- ― ― etching fluids for, 173
-
- Printing frame, the, 43
-
- Printing from the collotype plate, 171
- ― from the half-tone block, 72
- ― press, preparing etchings for, 102
- ― ― preparing the, 176
- ― process, the new home, 178
- ― the heliotype skin, 160
- ― upon zinc, apparatus for, 39
- ― ― ― in albumen, 45
- ― ― ― in bitumen, 48
-
- Processes, the difference in, 117
-
- Process, the collotype, 163
- ― the heliotype, 152
- ― the wet collodion, 11
-
- Protecting the collodion film, 20
-
- Relief, high etching in, 104
-
- Reproduction of drawings, Colas’s process, 109
-
- Reproduction of negatives, the, 31
- ― with carbon positive, 32
-
- Retrospective, half-tone photo-engraving, 63
-
- Reversal of the drawings, 96
-
- Reversing mirror, the, 10, 35
-
- Rollers, the, 153
- ― preparation of the, 154
-
- Room, the dark-, 25
-
- Round etching, 90
-
- Running of a workshop, 104
-
- Screen for grained negatives, the, 65
-
- Sensitometer, to make a, 107
-
- Sensitizing solution, a good, 105
-
- Sensitizing solution for paper transfers, 132
- ― ― for the collotype process, 165
-
- Sieve, dusting, 98
-
- Silver bath, the nitrate of, 12, 16
-
- Silvering the glass (for mirrors), 26
-
- Skin, the heliotype, 156
- ― mounting on pewter, 159
- ― printing from the heliotype, 160
- ― printing the heliotype, 158
-
- Solution, clearing the, 18
- ― developing the, 17
- ― fixing the, 18
- ― intensifying the, 18
-
- Sources, hints from all, 94
-
- Stereotyping, zinc etching by, 102
-
- Strengthening, faults in, 78
- ― French process, 82
-
- Stripping collodion films, 34
-
- Sulphate of copper solution, etching with, 103
-
- Table, the washing, 98
-
- Timing and exposure, 43
-
- Toovey’s negative transfer process, 139
-
- Transfer process, Toovey’s negative, 139
- ― and treatment of the drawing, 73
- ― of the drawing, 73, 83
- ― paper, 132, 136
-
- Transfers, developing the, 138
- ― dusting the, 54
- ― etching line, 55
- ― further treatment of the, 76
- ― ink for line, 56
- ― inking the, 54
- ― photo-litho, 140
- ― to develop, 140
-
- Transfers to zinc, direct, 51
-
- Transparencies for grained negatives, 66
-
- Transparencies, how to make, 30
-
- Transparent positive, making the, 120
- ― ― sensitizing the, 137
-
- Treatment before mounting, 78
-
- Washing, Austrian process for, 85
- ― French process for, 83
-
- Washing table, the, 98
- ― the negative, 19
-
- Wax pomatum, how to make, 81
-
- Whirler, the, 42
-
- Work-shop, running of the, 104
-
- Wrinkles and dodges, 105
-
- Zinc, apparatus for printing upon, 39
- ― ― direct transfers to, 51
- ― etching the first, 57
- ― ― by galvanic means, 102
- ― ― by stereotyping, 102
- ― ― mounting the, 61
- ― ― the second, 58
- ― ― the manipulations of, 93
- ― in albumen, printing on the, 45
- ― in bitumen, printing on the, 48
- ― inking the exposed, 44
- ― plate, developing the albumen image on the, 47
- ― ― ― the bitumen image on the, 50
- ― ― ― inking the, 54
- ― ― graining the, 40
- ― ― coating with sensitive albumen, 41
- ― ― drying the, 42
- ― ― whirling the, 42
- ― ― inking the albumenized, 46
- ― ― the, to coat with bitumen, 49
- ― polishing the, 39
- ― preparing on the press, 102
-
- Zincographic etching, 115
- ― printing press, the, 62
-
-
-
-
-ADVERTISEMENTS
-
-
-[Illustration: E. & H. T. ANTHONY & CO.
-
-No. 591 Broadway, New York.
-
-MANUFACTURERS AND IMPORTERS OF Photographic Instruments and Supplies
-
-SOLE PROPRIETORS OF THE SATCHEL DETECTIVE, SCHMID DETECTIVE, CLIMAX
-DETECTIVE, CAMERAS FAIRY, NOVEL, AND “THE PHANTOM CAMERA,” the Champion
-Light Weight of the World.
-
-USE ANTHONY’S CELEBRATED “E A” TRADE-MARK CHEMICALS. SUPPLIED BY ALL
-DEALERS.
-
-BROMIDE! BROMIDE! BROMIDE!
-
-ANTHONY’S Patent Reliable Bromide Paper FOR CONTACT PRINTING AND
-ENLARGEMENTS. Rapid for Artificial Light. Slow for Daylight.
-
-SEND FOR ILLUSTRATED CATALOGUE.]
-
-[Illustration: Fred’k W. Devoe. James F. Drummond. J. Seaver Page.
-
-F. W. Devoe & Co. Cor. Fulton and William Streets, New York.
-
-Manufacturers of ARTISTS’ MATERIALS, DRAWING INSTRUMENTS, FINE BRUSHES,
-READY MIXED PAINTS AND VARNISHES.
-
-Fine Dry Colors for Lithographers. White and Tinted Hand-made Papers,
-Ingres, Crayon and Torchon, Gelatine Paper, Magnifying and Diminishing
-Glasses, Grained Papers for Process Drawing, Crayons, India Ink,
-Roulettes, etc., “Imperishable” Paste for Mounting Photographs.
-
-SUPPLIES FOR OIL PAINTING, WATER COLOR PAINTING, SKETCHING, PORCELAIN
-AND CHINA PAINTING, PASTEL PAINTING, MINIATURE PAINTING, CRAYON AND
-LEAD PENCIL DRAWING, ETCHING, CHROMO PHOTOGRAPHY, TAPESTRY PAINTING,
-TEXTILE DESIGNING, MODELING IN WAX AND CLAY, LUSTRE PAINTING, PEN AND
-INK DRAWING, REPOUSSÉ WORK, FRESCO AND SCENE PAINTING, MAKING WAX
-FLOWERS AND FRUIT, ETC. ETC.
-
-COFFIN, DEVOE & CO., Chicago, Ill.
-
-F. W. DEVOE & CO., Fulton St. cor. William, New York.
-
-Catalogues of our various departments to dealers, on application.]
-
-[Illustration: THE Huber Rotary Zincographic Press.
-
-This press was designed and is now in successful operation for printing
-from zinc plates the kind of work hitherto produced from stone in the
-lithographic press; and by reason of its continuous rotation many more
-impressions per hour can be produced than by the stone method. Colors
-are printed by it in perfect register and with no loss of brilliancy or
-change of the color. The advantages of the use of zinc plates are fully
-set forth in our circular No. 1, “Zincography” which will be mailed to
-lithographers on receipt of their address.
-
-To purchasers of the zincographic press, we give full instructions in
-zincography, and the chemical nature of the various preparations, etc.,
-without extra charge.
-
-Harris & Jones, Sole Selling Agents, No. 31 Pearl Street, Providence,
-R. I.]
-
-[Illustration: A. M. Collins Mfg. Co. No. 527 Arch Street PHILADELPHIA.
-
-Makers of all kinds of Cards required by Photographers.]
-
-[Illustration: ALLEN BROTHERS, DETROIT, MICH., Are Sole Agents for this
-Continent, for The Best Lenses in the World As well as the Cheapest,
-THE SUTER LENS.
-
-Price Lists and Testimonials Sent on Application.
-
-A complete supply in stock of every requisite for PHOTOGRAPHY,
-PHOTO-ENGRAVING, PHOTO-ETCHING, and PHOTO-LITHOGRAPHY.]
-
-[Illustration: CARBUTT’S DRY PLATES FOR ALL KINDS OF Photo-Mechanical
-Reproduction.
-
-STRIPPING PLATES for Photo-Gelatine Printing, Sensitometer 22, kept in
-stock, and made to order more or less sensitive when desired.
-
-STRIPPING PLATES, giving great contrast, for the Zinc-Etching Process,
-Sensitometer 14 to 16.
-
-PROCESS PLATE B, 14 to 16, capable of giving clear glass lines and
-great density in ground, for Photo-Engravers.
-
-FOR COPYING COLORS
-
-CARBUTT’S ORTHOCHROMATIC PLATES will be found the greatest improvement
-in Dry Plate making. They are kept in stock of Normal Sensitometer 22,
-but made to order more or less sensitive as may be required. They are
-used extensively by F. E. Ives, Philadelphia, and the Photo-Gravure
-Co., New York.
-
-“If I may venture the prediction, I think the history of photography
-for the next decade will be the history of orthochromatic work. Surely
-next to the production of the colors themselves, there is nothing to be
-desired so much as the rendering of the true values of these colors. I
-place the orthochromatic negative as the highest point yet attained in
-negative making, and as constituting the outcome to-day of that germ
-which was brought into being nearly one hundred years ago.”—Extract
-from Ernest Edwards’ article on “The Art of Making Photo-Gravures.”
-
-“With reference to the Orthochromatic Plates. The Photo-Gravure Co.
-is greatly pleased with its success in the use of your plates of
-this description. They enable us to obtain results which otherwise
-would be impossible, and to do work that otherwise we should have
-to decline, placing a great power in the hands of an intelligent
-operator....”—Ernest Edwards, for Photo-Gravure Co., Brooklyn, February
-13, 1888.
-
-CARBUTT’S DRY PLATES can be obtained of all Dealers in Photo Materials,
-or direct from the KEYSTONE DRY PLATE WORKS, Wayne Junction, John
-Carbutt, Proprietor. PHILADELPHIA, PA.
-
-SEND FOR PRICE LIST]
-
-[Illustration: THE LATEST NOVELTY OUT.
-
-The New Magic Vignetter, (Illustration: Patented May 31st, 1887.) For
-producing the Popular Black Background or Ebony Photographs.
-
-Endorsed and in use by the Leading Photographers of the United States.
-
-No more trouble or expense than making plain photographs.
-
-It is easily attached to any camera by fastening it on the inside of
-the diaphragm of the box (as shown in the cut).
-
-The opening can be adjusted to the proper size by simply turning the
-thumb-screw. Focus and expose as usual. Every one guaranteed.
-
-PRICE, EACH, $8.00.
-
-For sale by all dealers in Photographic Goods.
-
-Sample photographs of work done with it furnished on application to
-
-H. A. HYATT, Sole Agent, Dealer in Photo Supplies of Every Description.
-N. E. Cor. Eighth and Locust Streets, ST. LOUIS, MO.]
-
-[Illustration: THE AIR BRUSH.
-
-(Illustration: Medals: American Institute 1884, Franklin Institute
-1885, Franklin Institute 1887.)
-
-The Brush applies dilute liquid pigment by a jet of air. To
-photographers producing large work, its use is especially recommended
-in place of crayon, and for water colors. With equal skill on the part
-of the artist, the work is accomplished with far more elegance, and
-with wonderful saving of time. The Brush will be sent upon trial.
-
-The Air Brush has been found one of the most useful helpers in Process
-Engraving that has ever been discovered. See instructions given in this
-book.
-
-For full description, terms, and any particulars desired, address, AIR
-BRUSH MANUFACTURING CO.
-
-69 Nassau Street, ROCKFORD, ILL.]
-
-[Illustration: VIOLET Lightning Flash Compound, (BRUTUM FULMEN.)
-
-Pictures Made in the Darkness.
-
-Do not waste DRY PLATES trying to make NEGATIVES AT NIGHT WITH CHEAP,
-FROUZY MIXTURES.
-
-Use the best. Sure Pop. No Animal Charcoal. No Chlorate of Potash. No
-Acid. VIOLET LIGHTNING FLASH, the most powerful light under the sun.
-
-Price, Per Bottle, 75 Cents.
-
-Write for particulars and catalogue of all Photographic Materials.
-BUCHANAN, BROMLEY & CO., Manufacturers, PHILADELPHIA.]
-
-[Illustration: THE GUNDLACH PHOTOGRAPHIC LENSES MANUFACTURED BY THE
-GUNDLACH OPTICAL CO., ROCHESTER, N. Y.
-
-ARE THE BEST IN THE WORLD FOR ALL KINDS OF Photo-Mechanical Work.
-
-Send for Descriptive Price List.
-
-For sale by dealers in Photo. Goods.]
-
-[Illustration: THE UNIVERSAL COPYING MACHINE
-
-COPIES PRINT, WRITING, TYPE-WRITING, WOOD-CUTS, LITHOGRAPHS, CRAYON
-DRAWINGS, PRINTED OR WRITTEN MUSIC, ETC.
-
-The original is written with our copying ink or with our ribbon, and
-then, by a simple and sure process, transferred to a plate, from which
-any number of copies can be taken. Print is transferred to the plate
-without spoiling the original, and then copied like writing.
-
-A great number of copies can be made from one original. As printer’s
-ink is used, all impressions are alike clear and legible, and can be of
-any color desired.
-
-The negitive can be kept for years, or it can be removed in a minute,
-and the plate used over and over again.
-
-This process has been awarded medals at recent exhibitions in different
-European cities, and is patented in Great Britain, Germany, France,
-Belgium and the United States.
-
-It is simple, cleanly, not liable to get out of order; can be used in
-any climate, and is not affected by the weather.
-
-Its importance to men of business, teachers in day and Sunday schools,
-photographers, musicians, and others, is obvious.
-
-The samples sent out are printed by ourselves, and on the Universal
-Copying Machine.
-
-Price of machine with outfit, plate 9 × 13-1/2 inches, legal-cap size,
-$20.00. Price, with process to copy print, etc., $5.00 extra. Ribbons
-for different type-writers, $1.00 each.
-
-Larger machines can be furnished, if desired; but this is a very
-convenient size.
-
-Samples of work sent free of charge.
-
-UNIVERSAL COPYING MACHINE CO., J. R. PALEN, Treasurer. No. 1343 Arch
-Street, Philadelphia.]
-
-[Illustration: THE FAVORITE Photo Supply House AT LOUISVILLE, KY. W. D.
-Gatchel, Agt.
-
-WE CARRY IN STOCK A VERY LARGE SUPPLY OF
-
-The Choicest Apparatus, Best Dry Plates, Pure Photo. Chemicals, Best
-Albumen Paper, Collins’ Card Stock, Picture Frames, and Mats.
-
-ALL OF WHICH ARE SOLD AT A REASONABLE PROFIT.
-
-Our trade is constantly growing, without noise or advertising. Our
-customers tell of their satisfaction to their friends, and that is how
-it is done. We have goods for all, and invite your orders.]
-
-[Illustration: Boston Photogravure Company.
-
-27 Boylston St. Boston.
-
-Gelatine Printing (Phototype), Photo-engraving, Photo-lithography,
-Photographing on Wood.
-
-Our Phototypes can be seen in the finest Art Books ever issued in this
-country.
-
-Whoever uses Photographs in quantity can save a large per cent. by our
-Gelatine Printing.
-
-Permanent ink in any color on any kind of paper.
-
-REPRESENTED IN NEW YORK BY Brandon Moses, 52 Beaver St.]
-
-[Illustration: WILSON-HOOD-CHEYNEY CO. LIMITED.
-
-JOHN G. HOOD, CHAIRMAN.
-
-WM. D. H. WILSON, TREASURER.
-
-JOS. P. CHEYNEY, SECRETARY.
-
-Sole U. S. Agts for the ROSS LENS
-
-Which has no equal for producing Negatives for Photo-Engraving,
-Etching, and Lithography.
-
-DEALERS IN PHOTO. SUPPLIES.
-
-No. 910 ARCH STREET, PHILADELPHIA.]
-
-[Illustration: A. WILD,
-
-GENERAL AGENT FOR Prof. J. Husniks PHOTO-LITHOGRAPHIC TRANSFER PAPER
-
-134 SENECA ST BUFFALO N-Y.
-
-Send for Estimates and further Information
-
-THE BEST PROCESS IN THE WORLD FOR REPRODUCTIONS OF ALL KINDS OF LINE
-DRAWING, STEEL PRINTS AND LITHOGRAPHS. FURNISHES TRANSFER PRINTS TO
-LITHOGRAPHERS OF ALL CLASSES OF LINE WORK, ALSO FROM WASH DRAWINGS AND
-PHOTOGRAPHS AT THE LOWEST PRICES.]
-
-[Illustration: FUCHS & LANG NEW YORK AND CHICAGO.
-
-MANUFACTURERS OF ALL MATERIALS FOR THE ZINC ETCHING PROCESS.
-
-PRACTICAL INSTRUCTOR OF Photo-Engraving and Zinc Etching PROCESSES.
-
-COMPRISING A FULL EXPLANATION OF DRAWING, PHOTOGRAPHY, WASH-OUT,
-SWELLED-GELATINE, AND ZINC-ETCHING PROCESSES.
-
-BY ALEX. F. W. LESLIE.
-
-PUBLISHED BY FUCHS & LANG, 29 Warren St., New York. 79 Dearborn St.,
-Chicago. Factory: 97–101 N. Third St., Brooklyn, E. D., N. Y.
-
-SECOND ENLARGED AND REVISED EDITION.
-
-PRICE, $1.00.]
-
-[Illustration: THE INLAND PRINTER IS THE UNIVERSALLY RECOGNIZED
-
-Leading Trade Journal in the Printing Industry.
-
-No. 183 MONROE STREET, CHICAGO.
-
-As an Advertising Medium to Reach the Trade it has no Equal. AS A
-TECHNICAL INSTRUCTIVE JOURNAL It is Indispensable alike to Employer and
-Employe.
-
-Containing each month from 30 to 40 pages of Reading Matter.
-
-Its Pages teem with Articles of Interest; It Advocates no Crotchets;
-Supports no Cliques; Is Fearless in Attacking Abuses, and Seeks the
-Greatest Good to the Greatest Number.
-
-Subscription, $2.00 per Year. Single Copy, 20 Cents.
-
-NO FREE SAMPLE COPIES SENT.
-
-To stimulate interest in the Best Printers’ Journal published, we make
-this offer: Any one sending us five yearly subscriptions, we will place
-his name on our subscription list for one year; to any one sending us
-ten yearly subscriptions, we will present a bound copy of either Vol.
-II., III., or IV., and pro rata.
-
-The Inland Printer Co., Publishers, Chicago.]
-
-[Illustration: The Photo-Gravure Company
-
-No 853 Broadway New York
-
-SOME OPINIONS OF THE PRESS.
-
-New York Evening Post.
-
-“As a work of pure illustration it is unique.
-
-“Unequalled by any similar collection produced on this side of the
-Atlantic. For the Photo-Gravures not even this qualification need be
-made.
-
-“Several of these are gems of their kind, and will surprise even
-photographers who are not fully conversant with the recent advance
-in that branch of engraving, in which the Photo Gravure Co. stands
-unsurpassed now, when it is a question of dealing with negatives from
-nature.”
-
-Philadelphia Sunday-School Times.
-
-“The pictures like those of The Art Review, are the work of the
-Photo-Gravure Company, which has here produced a distinctly American
-art work unexcelled in the present season.”
-
-New York Mail and Express.
-
-“Reproduced by the Photo-Gravure Company in a most admirable manner.
-They are not to be described, however, for there is a charm about them,
-interfused in their soft lights and tender shadows, which evades words.”
-
-Philadelphia Times.
-
-“One of unusual beauty.
-
-“The execution of nearly all of them is admirable.”
-
-The Nation.
-
-“Our publishers have hardly begun to realize the resources which
-this process offers for the decoration of books, with a very slight
-enhancement of the cost.”
-
-New York Independent.
-
-“These illustrations are reproduced in deliciously soft tones by the
-Photo-Gravure Company, of New York.”
-
-The Evening Transcript, Boston.
-
-“A volume of unusual beauty.
-
-“Most of the illustrations are perfect gems.”
-
-The Public Ledger, Philadelphia.
-
-“The result is an art production by chemical and mechanical processes,
-that is in its way comparable to the best work of the engraver
-or etcher. It is something far beyond the ordinary work of the
-photographer, and may be considered the highest development of his art.”
-
-The New York Commercial.
-
-“Admirably reproduced by Photo-Gravure.”
-
-The Commercial Gazette.
-
-“Here again, the advance of the American engraver’s art is strikingly
-apparent.”
-
-The Literary World.
-
-“We wish always to be sparing in the use of superlatives, and guarded
-in the use of strong language, and to preserve carefully what
-reputation we have for a conservative and temperate judgment; but
-restraint is hard to bear in speaking out our minds about the work
-which, at the present writing, lies open on the editorial table.
-
-“The Photo-Gravures introduced here and there by way of border
-decorations are exquisite, and the occasional vignettes dropped upon
-the corner of a larger plate introduce a charming irregularity and
-variety.”
-
-The Susquehanna Evening Transcript.
-
-“The illustrations are the finest we ever saw in a newspaper
-supplement.”
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-PHOTO-LITHOGRAPHIC AND PHOTO-MECHANICAL PRINTING OF EVERY DESCRIPTION.
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-Catalogues of our Publications on application. Estimates of work
-cheerfully furnished and correspondence solicited.
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-Portfolio of specimens, worth $10, containing examples of all our
-processes, forwarded on receipt of price, $1.00.]
-
-[Illustration: GET THE BEST PHOTOGRAPHIC BOOKS.
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-Photographics,” etc.
-
-$4.00. “The best in the English language.”—Photographic News. $4.00.
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-Chapter I. The History of Photography. II. The Theory of Photography.
-III. Light. IV. The Camera. V. About Lenses. VI. The Diaphragm, or
-Stop. VII. Glass-house Construction. VIII. Under the Skylight. IX. The
-Application of Art Principles. X. Outdoor Operations. XI. Exposure,
-or the Question of Time. XII. Concerning Chemicals. XIII. Dark-room
-Contrivances. XIV. Negative-making—“Wet.” XV. Negative-making—“Dry.”
-XVI. Negative-making—“Paper and Film.” XVII. Retouching and
-Doctoring the Negative. XVIII. Printing on Albumenized Paper. XIX.
-Printing—Drawbacks and Defects; Causes and Remedies. XX. Printing-room
-Particulars. XXI. Peculiar Printing Processess. XXII. Color-Sensitive
-Photography—Isochromatic—Orthochromatic. XXIII. Photo-engraving. XXIV.
-Lantern Slides and Transparencies.
-
-528 Pages—386 Illustrations. With a Complete, Classified Index.
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-Quarter Century is equivalent to several volumes in one. It contains
-the best practical points on photography that have been published
-during the past 25 years, by over 250 well-known workers and writers
-in our art, all arranged with great care—clipped of all superfluous
-matter—and condensed into a satisfactory, common-sense instruction
-book, the usefulness of which will never change or wear out.
-
-$4.00. Wilson’s Photographics. $4.00.
-
-By EDWARD L. WILSON,
-
-Editor of the “Philadelphia Photographer,” Author of “Wilson’s Quarter
-Century in Photography,” etc.
-
-Over 6000 copies sold. 1000 Testimonials. Every Artist needs it.
-Entirely different from Quarter Century.
-
-A. Treatment of the Subject. B and C. The Needful Apparatus. D. The
-Dark-room. E. Preparation of the Glass. F. Chemicals and Solutions.
-G. The Manipulations. H. Manipulatory Miseries. I. Retouching the
-Negative. J. The Glass Studio. K. Accessories and Light. L. Managing
-the Model. M. Printing on Albumen Paper. N. Printing on Plain Paper.
-O. General Remarks on Printing. P. Printing on Various Surfaces. Q.
-Printing Perplexities. R. Art in Printing. S. Mounting and Finishing.
-T. Photography Outside. U. Bromo-Gelatine Emulsion Work. V. Vogel’s
-Collodion Emulsion. W. Enlargements and Lantern Slides. X. Phototypes,
-Platinotypes, and Collodion Transfers. Y. Wastes and their Worth. Z.
-Metrical Measuring &. Concluding Confab—Appendix. A full, careful Index.
-
-110 Illustrations. 2 full-page plates.
-
-Burnet’s Art Essays.
-
-A curiosity, as well as a valuable work. Three in one: Essay on the
-Education of the Eye; Essay on Light and Shade; Essay on Composition.
-About 140 illustrations, all reproduced by the Heliotype process,
-taught in this book. $4.00. Originals are scarce at $100.00.
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-I also publish the oldest and best PHOTOGRAPHIC MAGAZINE twice a month.
-Every number accompanied by a full-page lovely photo study. Sample Copy
-Free. Every person, firm, and family interested in the beautiful should
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-Oregon. “Is the boon companion of the country photographer.”—H. A.
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-fraternity.”—C. P. McDannell, Pennsylvania. “Has come to me since 1864,
-and I will not do without it”—J. R. Schorb, South Carolina. “I have had
-it for nearly twenty years.”—C. E. Orr, Illinois. “Will continue to me
-as long as it is conducted in the present excellent manner.”—James S.
-Patterson, Tennessee.
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-with your own. Circular Souvenir Free.
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-
-[Illustration: A. WITTEMANN, Publisher and Printer for the Trade of
-Souvenir Albums
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-PHOTO VIEWS OF American Scenery, Cities, and Resorts.
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-Nos. 58 and 60 Reade Street, NEW YORK.
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-Correspondence with Photographers solicited.]
-
-[Illustration: THE ALBERTYPE CO. Nos. 58 and 60 Reade Street, NEW YORK.
-
-Photo-Mechanical Printing
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-ILLUSTRATIVE. DECORATIVE. COMMERCIAL.
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-REPRODUCTION OF
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-Scenery, Architecture, Interiors, Portraits, Works of Art, Designs,
-Engravings, Patterns, Machinery, Manufactures, and objects of all kinds.
-
-For Quickness, Accuracy, and Delicacy there is no superior to the
-Albertype Process.]
-
-
-
-
-TRANSCRIBER’S NOTE
-
-Original spelling and grammar are generally retained, with a few
-exceptions noted below. A few missing full stops were supplied
-silently. Original italics _looks like this_. The original page numbers
-are shown like this: |97|. The original pagination is screwy. The
-Introduction is on pp. xv–xvi, and then the next page is numbered
-9. There are no pp. 1–8. Illustrations have been moved from within
-paragraphs to between. Blank pages have been removed. Footnotes have
-been moved from within paragraphs to between paragraphs. Ditto marks
-have been removed, with text restructured as necessary to retain the
-original meaning. Similarly, large curly brackets—used to combine
-information on more than one line of text—have been removed. The
-original Index employed white space to indicate words or phrases to be
-regarded as repeated from the text line above. This edition employs
-instead the character U+2015 HORIZONTAL BAR ―, one for each word to be
-repeated.
-
-Page 36. The left double quotation mark has no mate, but is retained as
-printed.
-
-Page 73. The phrase “sheet of Bristol paper and are of pressing board”
-is retained as printed.
-
-Page 84. The second _at_ was removed from “strength of 2° Baumé at at a
-temperature”.
-
-Page 103. Changed _zince_ to _zinc_, in “take the zince plate”.
-
-Page 134. Changed “throughly melted” to “thoroughly melted”.
-
-Page 140. Changed “with a a glue roller” to “with a glue roller”.
-
-Page 141. Changed “difcult to handle” to “difficult to handle”.
-
-Page 182, entry _Exposure_. Changed “timeing” to “timing”. Likewise, on
-page 184, the entry _Timeing_ was changed to _Timing_.
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of Photo-engraving, Photo-etching and
-Photo-lithography in Line and Half, by W. T. Wilkinson
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-<pre>
-
-The Project Gutenberg EBook of Photo-engraving, Photo-etching and
-Photo-lithography in Line and Half, by W. T. Wilkinson
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-
-
-Title: Photo-engraving, Photo-etching and Photo-lithography in Line and Half-tone
-       Also Collotype and Heliotype
-
-Author: W. T. Wilkinson
-
-Editor: Edward L. Wilson
-
-Release Date: June 19, 2016 [EBook #52378]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK PHOTO-ENGRAVING ***
-
-
-
-
-Produced by Chris Curnow, RichardW, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-</pre>
-
-
-<div class="imctr01">
-<img id="coverpage" src="images/cover.jpg" width="600" height="800" alt="" />
-</div>
-
-<h1 class="thisbook">Photo-engraving,
-Photo-etching, and Photo-lithography in Line and
-Half-tone; Also Collotype and Heliotype; By W. T.
-Wilkinson, Revised and Enlarged by Edward L.
-Wilson.</h1>
-
-<div class="imgpage">
-<div class="imctr04">
-<img src="images/ifrontis1.jpg" width="396" height="697"
-alt="
- John C. Moss, Prest. R. B. Moss, Supt. M. A. Moss, Treasurer. J. E.
- Ramsey, Secretary. H. A. Jackson, Asst. Secy.
-
- Moss Engraving Co. 535 Pearl St., New York
-
- Illustrations of every Description, FOR BOOKS, NEWSPAPERS, CIRCULARS,
- &amp;c., &amp;c.
-
- Send green stamp for circular. Send photograph, drawing or print, for
- estimate.
-
- our Specialty. Fine Illustrated Circulars by our Moss-Type Process."
- /></div></div>
-
-<div class="imgpage">
-<div class="imctr02">
-<img src="images/ifrontis2.jpg" width="528" height="697"
-alt="" /><div class="caption">
- SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE
- MOSS ENGRAVING CO., 535 PEARL STREET, NEW YORK.</div></div></div>
-
-<div class="imgpage">
-<div class="imctr03">
-<img src="images/ifrontis3.jpg" width="454" height="700"
-alt="" /><div class="caption">
- SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE
- MOSS ENGRAVING CO., 535 PEARL STREET, NEW YORK.</div></div></div>
-
-<div class="imgpage">
-<div class="imctr02">
-<img src="images/ifrontis4.jpg" width="528" height="697"
-alt="" /><div class="caption">
- SPECIMEN OF “MOSS-TYPE” ENGRAVED BY THE
- MOSS ENGRAVING CO., 535 PEARL STREET, NEW YORK.</div></div></div>
-
-<div class="imgpage">
-<div class="imctr02">
-<img src="images/ifrontis5.jpg" width="528" height="694"
-alt="" /><div class="caption">
- <span class="figright fsize7">FROM A PHOTOGRAPH.<br />
- G. CRAMER, ST. LOUIS.</span>
- HALF-TONE ZINC ETCHING.
-<div class="fsize6">(MOSSTYPE.)</div>
-</div></div></div>
-
-<div class="front">
-<div class="fsize1 ltrspc-a">
-PHOTO-ENGRAVING,
-<div>PHOTO-ETCHING,</div>
-
-<div class="fsize8">AND</div>
-
-PHOTO-LITHOGRAPHY
-
-<div class="fsize7">IN LINE AND HALF-TONE;</div>
-
-<div class="fsize8">ALSO,</div>
-
-COLLOTYPE AND HELIOTYPE.
-</div>
-
-<div class="fsize1 ltrspc-a padtopb">
-<div class="fsize8">BY</div>
-W. T. WILKINSON,
-<div class="fsize8">OF LONDON.</div>
-</div>
-
-<div class="fsize4 ltrspc-a padtopb">
-<div class="fsize8">REVISED AND ENLARGED BY</div>
-EDWARD L. WILSON,
-<div class="fsize8">EDITOR OF “THE PHILADELPHIA
-PHOTOGRAPHER,” AUTHOR OF “WILSON’S PHOTOGRAPHICS,”
-“WILSON’S QUARTER CENTURY IN PHOTOGRAPHY,”
-“PHOTOGRAPHIC MOSAICS,” ETC.</div>
-</div>
-
-<div class="fsize6 padtopa">AMERICAN (THIRD) EDITION.</div>
-
-<div class="imctr11">
-<img src="images/i-iv.jpg" width="108" height="105" alt="" />
-</div><div class="caption"><i>The camera is mightier than the pen
-or the pencil.</i></div>
-
-<div class="fsize5 ltrspc-a padtopb">
-<div class="fsize7">NEW YORK:</div>
-PUBLISHED BY EDWARD L. WILSON,
-<div class="fsize7"><span class="smcap">N<span>O.</span></span> 853
-<span class="smcap">B<span>ROADWAY</span>.</span></div>
-<div class="fsize7">1888.</div></div>
-</div>
-
-<div class="front">
-<div class="fsize6">
-Entered according to Act of Congress in the year 1888, by
-
-<div class="fsize5">EDWARD L. WILSON,</div>
-
-In the office of the Librarian of Congress, at Washington, D. C.</div>
-
-<div class="imctr10">
-<img src="images/i-v.jpg" width="144" height="107" alt="" />
-</div></div>
-
-<div class="chapter" id="p-vii">
-<h2 class="nobreak" title="Preface.">PREFACE.</h2>
-</div>
-
-<p>The many kind letters I have received from America with regard to what
-must be called my first crude effort at bookmaking, prompted the idea—after
-issuing a second and revised edition in England—of making an attempt to
-cater for the inhabitants of Greater Britain, which, under the able editorship of
-<span class="smcap">M<span>R.</span></span>
-<span class="smcap">E<span>DWARD</span></span>
-L. <span class="smcap">W<span>ILSON</span></span> will,
-I have no doubt, meet with approbation and
-be useful. I have made many important additions to the last English edition.</p>
-
-<p class="psignature">W. T. WILKINSON.</p>
-
-<p class="fsize6">
-<span class="smcap">L<span>EICESTER,</span></span> <span class="smcap">E<span>NGLAND.</span></span></p>
-
-<p class="padtopa">Besides revising the English edition and incorporating in proper place such
-additions as I have found useful in practice, I have boiled down the best
-points from current publications in France and Germany, and added them.</p>
-
-<p>More still, with high regard for the author, I add chapters and parts from,
-the <i>Handbuch der Chemigraphie und Photochemigraphie</i>, by Mr. J. O. Mörch.
-Thus, I believe, this work is made complete to date. All the rest must come
-to the worker, from industrious, careful practice.</p>
-
-<div class="keeptogether">
-<p>Very rapid progress has been made in photo-reproductive processes during
-the past two years, and improvements are announced almost weekly. I invite
-all interested to keep me informed of what they discover. If I am supplied
-with the proper addresses I shall publish and distribute what I learn.</p>
-
-<p class="psignature">EDWARD L. WILSON.</p></div>
-
-<p class="fsize6"><span class="smcap">N<span>EW</span></span>
-<span class="smcap">Y<span>ORK</span></span>, May, 1888.</p>
-
-<ul class="chapter"><li>
-<h2 class="nobreak" title="List of Illustrations." id="p-ix">
-LIST OF ILLUSTRATIONS.</h2>
-<ul id="loidetail">
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;10</span>
- <p class="hanga">The Reversing Mirror <a class="lnoul"
- title="go to Fig. 1." href="#fig01">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;25</span>
- <p class="hanga">The Dark-room <a class="lnoul"
- title="go to Fig. 2." href="#fig02">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;37</span>
- <p class="hanga">The Plate-support <a class="lnoul"
- title="go to Fig. 3." href="#fig03">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;42</span>
- <p class="hanga">The Whirler <a class="lnoul"
- title="go to Fig. 4." href="#fig04">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;67</span>
- <p class="hanga">The Copying Camera <a class="lnoul"
- title="go to Fig. 5." href="#fig05">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;88</span>
- <p class="hanga">Example of Zinc Etching (low)
- <a class="lnoul"
- title="go to Fig. 6." href="#fig06">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;90</span>
- <p class="hanga">Example of Zinc Etching (high)
- <a class="lnoul"
- title="go to Fig. 7." href="#fig07">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;92</span>
- <p class="hanga">Example of Zinc Etching (round)
- <a class="lnoul"
- title="go to Fig. 8." href="#fig08">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;93</span>
- <p class="hanga">The Caliber-bridge
- <a class="lnoul"
- title="go to Fig. 9." href="#fig09">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;98</span>
- <p class="hanga">The Sieve <a class="lnoul"
- title="go to Fig. 10." href="#fig10">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;98</span>
- <p class="hanga">The Heating Lamp <a class="lnoul"
- title="go to Fig. 11." href="#fig11">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;98</span>
- <p class="hanga">The Washing Table <a class="lnoul"
- title="go to Fig. 12." href="#fig12">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;117</span>
- <p class="hanga">Example of Photo-engraving <a class="lnoul"
- title="go to Fig. 13." href="#fig13">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;118</span>
- <p class="hanga">Example of Half-tone Engraving <a class="lnoul"
- title="go to Fig. 14." href="#fig14">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;124</span>
- <p class="hanga">The Dusting-box <a class="lnoul"
- title="go to Fig. 15." href="#fig15">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;141</span>
- <p class="hanga">The Transfer-board <a class="lnoul"
- title="go to Fig. 16." href="#fig16">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;167</span>
- <p class="hanga">The Drying-oven <a class="lnoul"
- title="go to Fig. 17." href="#fig17">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;168</span>
- <p class="hanga">Support for the Drying-oven
- <a class="lnoul"
- title="go to Fig. 18." href="#fig18">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;168</span>
- <p class="hanga">Jacket for the Drying-oven
- <a class="lnoul"
- title="go to Fig. 19." href="#fig19">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;168</span>
- <p class="hanga">Copper Tank for the Drying-oven
- <a class="lnoul"
- title="go to Fig. 20." href="#fig20">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;169</span>
- <p class="hanga">Interior plan for the Drying-oven
- <a class="lnoul"
- title="go to Fig. 21." href="#fig21">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;174</span>
- <p class="hanga">A New Drying-oven <a class="lnoul"
- title="go to Fig. 22." href="#fig22">♦</a></p></li>
-
-<li><span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;178</span>
- <p class="hanga">The Universal Copying Machine
- <a class="lnoul"
- title="go to Fig. 23." href="#fig23">♦</a></p></li></ul>
-</li></ul>
-
-<ul class="chapter"><li>
-<h2 class="nobreak" title="Contents.">CONTENTS.</h2>
-<ul id="tocdetail">
-<li><span class="fsize5">PART I.</span> PHOTO-ENGRAVING IN LINE.
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p009">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;9</span>
-<span class="smcap">A<span>PPLIANCES</span></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">M<span>AKING</span></span>
-<span class="smcap">P<span>HOTOGRAPHIC</span></span>
-<span class="smcap">N<span>EGATIVES</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p011" title="go to p. 11">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;11</span>
-<span class="smcap">T<span>HE</span></span>
-<span class="smcap">W<span>ET</span></span>
-<span class="smcap">C<span>OLLODION</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p024" title="go to p. 24">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;24</span>
-<span class="smcap">P<span>HOTOGRAPHIC</span></span>
-<span class="smcap">M<span>ANIPULATIONS</span></span></span></li>
-
-<li>CHAPTER IV. <a class="lnoul" href="#p039" title="go to p. 39">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;39</span>
-<span class="smcap">A<span>PPARATUS</span></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smmaj">UPON</span>
-<span class="smcap">Z<span>INC</span></span></span></li>
-
-<li>CHAPTER V. <a class="lnoul" href="#p045" title="go to p. 45">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;45</span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smmaj">ON</span>
-<span class="smcap">Z<span>INC</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">A<span>LBUMEN</span></span></span></li>
-
-<li>CHAPTER VI. <a class="lnoul" href="#p048" title="go to p. 48">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;48</span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smmaj">ON</span>
-<span class="smcap">Z<span>INC</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">B<span>ITUMEN</span></span></span></li>
-
-<li>CHAPTER VII. <a class="lnoul" href="#p051" title="go to p. 51">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;51</span>
-<span class="smcap">D<span>IRECT</span></span>
-<span class="smcap">T<span>RANSFERS</span></span>
-<span class="smmaj">TO</span>
-<span class="smcap">Z<span>INC</span></span></span></li>
-
-<li>CHAPTER VIII. <a class="lnoul" href="#p055" title="go to p. 55">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;55</span>
-<span class="smcap">E<span>TCHING</span></span>
-<span class="smcap">L<span>INE</span></span>
-<span class="smcap">T<span>RANSFERS</span></span></span>
-</li></ul></li>
-
-<li><span class="fsize5">PART II.</span> PHOTO-ENGRAVING IN HALF-TONE.
-
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p063" title="go to p. 63">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;63</span>
-<span class="smcap">R<span>ETROSPECTIVE</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p065" title="go to p. 65">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;65</span>
-<span class="smcap">M<span>AKING</span></span>
-<span class="smcap">G<span>RAINED</span></span>
-<span class="smcap">N<span>EGATIVES</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p069" title="go to p. 69">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;69</span>
-<span class="smcap">E<span>TCHING</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">H<span>ALF-TONE</span></span></span></li>
-
-<li>CHAPTER IV. <a class="lnoul" href="#p072" title="go to p. 72">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;72</span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smmaj">FROM</span>
-<span class="smmaj">THE</span>
-<span class="smcap">B<span>LOCK</span></span></span></li>
-
-<li>CHAPTER V. <a class="lnoul" href="#p073" title="go to p. 73">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;73</span>
-<span class="smcap">T<span>HE</span></span>
-<span class="smcap">T<span>RANSFER</span></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smcap">D<span>RAWING,</span></span>
-<span class="smmaj">AND</span>
-<span class="smmaj">ITS</span>
-<span class="smcap">T<span>REATMENT</span></span>
-<span class="smmaj">BEFORE</span>
-<span class="smcap">E<span>TCHING</span></span></span></li>
-
-<li>CHAPTER VI. <a class="lnoul" href="#p094" title="go to p. 94">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;94</span>
-<span class="smcap">H<span>INTS</span></span>
-<span class="smmaj">FROM</span>
-<span class="smmaj">ALL</span>
-<span class="smcap">S<span>OURCES</span></span></span>
-</li></ul></li>
-
-<li><span class="fsize5">PART III.</span> PHOTO-ENGRAVING ON COPPER.
-
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p119" title="go to p. 119">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;119</span>
-<span class="smcap">S<span>UBJECTS</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">L<span>INE</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p122" title="go to p. 122">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;122</span>
-<span class="smcap">H<span>ALF-TONE</span></span>
-<span class="smcap">I<span>NTAGLIOS</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p124" title="go to p. 124">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;124</span>
-<span class="smcap">H<span>ALF-TONE</span></span>
-<span class="smcap">I<span>NTAGLIOS</span></span>—(<i>Continued</i>)</span></li>
-
-<li>CHAPTER IV. <a class="lnoul" href="#p127" title="go to p. 127">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;127</span>
-<span class="smcap">H<span>ALF-TONE</span></span>
-<span class="smcap">I<span>NTAGLIOS.</span></span>
-<span class="smcap">E<span>LECTROTYPING</span></span>
-<span class="smcap">M<span>ETHODS</span></span></span>
-</li></ul></li>
-
-<li><span class="fsize5">PART IV.</span> PHOTO-LITHOGRAPHY IN LINE.
-
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p129" title="go to p. 129">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;129</span>
-<span class="smcap">P<span>HOTO-LITHOGRAPHY</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">L<span>INE</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p132" title="go to p. 132">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;132</span>
-<span class="smcap">P<span>APER</span></span>
-<span class="smcap">T<span>RANSFERS</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p136" title="go to p. 136">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;136</span>
-<span class="smcap">P<span>APER</span></span>
-<span class="smcap">T<span>RANSFERS</span></span>—(<i>Continued</i>)</span></li>
-
-<li>CHAPTER IV. <a class="lnoul" href="#p139" title="go to p. 139">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;139</span>
-<span class="smcap">T<span>OOVEY’S</span></span>
-<span class="smcap">N<span>EGATIVE</span></span>
-<span class="smcap">T<span>RANSFER</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span></li>
-
-<li>CHAPTER V. <a class="lnoul" href="#p140" title="go to p. 140">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;140</span>
-<span class="smcap">P<span>HOTO-LITHO.</span></span>
-<span class="smcap">T<span>RANSFERS</span></span></span>
-</li></ul></li>
-
-<li><span class="fsize5">PART V.</span> PHOTO-LITHOGRAPHY IN HALF-TONE.
-
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p143" title="go to p. 143">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;143</span>
-<span class="smcap">P<span>HOTO-LITHOGRAPHY</span></span>
-<span class="smmaj">IN</span>
-<span class="smcap">H<span>ALF-TONE</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p144" title="go to p. 144">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;144</span>
-<span class="smcap">I<span>NK</span></span>
-<span class="smcap">P<span>HOTOS</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p147" title="go to p. 147">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;147</span>
-<span class="smcap">H<span>USBAND’S</span></span>
-<span class="smcap">P<span>APYROTINT</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span>
-</li></ul></li>
-
-<li><span class="fsize5">PART VI.</span> COLLOGRAPHIC PRINTING.
-<ul>
-<li>CHAPTER I. <a class="lnoul" href="#p151" title="go to p. 151">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;151</span>
-<span class="smcap">H<span>ALF-TONE</span></span>
-<span class="smcap">P<span>HOTOGRAPHIC</span></span>
-<span class="smcap">N<span>EGATIVES</span></span></span></li>
-
-<li>CHAPTER II. <a class="lnoul" href="#p152" title="go to p. 152">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;152</span>
-<span class="smcap">T<span>HE</span></span>
-<span class="smcap">H<span>ELIOTYPE</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span></li>
-
-<li>CHAPTER III. <a class="lnoul" href="#p163" title="go to p. 163">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;163</span>
-<span class="smcap">T<span>HE</span></span>
-<span class="smcap">C<span>OLLOTYPE</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span></li>
-
-<li>CHAPTER IV. <a class="lnoul" href="#p171" title="go to p. 171">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;171</span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smmaj">FROM</span>
-<span class="smmaj">THE</span>
-<span class="smcap">C<span>OLLOTYPE</span></span>
-<span class="smcap">P<span>LATE</span></span></span></li>
-
-<li>CHAPTER V. <a class="lnoul" href="#p178" title="go to p. 178">♦</a>
-<span class="blkin1">
-<span class="pnright">&nbsp;.&nbsp;.&nbsp;.&nbsp;178</span>
-<span class="smcap">T<span>HE</span></span>
-<span class="smcap">N<span>EW</span></span>
-<span class="smcap">H<span>OME</span></span>
-<span class="smcap">P<span>RINTING</span></span>
-<span class="smcap">P<span>ROCESS</span></span></span>
-</li></ul></li></ul></li></ul>
-
-<div class="chapter">
-<h2 class="nobreak" title="Introduction." id="p-xv">
-INTRODUCTION.</h2></div>
-
-<p>The improvements made within the last twenty years in the art of printing
-books have not, until recently, been kept pace with by the methods of illustration.
-Wood engraving, except for high class and expensive editions, was crude,
-whilst the use of engravings from copper or steel, or of lithographs, was also
-restricted to short and expensive editions.</p>
-
-<p>The introduction of the zinc-etching process, in which the picture is first
-drawn in line, or stipple, or chalk, upon lithographic transfer paper, then
-transferred to a plate of zinc and subjected to a process of etching in various
-baths of acid water, marks a new era, replete with great improvements in
-cheapness, facility of production, and artistic results.</p>
-
-<p>This new process had scarcely been in good working order before it was
-seen that great improvements might be made by enlisting photography in its
-service; because in its original form it was necessary that the design be made
-of the same size as the finished block, which, in many cases, added too much
-to the expense. But by introducing photography, the size of the original was
-of no moment; the lens could easily reduce that, and at the same time preserve
-the proportions, as well as fine down any crudity in the drawing.</p>
-
-<p>The first methods of producing a photo-transfer, were by making a negative
-from the original, then paper coated with bichromated gelatine was exposed
-under this negative, and the sensitive gelatine, corresponding with the transparent
-portions of the negative (representing the lines of the original), being
-exposed to the action of light was made non-absorbent of water, whilst the
-sensitive gelatine representing the white portion of the original being protected
-from the action of light by the dark portion of the negative, still retained its
-affinity for water. The consequence was that when a roller charged with fatty
-ink was applied to the wet print, the exposed portions of the gelatine took the
-ink, but the white portion being charged with water rejected it, the result being
-a replica of the original in a fatty ink. This was used as an ordinary lithographic
-transfer and could be transferred to zinc and etched in relief.
-<span class="xxpn" id="p-xvi">{xvi}</span></p>
-
-<p>Such a process was not perfect, and was not suitable for subjects which
-necessarily should be to scale. So the next improvement was to place a plain
-mirror between the lens and sensitive plate, so producing a negative in its
-proper position as regards right and left; then from this reversed negative a
-print in fatty ink could be made direct on the zinc.</p>
-
-<p>These transfers on paper, or direct prints on the zinc, are restricted entirely
-to what are generally termed “subjects in line,” such as architectural drawings,
-plans, woodcuts, engravings from steel or copper plates, or lithographs in
-pure line, in chalk, or in stipple. The attainment of effect of half tones by
-graduated works of color, thinner or thicker, or the smooth, delicate gradations
-of a photograph, are not permissible in relief blocks of this kind, although for
-short numbers this class of subject could be utilized by employing the collotype,
-heliotype, or lichtdruck methods, which render the half-tones without
-(visible) breaking up of the gradations.</p>
-
-<p>The next step was to perfect the various (published first in 1854 by Fox
-Talbot) methods of mechanically breaking up the half-tones of a photograph,
-and so giving a means whereby a photograph in all its delicacy may be used
-to illustrate a letter-press article.</p>
-
-<p>Of course, during the progress of rendering photography applicable for
-relief blocks, its usefulness for intaglio printing was not neglected. And now
-having entered into very close competition with wood engraving and by modification
-of the collotype methods, with lithography, photography can now be
-used for the production of intaglio plates, in half-tones as well as in line.</p>
-
-<div class="keeptogether">
-<p>The methods by which the above results are attained furnish the text of
-the pages to follow; and as each and every method given has been tried by the
-author, the reader may be satisfied that the manual is, as claimed,
-<i>practical</i>.</p>
-
-<p class="psignature">W. T. WILKINSON.</p></div>
-
-<div class="chapter"><b>PHOTO-ENGRAVING, ETCHING, AND LITHOGRAPHY.</b>
-<h2 class="nobreak" title="Part I. Photo-engraving in Line." id="p009">
-PART I. <span class="blksmaller">
-PHOTO-ENGRAVING IN LINE.</span></h2></div>
-
-<h3 class="nobreak" title="Chapter I.
-Appliances For Making Photographic Negatives.">CHAPTER I.
-<span class="blksmaller">
-APPLIANCES FOR MAKING PHOTOGRAPHIC NEGATIVES.</span></h3>
-
-<p>For all methods of heliographic printing a suitable photographic negative
-is absolutely necessary, and to produce that negative good apparatus and pure
-chemicals, used with skill and intelligence, are indispensable.</p>
-
-<p>The studio must be well lighted, with a perfectly firm floor. The dark-room
-should be kept for negative work only (the room where the zinc printing is
-carried on being a separate room). There must be a roomy sink in front of a
-good-sized window covered with a non-actinic medium (yellow, not orange),
-such as two thicknesses of golden fabric, so as to have plenty of light to see the
-progress of development by.</p>
-
-<p>The copying camera must have a long bellows and should not be less than
-12 by 10, fitted with rack-work, so as to be able to get absolute sharpness in
-focussing.</p>
-
-<p>It will be a great advantage, and aid in adjusting the position on the
-focussing screen of the drawings to be copied, if a vertical line be drawn, and
-another horizontally, so that they bisect each other exactly in the centre; then
-<i>from the centre</i>, mark and number each inch and half inch upon each of the
-four arms of the cross; it can then be seen at a glance not only that the picture
-is in the centre, but also that it is about the right size.
-<span class="xxpn" id="p010">{10}</span></p>
-
-<p>The dark slide must be light-tight, and made strong rather than for
-portability.</p>
-
-<p>The lens should be rectilinear, and should be capable of covering the largest
-size plate the camera will take quite sharp to the corners. For a 12 by 10
-plate a lens with an equivalent focus of about 18 inches will be best.</p>
-
-<div class="figleft imwth09" id="fig01">
-<img src="images/i010.jpg" width="192" height="217" alt="" />
-<div class="caption">Fig. 1.</div>
-</div>
-
-<p>To the lens must be fitted a reversing mirror of silvered glass, mounted
-behind the lens by preference, as such a style of mounting not only protects
-the surface of the mirror from the air, but keeps
-extraneous light from affecting the brilliancy of the
-image. (Fig. 1.)</p>
-
-<p>The camera must be mounted upon a solid table
-fixed upon small grooved or flanged wheels, such
-wheels running either upon rails fixed upon or in
-grooves cut into the floor, at right angles to the wall
-against which the copying board is fitted.</p>
-
-<p>The copying easel is placed perpendicularly in
-front of, and perfectly parallel with, the camera.
-As a mirror is used, the camera is sideways to the
-object, not facing it, as in copying direct.</p>
-
-<p>The easel should be so contrived that it can be raised or lowered, and moved
-right and left, which double motion is managed by having the easel double;
-the up and down motion should be obtained by hanging the back portion like
-a window sash, the weights being exactly the weight of the whole easel, and
-the pulleys over which the cords go, not running too freely.</p>
-
-<p>At the top and bottom of the back portions of the easel are projecting strips
-with a rabbet deep enough to allow the front or copying board to slide sideways,
-but not loosely; this front board should be painted a dead black with
-white lines in the centre from top to bottom and from side to side, said lines
-being divided into inches and half inches, from the centre, so that the drawing
-may be pinned in the exact centre without trouble.</p>
-
-<p>A convenient size for a copying board is 4 feet high by 5 feet wide.</p>
-
-<p>In connection with the camera, the only thing left to describe is the focussing
-cloth, which should be quite opaque, and of ample size to exclude all extraneous
-light from behind when focussing.</p>
-
-<p>For focussing the image absolutely sharp, a magnifying glass may be
-required.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p011" title="Chapter II.
- The Wet Collodion Process.">
-CHAPTER II. <span
- class="blksmaller">THE WET COLLODION PROCESS.</span></h3>
-</div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="The Collodion.">
-<tr><th colspan="3"><h4 title="The Collodion.">THE COLLODION.</h4></th></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Ether</td>
- <td class="tdleft padr">40</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Schering’s Celloidin*</td>
- <td class="tdleft padr">&#8199;1&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">cakes.</td></tr>
-</table></div>
-</div>
-
-<div class="footnote">
-<p class="pfn">* Hance’s D. C. gun-cotton may be used
-instead of the celloidin.</p></div>
-
-<p>Cut the celloidin into thin strips, or, if it be hard, break it up in a clean
-mortar, and dissolve in the above mixture of alcohol and ether. When
-dissolved, this forms the collodion.</p>
-
-<h4 title="The Iodizer.">THE IODIZER</h4>
-
-<p class="pcontinue">is composed of:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="the Iodizer">
-<tr>
- <td class="tdleft padr">Bromide of Zinc</td>
- <td class="tdleft padr">150</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="tdleft padr">Iodide of Zinc</td>
- <td class="tdleft padr">350</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">&#8199;10</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>When the salts are dissolved, filter and add to the collodion.</p>
-
-<p>The filtering is best done by placing a pledget of cotton-wool in the neck
-of a glass funnel and passing the iodizer through it. To prevent evaporation,
-lay a glass plate over the funnel.</p>
-
-<p>The iodizer being added to the collodion, shake them up thoroughly and
-allow to stand for a week to settle, then decant into convenient bottles; this
-collodion is ready for use in a week, but will improve with age up to six
-months, after which time it should be mixed with new.</p>
-
-<p>When coating plates with collodion, it is not a wise plan to pour the surplus
-from the plate back into the bottle from which it was poured. Pour it into
-another, kept handy for the purpose, the contents of which, at the end of the
-day’s work, empty into the stock bottle after such a quantity as is sufficient for
-next day’s consumption has been decanted into the pourer.</p>
-
-<p>The best bottle from which to pour the collodion upon the plate is the tall
-capped bottle sold by the dealers as collodion pourers.
-<span class="xxpn" id="p012">{12}</span></p>
-
-<div class="keeptogether">
-<h4 title="The Nitrate of Silver Bath (1).">THE NITRATE OF SILVER BATH (1).</h4>
-
-<p>The silver bath is a most important factor in the production of good
-negatives. It must be compounded with care and used with skill.</p>
-</div>
-
-<p>To make it, dissolve 6 ounces of nitrate of silver in 10 ounces of water, then
-add 10 drops of collodion, and shake up well; then add 70 ounces of water,
-and let it stand all night; then filter through a pledget of cotton-wool packed
-loosely in the neck of a glass funnel, into a clean bottle or jug; then add 1
-drachm of nitric acid and let stand all night before trying. Such bottle or jug,
-and also the glass funnel, must be kept solely for use with the silver bath.</p>
-
-<p>The bath holder may be an upright vessel of the ordinary pattern, with a
-dipper with which to lower the plate into the solution; or it may be a flat dish
-with a cover to keep out light and dust, using a silver hook to lift the plate
-from the solution; if the former shape be chosen, let the dipper be of glass,
-porcelain, silver wire, or of wood soaked in melted paraffine, but on no account
-of ebonite, as such a dipper will cause spots, and derange the bath sooner or
-later.</p>
-
-<p>If a flat dish be used, the best form is of wood lined with asphaltum, hanging
-on a cradle, the lower end being a well to hold the solution; in this form of
-bath the plate, after sensitizing, is drained thoroughly before taking it out.
-This is a great convenience, as not only is silver solution saved, but the dark
-slide will last much longer.</p>
-
-<p>The bath solution made up as above will be the right strength for work,
-but as every plate sensitized therein, takes away its modicum of silver, after a
-certain time it must be strengthened, as it is essential for the production of
-good work that the solution be kept at a proper strength. The best way of
-doing this is to add a drachm or two of saturated solution of nitrate of silver,
-after each day’s work has been done, and if the solution be worked in a flat
-bath, it will be as well to pour it into a jug and filter it before using again;
-with an upright holder, this filtering will only require to be done about once
-or twice a week, as any particles of dust, etc., subside and have not the same
-chance of falling upon the film as in a flat bath; but the addition of the silver
-solution should be made, and the solution well stirred up with the dipper.</p>
-
-<p>In course of time a silver bath will become contaminated with organic matter
-from various causes, and can also be supersaturated with ether and alcohol—with
-iodo-bromo or nitrate of zinc, and will either refuse to work, or only
-<span class="xxpn" id="p013">{13}</span>
-yield imperfect films and thin images. In such cases the best plan will be to
-take 20 ounces of the solution, dilute it with clean water 60 ounces, filter, and
-add 6 ounces of nitrate of silver, and again filter, when a new bath will be
-the result.</p>
-
-<p>The silver in the rejected portion of the old bath should be precipitated as a
-chloride, by the addition of a solution of common salt, the precipitate dried and
-sent to a refiner, together with the ashes of the filtering papers and blotting-paper
-used to drain the plates upon, or to wipe the backs of the plates after
-leaving the bath and before putting them into the dark slide.</p>
-
-<p>The silver solution named above, is suitable for negatives of subjects in line,
-but for the production of negatives with delicate half tones, such as portraits,
-landscapes, or of the many subjects which are photographed direct, then it will
-be necessary to provide another bath solution, made and managed in the same
-way, but only containing sufficient nitric acid to just redden litmus paper, as a
-bath gives the finest half-tones when nearly neutral, or only slightly acid. It
-should be remembered that the deepest shadows are represented by clear glass
-in the negative, to insure which would be impossible with the silver solution
-inclining ever so slightly toward alkalinity.</p>
-
-<p>The nitrate of silver bath may be made up with distilled water, if pure—that
-is, if the water is bona fide distilled and not merely from waste steam; if
-this cannot be guaranteed, the best plan will be to get a gallon of tap water,
-dissolve in it one ounce of nitrate of silver, then add saturated solution of
-bicarbonate of soda, until an alkaline reaction to litmus paper takes place, then
-place the lot in white glass bottles, and expose to the action of light for three
-or four days. During that time the solution will, first of all, turn black, and
-then will gradually become quite clear, the organic matter—which if not
-removed, would have caused trouble—falling in a black mass to the bottom.</p>
-
-<p>Now filter the purified water and use it for compounding the nitrate of silver
-bath, but do not use it for any other purpose.</p>
-
-<p>The strength of a nitrate of silver bath, for line work, should be thirty
-grains of nitrate of silver to each ounce of water, and should not be allowed
-to fall below twenty-five; and for half-tone negatives, nitrate of silver should
-be thirty-five, and not lower than thirty grains to the ounce.</p>
-
-<p>Be sure to keep all funnels, bottles, and dishes used for the silver bath,
-separate and distinct from all others, and never use them for any other
-purpose. <span class="xxpn" id="p014">{14}</span></p>
-
-<div class="keeptogether">
-<h4 title="The Nitrate of Silver Bath (2).">THE NITRATE OF SILVER BATH (2).</h4>
-
-<p>In the ancient days of photography, when, to say it was possible to prepare
-a dry plate nearly as sensitive as a wet collodion plate, was to excite the risible
-faculties of the audience, the above heading might almost always be seen in
-the journals, and the amount of matter written under that heading would fill
-many good-sized volumes. Some writers went into the subject in a very
-elaborate manner, whilst others would counsel very simple methods of preparation
-and management.</p></div>
-
-<p>The directions given above for making a bath solution for line negatives,
-will, if carried out carefully and cleanly, at once yield a solution giving
-good negatives. After the bath has been mixed, either with distilled water,
-ordinary tap water (<i>in iron districts tap water should not be used</i>), or water that
-has been sunned and filtered, as soon as the bulk has been made up to the
-eighty ounces, the solution should be put away all night before it is tried, then
-in the morning filter it carefully through a pledget of cotton-wool stuffed
-loosely in the neck of a perfectly clean funnel, into a perfectly clean bottle or
-jug, which must be kept entirely for use of the silver solution. When the
-bath solution has been filtered it should be <i>perfectly clear</i>; if it is at all cloudy
-or turbid, the filtration must be repeated.</p>
-
-<p>When the solution is perfectly clear and bright, pour sufficient into a perfectly
-clean porcelain, glass, or papier-maché dish, then take a clean plate
-(polished, or albumenized) and coat it with collodion; close the door of the dark-room,
-and when the film of collodion is perfectly set, raise one end of the dish
-containing the silver solution, place one edge of the collodionized plate against
-the bottom of the upper edge of the dish, then drop the plate upon the bottom
-of the dish, and at the same time lower the dish; by this means the silver
-solution will flow in an even wave over the surface of the collodionized plate;
-now place the cover on the dish so as to exclude light and dust, and allow the
-plate to remain in the solution for five minutes, then with a silver hook lift
-the plate from the solution, and allow it to drain (remember that no light must
-get into the dark-room except what is filtered through either two thicknesses
-of golden fabric, or one of canary medium); when the plate has drained so that
-no solution drips from it, place it into the carrier of the dark slide; then
-close the dark slide and let it remain there for five minutes, at the end of
-which time remove the plate to the sink, and flood it with sufficient developer
-(page <a href="#p017" title="go to p. 17">17</a>) to just cover the film; keep this solution flowing, to and
-fro, over the <span class="xxpn" id="p015">{15}</span>
-plate for the space of two minutes, then wash it under the tap until the surface
-is no longer greasy; then apply the fixing or clearing solution (page
-<a href="#p017" title="go to p. 17">17</a>) until
-the whole of the yellow bromo-iodide is dissolved away; again wash, and take
-the plate into the daylight.</p>
-
-<p>Now comes the test; if the film is perfectly transparent, and clear as the
-glass itself, the bath is all right; but if there is the slightest deposit (which can
-be removed by lightly rubbing the finger along the surface of the film), then
-the solution will require the addition of a little nitric acid. After this stir it
-well, and after a rest of an hour or two try again, repeat the addition of the
-nitric acid, and try a plate; repeat until the film, after developing, washing,
-and fixing, is perfectly clear, and free from deposit and fog.</p>
-
-<p>The bath is now in proper working order, and if reinforced after each day’s
-work with a sufficient quantity of saturated solution of nitrate of silver
-(filtered), kept free from contamination with other chemicals, and carefully
-filtered occasionally, it will remain in good working order for at least six
-months, and then may be renewed by treating as directed on page
-<a href="#p012" title="go to p. 12">12.</a></p>
-
-<p>It will sometimes happen, notwithstanding that extreme care and cleanliness
-is exercised in the management of the bath, that it will not work properly, and
-the reason why cannot easily be discovered. In such a case, steps must be taken
-to put the solution into working order.</p>
-
-<p>In the case of rectifying a disordered bath, there are many methods of procedure,
-but the simplest, and, as a rule, the most certain method, is to render
-the solution alkaline by the addition of liquor ammonia, adding the ammonia
-a little at a time; then, after well shaking, test it with red litmus paper and
-continue the addition of ammonia until the red litmus paper is turned blue.
-In this alkaline condition the solution should be poured into a large flat dish,
-and exposed to the action of the sun. That will speedily reduce and throw
-down in the form of a black precipitate, any organic matter that may be in the
-bath, and at the same time the heat of the sun will cause evaporation of the
-ether and alcohol left in the solution by the collodion plates.</p>
-
-<p>The bath solution should be exposed to the sun for two or three days, or
-until such time as suffices to render the solution clear, and the precipitate entirely
-separated out. But this cannot take place unless the solution is decidedly
-alkaline, the presence of acid stopping the action of light.</p>
-
-<p>Do not be in a hurry about doctoring a bath solution (in fact, it will be far
-best to have two solutions, one in use and one either resting or being doctored),
-but give the light plenty of time to reduce the organic matter, and also to <span class="xxpn" id="p016">{16}</span>
-volatilize the ether and alcohol; then filter the solution through filtering paper
-(don’t use blotting-paper), as if it is attempted to filter through a pledget of
-cotton-wool the fine precipitate of organic matter quickly clogs the wool and
-stops the filtering.</p>
-
-<p>The doctored solution being filtered, test it with a piece of perfectly fresh,
-blue litmus paper, and add nitric acid, drop by drop—shaking well between
-the additions of acid—until the blue litmus paper just turns red. Do not add
-acid sufficient to make the litmus turn violently red, unless the bath is for line
-negatives, as a bath for half-tone negatives must be only just acid, whereas a
-bath for line work must contain more acid.</p>
-
-<p>If the color of the litmus paper shows that the alkali has been neutralized,
-a plate is collodionized, then immersed in the bath for five minutes, then
-drained, and placed in the dark slide, or in a dark box for five minutes, then
-flooded with the iron developer (page
-<a href="#p017" title="go to p. 17">17</a>); if, upon the application of this the
-film should turn black, add more nitric acid, stir up thoroughly, then try
-again, repeating the trials until, upon fixing the plate with the solution of
-cyanide of potassium, the film of collodion is left upon the glass plate as clear
-as it was before it was immersed in the silver bath.</p>
-
-<p>A little above here it is stated that less nitric acid is required in the bath
-for half-tone negatives than for line work, and the question may well be asked
-where may the line be drawn? The reply is that, for half-tone work, a piece
-of blue litmus paper should, upon immersion into the solution, turn red very
-slowly, but when the bath is required for line negatives the blue litmus may
-at once indicate the presence of acid.</p>
-
-<p>After a bath solution has been renovated in the above manner, it should be
-tested for strength, either by the volumetric method (by preference), or by
-means of the ordinary argentometer sold by the dealers, and, if, after testing,
-the strength is shown to be too great, dilute with a sufficiency of sunned water
-(page <a href="#p013" title="go to p. 13">13</a>); and if not sufficiently strong, add crystals of nitrate of silver to
-make up the strength to thirty or thirty-five grains per ounce.</p>
-
-<p>A bath solution renovated as above, will generally be found to work cleaner,
-and yield brighter negatives than a new solution, and it will also, if carefully
-used, last longer; but it must be kept up to a proper working strength by the
-occasional addition of a little of a saturated solution of nitrate of silver.</p>
-
-<p>The fact that the strength of the silver solution has got too low is shown by
-the presence of semi-opaque, fantastic markings near the thick edge of the
-collodion film, and also in conjunction with the presence of organic matter in <span class="xxpn" id="p017">{17}</span>
-the deposition under the surface of the film of an extremely fine sand-like
-deposit, which, in the fixed negative, develops into myriads of pinholes in
-the densest portions of the image.</p>
-
-<div class="keeptogether">
-<h4 title="The Developing Solution.">THE DEVELOPING SOLUTION.</h4>
-
-<p>First purchase seven pounds of commercial sulphate of iron (copperas) and
-put this into a gallon jug, and fill it up with boiling water (clean); stir with
-a clean rod at short intervals for three or four hours, then allow to stand until
-the sediment settles, and the top portion of the solution is clear and bright;
-then decant as much as possible into a bottle or bottles, and label “Saturated
-Solution of Iron.” Then again fill up the jar with boiling water, stir until as
-much as possible is dissolved, so as to be ready by the time the stock in the
-bottle is exhausted, and repeat the process until all the crystals are dissolved;
-then wash out the jar, reject the residue, and begin again.</p></div>
-
-<p>But bear in mind that, unless there are crystals left in the solution after each
-addition of hot water, it will not be saturated; therefore, before taking the
-solution into use, be sure there are undissolved crystals in the jar.</p>
-
-<p>For use, take of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="developing solution">
-<tr>
- <td class="tdleft padr">Saturated Solution of Iron</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Acetic Acid</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">70</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td colspan="2" class="tdleft">&#8199;1 ounce to 5 as required.</td></tr>
-</table></div></div>
-
-<p>In the above solution, the alcohol is added to enable the developer to readily
-assimilate with the sensitive film, and the quantity requisite varies with the
-age of the silver bath, or, to be more correct, with the quantity of plates sensitized
-therein. At first, little or no alcohol will be required, but after a number
-of plates have been sensitized the developer refuses to flow evenly, and seems
-disposed to run over the edges of the plate; this is a sign that more alcohol is
-required, and when more has been added the developer will flow evenly as
-before; but when 80 ounces of developer require over 4 ounces of alcohol to
-make it flow, it is a pretty sure sign that the bath wants remaking.</p>
-
-<p>The developer is applied to the plate after exposure, from a straight-lipped
-cup, or glass measure, which should be kept for the exclusive use of this solution,
-as the mixture of any of the other solutions with it will at once counteract
-its working power. <span class="xxpn" id="p018">{18}</span></p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="the fixing solution">
-<tr><th colspan="3"><h4 title="The Fixing Or Clearing Solution.">THE
- FIXING OR CLEARING SOLUTION.</h4></th></tr>
-<tr>
- <td class="tdleft padr">Cyanide of Potassium</td>
- <td class="tdleft padr">&#8199;3</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>This solution is highly poisonous, both in solution and vapor, so it ought to
-be kept in an upright holder, the plate being lowered into the solution on a
-dipper; keep the solution well covered up, so as to prevent evaporation as
-much as possible.</p>
-
-<p>After being in use a short time this solution will become weak and should be
-strengthened by the addition in the evening of a lump or two of cyanide and
-then stirred up with the dipper in the morning; the negative must not be left
-in this solution too long or the density of the film will be impaired, but must
-be removed and well washed directly all the yellow iodide has been dissolved.</p>
-
-<h4 title="The Intensifier.">THE INTENSIFIER.</h4>
-
-<div class="tablebox">
-<table class="tabwth100" summary="no. 1 intensifier solution">
-<tr><th colspan="4">No. 1.</th></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">80</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Chloride of Ammonium</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr><td colspan="4"><p class="pcontinue">dissolve,
- then add:</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Bichloride of Mercury</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr><td colspan="4"><p class="pcontinue">dissolve,
- and filter.</p></td></tr>
-<tr><th colspan="4">No. 2.</th></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Liquor Ammonia 0.880</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div>
-
-<p>Solution No. 1 is best kept in an upright holder, as if kept in a flat dish
-there is always the danger of cutting the skin with the glass plate and getting
-the mercurial poison into the system.</p>
-
-<p>No. 2 is kept in a well-stoppered bottle and only sufficient for each plate
-withdrawn as required.</p>
-
-<p>Another method of intensifying, for those who object to the use of mercury,
-is to bleach the negative in a solution of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="intensifying solution">
-<tr>
- <td class="tdleft padr">Ferridcyanide of Potassium<br />
- (<i>Red Prussiate of Potash</i>)</td>
- <td class="tdleft padr">&#8199;6</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Nitrate of Lead</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">80</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">dissolve and filter. <span class="xxpn" id="p019">{19}</span></p>
-
-<p>When the plate is bleached, wash it thoroughly under the tap, taking care
-that the edges and corners of the film as well as the centre are washed, then
-flood it with a sufficient quantity of</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="intensifying solution">
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Nitric Acid</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">80</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Allow this to remain on a few
-seconds, then wash, and flood with a sufficient
-quantity of</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Sulphide of Ammonium</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">parts.</td></tr>
-</table></div>
-
-<p class="pcontinue">which will at once turn the film an intense black; again wash, and flood
-with the nitric acid solution, and again wash; then the negative is allowed
-to dry.</p>
-
-<p>This method of intensifying is cheaper than the other, and if the washes of
-acid between and after the other two solutions are carefully done, and the
-stench of the sulphide is not objected to, then there is little or no difference in
-the results; but if the acid washes are omitted or (and) the sulphide has not
-been kept corked, and is consequently not fresh, then there is great danger of a
-brown stain upon the lines, which is more or less fatal to getting a good print
-on zinc.</p>
-
-<p>For half-tone negatives, instead of fixing or clearing with the cyanide of
-potassium, the developer is washed off directly, and then they are intensified at
-once by the application of a mixture of pyrogallic acid, citric acid, and nitrate
-of silver, as follows:</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="intensifier solution">
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">No. 1 Solution of Pyrogallic Acid</td>
- <td class="tdleft padr">40</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Citric Acid</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">As much of this solution as
-will cover the washed plate is put into a small
-cup, and flowed all over the film, then returned to
-the cup, and a few drops of</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Nitrate of Silver</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-</table></div>
-
-<p class="pcontinue">is added. Then the mixture is poured over the film, and rocked to and fro for a
-short time; the intensifier is then returned to the cup, the negative held up to
-the light, and examined, and if not intense enough, the intensifier is again
-applied. Great care is requisite at this stage,
-as if the process be carried on too <span class="xxpn" id="p020">{20}</span>
-far the negative will be too intense, and will either be spoiled, or take an
-abnormal time to print; practice and observation are the only guides to
-success. The grand rules for half-tone negatives are, collodion free from dust,
-the glass plate clean, the bath at its full strength and in good working order,
-proper time allowed the plate in the sensitizing bath, well drained, afterward a
-good exposure, develop until all details are out, then wash thoroughly, intensify
-with judgment, wash well, fix, and again well wash, and then, but never till
-then, open the dark-room door and examine your new negative by daylight.</p>
-
-<p>In making the collodion, soak the celloidin in the ether for about twelve
-hours before adding the alcohol; be sure the ether is at least 0.725 specific
-gravity, and that the alcohol is very clean, and free from gum. After
-mixing the collodion and iodizer, shake up well, but do not do this before
-decanting. Always decant sufficient for next day’s use, into the bottle used for
-pouring, over night, so that it gets a chance to settle, and allows the air-bubbles
-to escape.</p>
-
-<p>Keep the collodion in as cool a place as possible, and in decanting it be very
-careful to do it away from fire, or lighted gas or paraffine, especially where
-flame is below the bottle, as ether vapor does not rise, but falls.</p>
-
-<p>In hot weather and during long exposures, wet plates are very prone to have
-a peculiar stain upon them, called oyster-shell markings, the remedies for
-which are careful draining before putting them into the slide, and covering the
-bottom of the carrier with clean filtering paper, so that the silver solution,
-on draining down, is absorbed by the bibulous paper instead of going back up
-the plate by capillary attraction.</p>
-
-<p>In hot weather the back of the plate, when put into the dark slide, should
-be covered with a wet piece of red blotting paper, or orange calico, <i>but not
-white</i>; a wet cloth laid in the camera will also tend to keep the plate moist.
-These precautions, however, are not required unless the exposure is likely to
-exceed a quarter of an hour.</p>
-
-<div class="keeptogether">
-<h4 title="Protecting The Collodion Film.">PROTECTING THE COLLODION FILM.</h4>
-
-<p>A collodion film, when dry, is very delicate, and, except for line work in
-the hands of an expert, will require protecting. This is usually done by
-slightly warming it (when quite dry) in front of a fire, and then pouring over
-a sufficient quantity of thin spirit varnish. After the superfluous varnish is
-well drained off, dry by again holding it in front
-of the fire. The spirit <span class="xxpn" id="p021">{21}</span>
-varnish answers perfectly for ordinary work, but for printing upon metal for
-relief blocks, or upon glass for collotypes, it will be best to use a benzole
-varnish, such as is sold by dealers for protecting the films of glass positives or
-ferrotype pictures. Anthony’s “diamond” varnish is good.</p></div>
-
-<p>But the best plan of all is to use a water varnish, made by dissolving half
-an ounce of borax in a quart of boiling water, then adding a few pieces at a
-time (stirring meanwhile), one pound of ordinary shellac; if the quantity of
-borax named does not suffice to make all the shellac dissolve, add more, a grain
-at a time, until the shellac is dissolved; then add half an ounce of white
-sugar, cool and filter it.</p>
-
-<p>When the negative is washed for the last time, allow it to drain, then flood
-with the above solution, and let it dry. This will be found a quicker, cleaner,
-and more satisfactory method of protecting the delicate film than with the
-spirit varnish.</p>
-
-<div class="keeptogether">
-<h4 title="The Glass Plate.">THE GLASS PLATE.</h4>
-
-<p><i>The glass</i> used as a support for the collodion film should be thin flatted
-crown of the best quality, for the negatives, as a rule, are not required again
-after once the zinc is etched, so that the film may be washed off, and the glass
-used again, which cannot be done so often if the glass be of bad quality; flatness
-is a <i>sine qua non</i>, as it has to be subjected to heavy pressure between a
-zinc plate and the front glass of a printing frame.</p></div>
-
-<p>As a good and suitable negative is the foundation of success in the subsequent
-processes, so is a properly cleaned glass plate the foundation of a
-successful negative; unless the glass is chemically clean, the collodion film will
-either be stained or marked, or it will split off in drying, therefore care and
-attention are requisite; even in preparing a piece of glass for the reception of
-the film of collodion care is especially requisite, as the want of it cannot be
-seen until after all the operations, therefore the labor and time are not thrown
-away.</p>
-
-<p>There are two methods of cleaning the glass plate: one quite mechanical;
-the other is a mixture of the mechanical and the chemical. Both are good.
-The second is perhaps the best, as it is simple and more certain.</p>
-
-<p>In the first method the glass, when new, merely requires polishing with clean
-wash leather kept for this purpose.</p>
-
-<p>The best way of doing this is on a flat board 24 by 18
-inches, or thereabouts, <span class="xxpn" id="p022">{22}</span>
-covered with good American oil-cloth, glazed side out. A plate laid upon this
-will not slip about when being polished.</p>
-
-<p>Both sides and edges of the plate must be well cleaned, as one of the most
-prolific causes of derangement of the silver bath is from organic matter introduced
-by imperfectly cleaned glass plates.</p>
-
-<p>One side of the plate, if gently rubbed with the thumb nail, will be found
-smoother than the other, and is the suitable side for the support of the
-collodion film; this side is polished with the leather until, upon breathing
-gently upon it, the film of moisture is quite free from marks or streaks, not
-only in the centre but at the sides and corners.</p>
-
-<p>It is absolutely necessary that the plate be chemically clean all over, else the
-film of collodion, upon drying, will split, and the negative be spoilt.</p>
-
-<p>When the plate is clean, an edging of India-rubber dissolved in benzole,
-about an eighth of an inch wide, is run all round the edge, by means of a small
-camel’s-hair brush tied to a stick, the end of the stick being level with the point
-of the brush. The stick acts as a guard against the brush going too far from
-the edge.</p>
-
-<p>In the second method, the new glass plate is soaked an hour or two in a
-mixture of 5 ounces of common spirits of salt (hydrochloric acid) in 80
-ounces of water. After both sides of the plate are rubbed with a rag, and well
-washed under the tap, it is put in a dish of clean water. When all the plates
-have been so treated, they are taken out singly, again well rubbed on both
-sides with another rag, and well washed; then the smoothest side having been
-selected, it is twice flooded with a mixture of albumen and water, draining the
-surplus into the sink each time of flooding. The plate is then placed upon a
-rack to drain and dry; the drying should be effected in a current of hot air
-freed from all dust.</p>
-
-<p>The albumen mixture is composed of the white of one egg well beaten, then
-diluted with 40 ounces of water and ten drops of liquor ammonia added, and
-again beaten. It must then be very carefully filtered through cotton-wool, and
-used as above.</p>
-
-<p>In placing the albumenized plates upon the drying rack, care must be
-taken to face the coated sides all one way, as when dry there is nothing to indicate
-to the eye which is the back and which the front.</p>
-
-<p>The albumenized plates, when dry, should have the backs cleaned with a
-cloth or a leather before using, so as to clear away any albumen which may
-have adhered during coating. <span class="xxpn" id="p023">{23}</span></p>
-
-<p>Albumenized plates stored in a dry place will keep good for months, <i>and do
-not require any edging with India-rubber</i>, as the most horny collodion film will
-not split off an albumenized plate.</p>
-
-<p>Glass plates that have been used, and not varnished, are freed from the films
-by being immersed in a mixture of hydrochloric acid and water for a few
-hours, then washed under the tap, well rubbed with a rag, and put into clean
-water, from which they are taken singly and coated with albumen; or they
-may be allowed to dry, and are then polished by means of the wash leather.</p>
-
-<p>Negatives that have been varnished are cleaned by first immersing in a hot
-solution of common washing soda until the film comes off, then wash them
-under the tap, rubbing well with a rag, then immerse them in the acid solution
-so as to neutralize the alkali. Finally they may be treated as above.</p>
-
-<p>The films that are removed from the glass plates must not be thrown away,
-but should be carefully collected, dried, and sent to a refiner with the other
-silver waste; a good plan for saving these films, and at the same time keeping
-the acid and soda solutions clear of them, is to filter each solution occasionally
-through an old felt hat suspended conveniently over the tanks, using one for
-each of the tanks.</p>
-
-<p>The polishing of the glass plate must not be done in the dark-room, or the
-crop of comets, spots, etc., upon the negatives will be exasperating in the
-extreme; let this operation be conducted in a clean, quiet corner of the studio,
-where no other operation will disturb, and where the fluff from dusters and
-leathers will not interfere with anything else.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p024" title="Chapter III.
- Photographic Manipulations.">
-CHAPTER III.
-<span class="blksmaller">PHOTOGRAPHIC MANIPULATIONS.</span></h3>
-</div>
-
-<p>The chemicals being prepared, they must be placed in the dark-room; the
-collodion bottle should be placed on a convenient shelf close to the door, and on
-a handy peg hang a broad camel’s-or badger-hair brush, for dusting the clean
-plate just previous to coating it with collodion; the brush must not be used for
-anything else upon any pretence whatever. The silver bath must be kept,
-both in use and out of use, in some convenient corner, where there is no risk
-of getting any other chemical splashed into it. For a bath holder a deep 15
-by 12 porcelain or papier maché dish, with a wooden or stout cardboard lid,
-should be provided, and this dish must always be thoroughly washed, and
-wiped dry with a clean damp leather (kept for the purpose), both before use
-and after pouring the silver solution back into its bottle or jug. Or, if the
-upright form be preferred, be sure and have it large enough.</p>
-
-<p>The developer should be placed on a shelf, on the right of the sink, the
-developing cup close by.</p>
-
-<p>The fixing or clearing solution should be kept in an upright bath of glass,
-porcelain, or ebonite.</p>
-
-<p>The intensifier No. 1 may be kept in a flat dish, or in an upright holder,
-at discretion; but if in a flat dish, the solution should be poured back into
-its bottle, after each day’s work.</p>
-
-<p>Keep the intensifier No. 2 in a stoppered bottle close to the sink.</p>
-
-<p>The water varnish also is kept in a bottle or jug.</p>
-
-<p>On a shelf close to the collodion, the polished or albumenized plates may be
-stacked, with the clean or prepared side facing the wall.</p>
-
-<p>A pneumatic holder for attaching to the back of the plate during the operation
-of coating with collodion will be found very handy.</p>
-
-<p>Of course, it is thoroughly understood that there is a sink in the dark-room,
-and a good water supply is indispensable.</p>
-
-<p>Then, again, the window through which the light is
-transmitted, must be <span class="xxpn" id="p025">{25}</span>
-covered with a non-actinic medium, such as two thicknesses of golden fabric,
-or one of canary medium; do not stint the amount of light, but have as much
-as possible, so long as it is non-actinic.</p>
-
-<div class="figright imwth07" id="fig02">
-<img src="images/i025.jpg" width="288" height="549" alt="" />
-<div class="caption">Fig. 2.</div>
-</div>
-
-<p>No arbitrary plan for the dark-room
-need be followed, but the novice will
-find the annexed plan useful to him in
-contriving for himself. It is self-explanatory.</p>
-
-<p>Everything being in readiness, we
-will now proceed to make a line negative,
-reserving a description of half-tone
-work to follow.</p>
-
-<p>To begin: wash the bath holder
-thoroughly, and wipe it dry, then pour
-into it sufficient silver solution to make
-the depth about half an inch; dust the
-inside of the cover, and put it over the
-dish; now take a clean glass plate, if
-it be polished, see that it is edged with
-India-rubber, and if albumenized, be
-sure and clean the back—and attach
-it to a pneumatic holder; then with a
-broad camel’s-or badger-hair brush
-(kept for this purpose only) remove any
-particles of dust, back and front; now
-hold the plate in a horizontal position
-and pour upon it, toward the right hand
-corner furthest away from the body, a
-little more collodion than it is judged
-will be sufficient to cover it; let the collodion run to the corner, then incline
-the plate to the left, and the collodion will run into the upper left-hand corner.
-Now by inclining the plate toward the body the collodion will flow into the
-lower left-hand corner, and thence it is guided into the funnel placed in the
-bottle prepared for its reception; during the time that this surplus is draining,
-the plate must be gently rocked sideways, so that the lines formed by
-the collodion, in draining, are merged, leaving the film quite homogeneous.
-As soon as the collodion ceases to drip, release the plate
-from the pneumatic <span class="xxpn" id="p026">{26}</span>
-holder, and touch the lower ridge of the collodion; if it is quite set, close the
-door of the dark-room, remove the lid from the bath holder, then—holding
-the plate in the left hand—with the right hand raise the end of the bath holder,
-as far as is possible without risking any of the silver solution running over the
-end of the dish resting on the bench; now lay the plate (with the collodion
-side up) on the bottom of the dish, then drop the plate into the solution, and,
-at the same time, lower the end of the dish held up by the right hand, which
-will cause the silver solution to flow in one even wave over the collodionized
-surface. This operation must be done with dexterity, as if the silver solution
-does not flow in an even wave the film will be marked, and, in the case of a
-half-tone negative, the image will be spoilt. Therefore, it is necessary to see
-that the plate and dish are lowered simultaneously, so that the solution goes
-over the collodion film in one steady wave. If the upright bath holder be
-used, the plate is placed upon the ledge of the dipper, and lowered slowly and
-steadily into the solution.</p>
-
-<p>The plate will require an immersion of about three minutes for proper
-sensitizing, and this interval—the bath being covered up to prevent the access
-of white light—may be utilized to give the final adjustment to the camera, and
-to see that the drawing or print to be copied is properly in focus.</p>
-
-<p>Use a medium diaphragm in the lens for focussing, and examine the image
-all over before deciding that it is sharp. Focus by preference about halfway
-between the centre of the picture and the edges, and then, after moving the
-rack to and fro until the proper sharpness is obtained, take out the diaphragm
-and substitute the smallest sent out with the lens; or if the picture to be
-taken be small and from a large original, then the second, or third, smallest
-diaphragm may be used.</p>
-
-<p>Now remove the focussing screen from the camera (note that the ground
-side of the glass has been next the lens) and place the cap upon the lens;
-close the door of the dark-room, open the dark slide, see that the proper
-carrier is in it, then raise the plate from the bath slowly, using a silver-wire hook
-for the purpose. If the solution flows evenly over the film, the plate is ready;
-but if, on the contrary, the solution flows greasy, then again lower the plate
-and rock the dish gently for a minute or two. The film being fully sensitized,
-the plate is carefully lifted out of the solution, both hands holding the plate in
-such a manner as to avoid touching the film; allow the solution to drain from
-the plate as much as possible, then lean the plate against the wall, the lower end
-resting upon a pad of clean blotting-paper, so as to catch any
-further draining; <span class="xxpn" id="p027">{27}</span>
-now with a pad of blotting-paper or papier-joseph wipe the back of the plate
-as dry as possible; this will prevent stains, and keep the dark slide from
-rotting by the action of the silver solution.</p>
-
-<p>The plate being drained, lay a piece of thin filtering paper in each lower
-corner of the carrier, so that the plate will rest upon the filtering paper, which
-will catch any further drainings from the film, and be a safeguard against
-stains.</p>
-
-<p>Now lay the plate face down in the carrier of the dark slide, close the door,
-and fasten it.</p>
-
-<p>The dark slide is now carried to the camera, and inserted in the grooves
-previously occupied by the focussing screen, taking care that the sliding
-shutter is next the inside of the camera; when pushed quite home, cover the
-back with the focussing cloth; pull out the shutter, when the plate is ready
-for the exposure.</p>
-
-<p>The time of exposure will vary very much with the time of the year, and
-with the amount of light falling upon the object being photographed. The
-exact time can be found out only by actual practice, but the operator, in time,
-by observation, will be able to guess it pretty correctly.</p>
-
-<p>In taking the cap off the lens, be sure that the camera is not shaken, else
-the picture will be spoilt.</p>
-
-<p>The exposure being made, close the sliding shutter, remove the slide to the
-dark-room, and close the door; lay the dark slide (with sliding shutter down)
-upon the bench, open the back shutter, and, placing the pneumatic holder in
-the centre of the plate, lift it out of the carrier.</p>
-
-<p>Take the plate to the sink, and holding it face up, in the left hand, take the
-developing cup in the right, and, with a quick motion, pour over the plate
-sufficient developer to cover the whole film; the developer must go all over
-the film in one even wave, for any hesitation in this will result in a stain;
-pour upon the film only sufficient to cover it, and be careful to spill as little as
-possible into the sink, or else the image will be thin, on account of the absence
-of free silver washed off by the wave of developer.</p>
-
-<p>Now rock the plate gently, so as to keep the developer flowing to and fro
-over the film (but keep it there, don’t spill it off) and the image will soon
-appear, faint at first, but growing gradually darker, the black lines of the
-drawing being white and the white paper black. If the development be continued
-too long the lines will eventually be veiled; therefore, as soon as the
-finest details are out and well defined, place the plate under
-the tap and allow <span class="xxpn" id="p028">{28}</span>
-the water to well sluice the film all over; as soon as it is properly washed,
-which can be seen by the water flowing evenly over, without greasy looking
-lines, hold the negative up in front of the window, and examine for spots or
-stains. If there be any present that at all interfere with the picture, at
-once reject the negative, placing it in a pan filled with water, to be washed off
-at leisure. Then start afresh.</p>
-
-<p>The negative being satisfactory, give it another rinse under the tap, and
-place it in the cyanide bath, where the unaltered iodide will speedily be dissolved.
-Then it is withdrawn, and well washed under the tap. Whilst the water is
-washing over the front, rub the back with the fingers or a sponge, and then
-turn the plate over and allow the water to wash the back also. It is now
-ready for immersion in the intensifier No. 1, where it remains until the film is
-bleached almost white. Then it is thoroughly washed, drained, and flooded
-with a small quantity of intensifier No. 2, which will at once turn the film to
-an intense black, or if the action does not penetrate through to the back of the
-film, continue the application until it does; again wash, then place the negative
-on a rack to drain. When the water ceases to drip, flood the plate twice with
-the filtered water varnish. Then place the negative on the rack to dry. When
-dry, it is ready for printing on zinc. The negative may be varnished with a
-benzole varnish, sold by the dealers under the name of positive or ferrotype
-varnish. Negative varnish may be used, but unless very thin it is apt to be
-sticky and render the negative easily marked by the heavy pressure it is subjected
-to in the printing-frame.</p>
-
-<p>Now lay the finished negative face down upon a piece of clean white paper,
-when, if it is a good one, all the details of the original will show through,
-clearly and distinctly; but if any of the details are missing or veiled over,
-the negative will not do, and another must be made.</p>
-
-<p>This process does not always work satisfactorily, but with care and cleanliness
-no serious fault should arise.</p>
-
-<p>Sometimes the bath may give what are called foggy images, which are indicated
-by a veil over the lines. These can often be wiped off with a pledget of cotton-wool.
-The addition of half a drachm of nitric acid to the eighty ounces of
-bath solution, thorough mixing, and a rest for a few hours, will end this difficulty.
-If the dark-room window be not of the proper color, fog will ensue;
-therefore, the non-photographic experimentalist had better call in the aid of a
-professional photographer in case of any difficulty in getting clear negatives.</p>
-
-<p><i>Wilson’s Photographics</i> will be a profitable investment, as
-it was published <span class="xxpn" id="p029">{29}</span>
-before the advent of dry-plate photography, when the wet process reigned
-supreme.</p>
-
-<p>At the end of each day’s work the silver solution should be carefully poured
-into the jug or bottle, and allowed to stand all night; then in the morning,
-just before using, it should be filtered. The dish also must be carefully washed
-out and put away in a corner where it has no chance of being soiled.</p>
-
-<p>Such are the manipulations necessary for the production of a negative from
-a line subject—<i>i. e.</i>, a drawing in black and white, in which the whole of the
-picture is obtained by means of lines, or stipple, or by cross hatching. Flat
-washes of color not being permissible, all effects of half tones, etc., are obtained
-by lines, either thicker, or thinner, or closer, or further apart. Such a negative
-is available for printing from, direct upon zinc, in either albumen or in
-bitumen, for etching into relief, or for printing from as a lithograph.</p>
-
-<div class="keeptogether">
-<h4 title="The Use Of Gelatine Dry Plates In Photo-engraving.">THE
- USE OF GELATINE DRY PLATES IN PHOTO-ENGRAVING.</h4>
-
-<p>For making negatives for collographic printing either direct or by transfer,
-gelatine dry plates may be used with as much certainty as the wet collodion,
-so long as the operator can produce a result giving all the gradations of tone,
-from the deepest shadow to the highest light; and as there are so many excellent
-brands of plates in the market, it would be worse than useless to name any
-brand here as having any distinct advantage over the rest, more especially as
-the brand that the writer would be inclined to name, would perhaps, by the
-majority of readers, be classed as a plate that they could not work. This being
-so, for half-tone negatives, the author leaves the choice of the plate and the
-manner of working to the operator, contenting himself with saying that the
-criterion of suitability of a negative for yielding good results by any of the
-processes treated of in this book, leaving out of the question entirely negatives
-for line work, etc. (treated of in Parts I., II., and III.), is the same for giving
-soft, delicate, and brilliant prints, either in platinum, carbon, or on albumenized
-paper, resting assured that a negative yielding a hard black and white,
-or a dirty flat print, by any of these three methods, will not give results any
-different in collographic or transfer methods.</p></div>
-
-<p>For line work negatives for printing upon zinc, for etching, or for transfers
-to stone, ordinary gelatine dry plates are not useful, as it is almost impossible
-to get that freedom from veil over the lines that it is absolutely necessary to
-have; here the wet collodion is best as it is simplest,
-easiest, and cheapest. <span class="xxpn" id="p030">{30}</span>
-Still there are times when the most ardent wet-plate worker is obliged to
-confess that the process has its shortcomings, most especially in dull weather,
-when it is necessary, to get the result required, to give exposures from thirty to
-sixty minutes; then, what with the plate drying and the want of pluck from the
-bad light, it is impossible to get a result suitable for the work. In this case
-the plate called the “Process” plate is a great boon. It is fairly rapid, and
-gives intense negatives, without veil on the lines.</p>
-
-<p>For making transparencies same size of original negatives, the best plan is to
-place a large sheet of white paper in front of the copying camera, and rack the
-lens out of focus, taking care that the white sheet of paper is sufficient to
-illuminate the full size of the plate. Then in the dark-room place the negative
-in the carrier of the dark slide, film side up, and carefully dust the surface
-(also seeing that the back of the negative is clean) with a clean camel’s-hair
-brush; dust also the film of a gelatine dry plate, and place it face down upon
-the negative, close the slide, and insert it into the grooves of the camera and
-expose to the light reflected through the lens from the white sheet of paper for
-from five to twenty seconds, according to the density of the negative and the
-intensity of the light; close the lens and the shutter, and remove it into the
-dark-room for development.</p>
-
-<p>By exposing a plate in this manner there is a far better chance of getting
-absolute contact between the two plates, as the rays of light are parallel.</p>
-
-<p>For making transparencies for printing upon copper-plates, first of all make
-a grained negative the proper size, then when this is varnished and touched
-up, make from it as above a transparency upon a gelatine chloride dry plate,
-by which process it is more certain to get a suitable result for the process than
-on a gelatine bromide dry plate.</p>
-
-<p>No formula will be given here for developing these gelatine chloride plates
-as each packet has full instructions for development which must be followed
-implicitly.</p>
-
-<p>For developing gelatine bromide dry plates for negatives, or for transparencies,
-the following, a modification of the Ilford formula, will be found better
-than using formula where the ammonia and bromide are mixed together.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="modified Ilford formula">
-<tr>
- <th colspan="3"><i>Solution No. 1.</i></th></tr>
-<tr>
- <td class="tdleft padr">Pyrogallic Acid</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Meta Bisulphate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Bromide of Potassium</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">80</td>
- <td class="tdleft" id="p031">ounces.</td></tr>
-<tr>
- <th colspan="3"><i>Solution No. 2.</i></th></tr>
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">&#8199;&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>For a normal exposure equal parts of these are mixed just before using, and
-for an uncertain exposure begin with two parts of No. 1, one part of water,
-and one part of No. 2.</p>
-
-<div class="keeptogether">
-<h4 title="The Reproduction Of Negatives.">THE REPRODUCTION OF NEGATIVES.</h4>
-
-<p>For the production of suitable collotype prints, the first consideration is the
-negative, from which the printing surface is to be made. The requirements are,
-a negative in which all the half-tones, both in the lights and in the shadows,
-are reproduced in their proper gradations; the lights must not be too dense, or
-the shadows too clear; the blackest portion of the negative must be that part
-representing the highest light, and the only clear glass, that which represents
-the deepest shadow; these negatives may be either wet collodion, or on ordinary
-gelatine-bromide plates and reversed—<i>i. e.</i>, the mirror must be used behind the
-lens. If it is desired to produce a collographic block from a negative already
-in existence, and which may not be retaken, then it will be necessary to make
-another negative. This may be done in many different ways; but whichever
-way is adopted, the first and most important step is the production of a transparent
-positive.</p></div>
-
-<p>This transparent positive may be made on an ordinary gelatine-bromide plate,
-or on a gelatine-chloride plate, and then from the transparent positive a negative
-is made by transmitted light (in the enlarging camera), either the same size,
-reduced or enlarged in size; or instead of using this class of transparency, by
-far the finest results can be got by making the transparency in carbon tissue,
-which can be used for both transmitted light, for enlarging or reduction in size,
-and it can also be used for contact printing, when the reproduced and reversed
-negative is required to be the same size as the original.</p>
-
-<p>On page <a href="#p029" title="go to p. 29">29</a>
-directions are given for the manipulations when gelatine dry
-plates are used, so here we will confine ourselves to the production of negatives
-from the carbon transparency. First of all, procure some carbon transparency
-tissue, ready sensitized, cut this into sizes at least half an inch larger all round
-than the negative, then cut a brown paper mask to fit all round the negative,
-and to protect the margin of tissue from the action of light; this acts as a safe
-edge to the tissue, enabling it to adhere to the glass support during the operation
-of development. If it is only intended to reproduce a portion of the <span class="xxpn" id="p032">{32}</span>
-original negative, the safe edge may be made by putting the mask just round
-that portion of the image, but if the whole of the negative is required, put
-it in a printing frame with a plate glass front, fix the brown paper mask
-outside the negative, then place the sensitive carbon tissue the black side next
-the negative film, and put in the backing, and back, and fasten it up. Next
-expose it to the light for four or five times the time requisite to get an ordinary
-silver print.</p>
-
-<p>The carbon tissue having been exposed to light for the proper time, it is taken
-into the dark-room, the edges are turned up so as to form a dish, and pinned
-upon a small board; it is now coated with thin plain collodion, the surplus
-being poured into a bottle kept for the purpose, and the board gently rocked
-to and fro, so as to prevent the collodion running in ridges, or streaks. Now
-allow the collodion to dry, then place the coated and exposed tissue in clean
-cold water until it is quite limp, then slide underneath it a gelatinized glass
-plate a little larger all round than the tissue, bring the gelatinized surface of the
-glass plate and the collodionized surface of exposed tissue in contact under the
-water, taking great care not to abrade the collodion; then lift the two out and
-lay the glass down upon a bench, and cover it over with a piece of thin India-rubber,
-or mackintosh, or oil-cloth. Hold the cover firmly on the bench with
-the left hand; with the right use a strong squeegee vigorously. That
-will expel all the water from between the two surfaces (collodion on the tissue,
-and gelatine on the glass), and so bring them into absolute contact; now remove
-the cover, lift the plate and examine the tissue through the glass, and if there
-are no air-bells between the two surfaces the operation has been successful; but
-if air-bells are present, <i>at once</i> plunge the plate into cold water, strip off the
-tissue, and try again, but be careful to be quick about it, or there is a risk of
-the tissue absorbing too much water, in which case great difficulty will be experienced
-in getting it to lie flat upon the gelatinized glass.</p>
-
-<p>The gelatinized plate upon which the exposed and collodionized tissue is
-mounted is prepared as follows: Glass plates free from scratches and stains, are
-placed in a weak mixture of hydrochloric acid and water, and rubbed with a
-clean rag until free from grease and dirt; they are then washed under the tap,
-and whilst wet are covered with:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution for making gelatinized plate">
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">15</td>
- <td class="tdleft" id="p033">grains.</td></tr>
-</table></div>
-</div>
-
-<p class="pcontinue">Soak
-the gelatine in the cold water until it is soft, then melt at gentle heat,
-add the bichromate, and when dissolved, filter, and coat the cleaned plate two
-or three times, throwing the surplus away each time of coating; now stand the
-coated plate on a rack to dry. Any quantity of these plates may be prepared
-at a time, and used when required. When all the batch has been coated, the
-rack may be removed into a warm corner, free from dust, until the plates are
-dry, then expose the plates to the light for at least twenty minutes, when they
-are ready for use for mounting the exposed and collodionized transparency
-tissue upon.</p>
-
-<p>After the tissue is mounted upon the glass plate, it is allowed to stand a few
-minutes, then it is placed in a dish containing hot water (100°&nbsp;F.), and as soon
-as the tissue compound shows signs of dissolving by exuding from under the
-paper, lift the paper away, then rock the dish, and, if necessary, add more hot
-water; then raise the plate and gently lave it with the hot water, until the whole
-of the soluble pigmented gelatine is washed away, leaving a transparent positive
-on the glass, which merely requires washing under the cold water tap, and
-drying, to be finished. Now examine it closely, and if it contains the whole of
-the details in the negative, and is free from dust spots, it may be put away to
-dry, but if underexposed, or overexposed, or marred by spots not in the
-original, then another must be done; but if care is taken to dust the surface of
-the tissue, and the film of the negative with a camel’s-hair brush before printing,
-and before collodionizing, and also to see that both the collodion and the
-gelatine mixture are properly filtered, and that the water in which the coated
-and exposed tissue is soaked is free from dirt, then there will be no difficulty
-in getting a perfect transparency.</p>
-
-<p>The transparency being obtained, if it is desired to make a negative larger
-or smaller than the original, the transparency is placed in the enlarging camera
-with the carbon film inside, and the negative made the requisite size, either on
-a dry plate or on a wet collodion plate.</p>
-
-<p>If a negative the same size is required, the transparency is placed face up in
-the carrier of the dark slide, and the surface dusted; then take a dry plate, and
-having also dusted its film, place it face down in contact with the transparency,
-then close the dark slide and remove it to the camera, which should be previously
-adjusted opposite a large sheet of white paper; now put in the dark
-slide, draw the shutter, and expose to the sheet of paper, and develop as directed
-on page <a href="#p030" title="go to p. 30">30.</a></p>
-
-<p>By exposing in this manner, instead of direct to the light
-(day or gas), the <span class="xxpn" id="p034">{34}</span>
-rays projected through the lens fall upon the dry plate quite parallel, so securing
-sharp negatives.</p>
-
-<p>In making reversed negatives for collographic printing when wet collodion
-is used, it is not absolutely necessary to use the mirror, as they may be made
-upon polished glass (<i>i. e.</i>, not albumenized) dried, then coated with gelatine,
-again dried, and stripped.</p>
-
-<p>Some brands of dry plates can also be stripped, by first of all, after drying,
-coating them with India-rubber solution, then with collodion, and soaking in
-dilute fluoric acid; but great care and patience must be exercised, the preliminary
-trials being made upon negatives of no particular value.</p>
-
-<div class="keeptogether">
-<h4 title="Stripping Collodion Films.">STRIPPING COLLODION FILMS.</h4>
-
-<p>Negatives made by the wet collodion process can be easily stripped from the
-glass support, and in such a condition are extremely handy, especially for
-printing on collographic plates, or on zinc or copper, as, the film being flexible,
-contact is more easily secured.</p></div>
-
-<p>When it is intended to strip the film, the glass plate must be polished, <i>not
-albumenized</i>, and after the negative is dried, strips of thick paper are pasted
-along the four sides of the negative, with starch, or a solution of gum tragacanth;
-the negative is then placed on a levelling stand and a sufficient quantity
-of the following warm solution of gelatine is poured upon the plate (which
-should be slightly warmed first) and spread all over it by means of a glass rod:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="stripping solution">
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">&#8199;2&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Sugar</td>
- <td class="tdleft padr">&#8199;1&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div>
-</div>
-
-<p class="pcontinue">Soak the gelatine in the water until soft, melt by gentle heat, then strain
-through two or three thicknesses of fine muslin, and pour upon the plate, using
-three ounces for a plate 12 × 10; more or less, in proportion for different sizes.
-The plate must be allowed to stay upon the levelling stand until the gelatine
-has quite set, then put it on a rack to dry, in a current of cold air, for if heat be
-used the gelatine will melt.</p>
-
-<p>When the gelatine is <i>quite dry</i>, pass the blade of a penknife all around
-underneath the strips of thick paper, when the negative film may be lifted
-away from the plate.</p>
-
-<p>In this condition the negative may be stored away without risk of being
-broken, the only condition being, it must be kept free from dampness. <span class="xxpn" id="p035">{35}</span></p>
-
-<p>Another plan of stripping is to coat the dry negative with a thick solution
-of India-rubber in benzole, and allow it to dry on a levelling stand; then coat
-with a thick plain collodion, to which a few drops of castor oil have been added.
-When the collodion film is quite dry, place the plate in a dish of clean
-water, strip off the film from the glass, then place the film between sheets of
-clean blotting-paper to dry, or it may be allowed to dry on the plate.</p>
-
-<p>Old collodion negatives that have been varnished may be stripped, but it is
-rather a risky operation, and should never be attempted until a really good
-carbon transparency has first been obtained.</p>
-
-<p>The first step will be to remove the varnish, which is effected by soaking the
-plate in</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="varnish removal solution">
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Ammonia</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">drachm.</td></tr>
-</table></div>
-</div>
-
-<p class="pcontinue">until all the varnish is removed, then rinse in alcohol, wash well under the
-tap, dry, paste slips of brown paper around the margin, and finally level and
-cover with the warm gelatine, dry and strip.</p>
-
-<div class="keeptogether">
-<h4 title="The Reversing Mirror.">THE REVERSING MIRROR.</h4>
-
-<p>The mirror is a piece of perfectly plane glass, coated on the surface with a
-thick film of pure silver, and highly polished. This silvered glass must be
-mounted in a mahogany box, and fitted on the front of the camera, the lens
-being fitted in front of the mirror, see Fig. 1. This mirror is placed in grooves
-at an angle of forty-five degrees from the axis of the lens. So situated, it
-receives the image projected by the lens, and reflects it on the focussing screen,
-or sensitive plate in the camera. By this means a negative is obtained, which,
-when looked through with the film between the operator and the glass, will
-present the image in its proper position, whereas, if the lens be used without
-the intervention of the mirror it will be necessary to have the glass between
-the eyes and the film, to get the image in its proper position, and as the generality
-of photographic negatives are taken without the intervention of the
-mirror, they are called ordinary negatives in contradistinction to those made
-through the mirror, which are called “reversed” negatives.</p></div>
-
-<p>The silver surface of the mirror requires great care and attention to preserve
-its lustre. If tarnished, it will make the exposure in the camera longer, besides
-which, the cost of resilvering is too great to allow of the surface being spoiled
-through carelessness. <span class="xxpn" id="p036">{36}</span></p>
-
-<p>At the end of each day’s work, remove the mirror from the box and warm
-it in front of the fire (not over a gas flame) just slightly, then wrap it carefully
-in a piece of fine velvet, which has also been previously warmed, then
-wrap it up in a piece of India-rubber or macintosh cloth, and put it in an air-tight
-box; by doing this, the mirror, if well silvered at first, will last for a
-year or two.</p>
-
-<p>If the surface should become tarnished, get a square of very fine chamois
-leather, and place in the centre a pellet of cotton-wool; then gather up the
-leather and tie the wool in the centre, making a small globe about an inch
-and a half in diameter; now warm the mirror, and after dipping the leather
-globe into fine rouge, proceed to polish gently with a quick circular motion,
-using little or no pressure—take care in doing this that the mirror, the leather,
-and the rouge are quite dry, else the silver coat will come away—<i>verb sap</i>.</p>
-
-<p>In purchasing a mirror be sure and get it large enough to take the cone of
-rays from the lens it has to be used with; for a lens three inches in diameter,
-the plane mirror should measure about 8&#160;×
-3&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub> inches.</p>
-
-<p>The box to hold this mirror should be made square at the side, fitting into
-the rabbet of the camera front, so that when objects are to be photographed
-that will do better lying on the ground than when fixed against the wall, the
-mirror can be placed to look down upon the object.</p>
-
-<p>For silvering the glass, one cannot do better than to quote the directions for
-working Common’s process given by Major Waterhouse in the <i>Photographic
-News</i>.</p>
-
-<p>“The solutions recommended by Mr. Common are three:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="silvering solutions">
-<tr>
- <td class="tdleft padr">(1)</td>
- <td class="tdleft padr">Nitrate of Silver</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr"></td>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">(2)</td>
- <td class="tdleft padr">Caustic Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr"></td>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">(3)</td>
- <td class="tdleft padr">Glucose</td>
- <td class="tdleft padr">&#8199;&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr"></td>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>The above quantities are suitable for 250 square inches, consequently, an
-ordinary copy mirror 8 × 6 would require rather more than two ounces of each
-solution, and other sizes in proportion.</p>
-
-<p>The caustic potash and distilled water must be quite pure. Ordinary caustic
-potash will not answer at all. The best to use is known as <i>pure by alcohol</i>.</p>
-
-<p>The glass surface to be silvered is carefully cleaned with strong nitric acid,
-applied, as recommended by Mr. Browning, with a Buckle’s brush,
-then well <span class="xxpn" id="p037">{37}</span>
-washed in clean water, and after rinsing with distilled water, laid, face downward,
-in a dish of distilled water until wanted.</p>
-
-<p>Before cleaning the glass, it will be necessary to arrange for supporting it
-face downward in the depositing dish, so that the surface to be silvered may be
-quite horizontal, and just below the level of the fluid, which should be about
-half an inch above the bottom of the dish.</p>
-
-<p>I have generally used a large cork, about four inches in diameter, cemented
-to the back of the plate, and fitted with three strings, by which it could be
-suspended in a level position and adjusted to any height by winding the string
-over a roller placed at a convenient height above the dish. When this
-arrangement is not available, I fix on the back of the plate two ordinary
-wide-mouthed bottle corks of equal thickness, in the positions shown in the
-figure, and to these corks attach thin slips of bamboo running transversely
-across the plate, and of sufficient length to rest on the sides of the dish, thus:</p>
-
-<div class="figright imwth09" id="fig03">
-<img src="images/i037.jpg" width="192" height="142" alt="" />
-<div class="caption"><span id="fig03caption">Fig. 3.</span></div>
-</div>
-
-<p>The slips of bamboo give the arrangement a certain
-amount of spring, by which the height of the plate can
-easily be regulated, by putting on weights until the surface
-of the plate is just below the level of the fluid in
-the dish.</p>
-
-<p>To prepare the silvering solution: A sufficient quantity
-of the silver solution, No. 1 (two ounces), is put
-into a perfectly clean glass. Ammonia is dropped in
-until the precipitate first formed is just redissolved.
-The same quantity of potash solution, No. 2, as of silver is now mixed in, and
-the precipitate again dissolved by ammonia. A little more silver solution is
-then added to produce a distinct turbidity, and distilled water to make up the
-quantity necessary to fill the depositing dish to about three-eighths or half an
-inch, and the mixture is then filtered through cotton into another clean glass
-vessel.</p>
-
-<p>The same quantity (two ounces), of filtered solution of glucose, No. 3, as
-was taken of silver and potash, is now mixed in, and the whole is poured into a
-depositing dish (which should preferably be of glass, well cleaned with nitric
-acid).</p>
-
-<p>The glass plate is then taken out of the distilled water and laid face downward
-on the silvering solution, being supported, as before described, just
-above the surface, so that the solution does not cover its back.</p>
-
-<p>Mr. Common places the requisite quantity of distilled water in
-the dish in <span class="xxpn" id="p038">{38}</span>
-which the mirror has been remaining face downward, and then, having lifted
-the mirror up, pours in the undiluted silvering solution, together with the
-glucose solution, stirs well together, and then carefully lowers the mirror again
-into the dish.</p>
-
-<p>Almost immediately after the immersion of the plate, the silvering action
-begins, and, if things are going on well, a brilliant reflecting surface will be
-seen at the back of the plate, and in forty minutes, or even less, a good deposit
-of silver will be obtained. It is usually recommended to stop the action as
-soon as the silvering fluid appears clear and free from turbidity, but it is not
-always easy to see this.</p>
-
-<p>After silvering, the plate is well washed, finishing with distilled water, and
-dried off quickly. A slight cloudiness of the surface may appear, and must be
-removed by polishing before the mirror can be used. It is better to allow the
-mirror to remain a day or so before polishing, in order to harden the coating.</p>
-
-<p>To polish the plate, it should be slightly warmed, and perfectly dry, and
-rubbed very gently in small circles with a piece of very soft and dry chamois
-leather, afterward using a little jewellers’ rouge.</p>
-
-<p>Mirrors should always be kept in a dry place, and will require repolishing
-from time to time.</p>
-
-<div class="chapter">
-<h3 class="nobreak" title="Chapter IV.
- Apparatus For Printing Upon Zinc." id="p039">
-CHAPTER IV.
-<span class="blksmaller">APPARATUS FOR PRINTING UPON
-ZINC.</span></h3></div>
-
-<p>A suitable negative (the subject being in line, <i>not half tone</i>) having been
-obtained, the next stage toward producing a relief block is to make from that
-negative a print in ink upon a sheet of zinc. To do this a sheet of polished
-zinc is first of all subjected to the action of a solution of nitric acid, alum, and
-water. It is then thoroughly washed, placed in a machine called a whirler,
-then coated with a solution of albumen (white of egg) and bichromate of
-potash; this coat or film of bichromated albumen should be dried over a
-spirit lamp.</p>
-
-<p>The negative is then placed, face uppermost, in a printing-frame, the coated
-side of the zinc in contact with the face of the negative. The negative is now
-exposed to the action of light.</p>
-
-<p>The exposure being complete, the frame is taken into a room lighted by
-yellow light, gas, or lamp-light, the zinc plate is removed, and its surface
-covered with a thin film of transfer ink, by means of a type-printer’s roller;
-then the zinc plate is immersed in clean cold water and the image developed
-by gently rubbing it with a pledget of cotton-wool.</p>
-
-<div class="keeptogether">
-<h4 title="Polishing The Zinc.">POLISHING THE ZINC.</h4>
-
-<p>Zinc plates suitable for photo-engraving can be obtained either in large
-sheets, or cut to size as ordered, and, when new, require polishing with a damp
-rag dipped in levigated pumice powder—<i>i. e.</i>, pumice powder washed in water,
-so as to get rid of all grit.</p></div>
-
-<p>Lay the plate upon a board covered with muslin and polish with a “from-and-to”
-the body motion, not circular; do not use a great deal of pressure,
-the object being to get the plate highly polished with a perfectly smooth
-surface.</p>
-
-<p>Plates that have been printed upon, and are not satisfactory, may be cleaned
-and repolished.</p>
-
-<p>Plates that are scratched require polishing with emery cloth. Scratches
-interfere with the picture. <span class="xxpn" id="p040">{40}</span></p>
-
-<p>To remove scratches, sprinkle the face of the plate with turpentine, then
-rub with a piece of FF emery cloth stretched over a carpenter’s cork-covered
-rubber. Use the same motion, to-and-fro, until all the turpentine has evaporated
-and the surface of the zinc is polished. If the scratches are removed,
-the plate is ready for use, but if not, then the operation must be repeated. If
-the scratches are too deep for emery cloth alone, first use a piece of fine pumice
-stone, followed by snake stone, pumice powder, rotten-stone, and rouge. Too
-much care cannot be taken with the zinc plate at this stage, for, after the block
-is etched, if it is discovered that the plate has not been properly polished, all
-will have to be done over again, entailing a loss of time, labor, and materials.</p>
-
-<p>Remember, that no matter what polishing agent is used, the plate must be
-polished with a to-and-fro from the body motion, not a circular motion such
-as is usual in polishing metal.</p>
-
-<div class="keeptogether">
-<h4 title="Graining The Plate.">GRAINING THE PLATE.</h4>
-
-<p>The next operation is to give the plate a slight tooth so that the sensitive
-solution will flow evenly over the surface. Do this by removing all traces of
-grease.</p></div>
-
-<p>This graining is done in a wooden tray, 24 inches by 18 by 6, lined with
-asphaltum or gutta percha and mounted upon rockers; it is quite necessary
-that the graining tray be of large size, as if only a little larger than the plate
-the returning wave of acid water will mark the edges of the zinc.</p>
-
-<p>Into this tray pour a quart of clean water, and add one drachm of nitric acid
-and one ounce of a saturated solution of common alum. Place the plate in
-this, face up, and commence rocking it at once or else the acid will mark the
-surface, and it will require repolishing; rock slowly for five minutes, during
-which time the polished surface will give way to a fine matt, like fine frosted
-silver. Now remove the plate and rinse it under the tap, rubbing it gently with
-a fine sponge, or a pledget of cotton to remove the scum or deposit formed by
-the acid. The surface at this stage should be quite smooth; if it is at all
-rough, the acid is too strong, and the solution must be diluted with water; if
-the action of the acid is very slow, then a little more must be added; but it
-will only be necessary to add more alum when the plate is a bluish color instead
-of being a pearly gray.</p>
-
-<p>A drop or two of acid will be required each time plates are to be grained.</p>
-
-<p>In rubbing with sponge, or a pledget of cotton when under the tap, care <span class="xxpn" id="p041">{41}</span>
-must be taken not to scratch the surface of the zinc, or else it
-will need repolishing.</p>
-
-<div class="keeptogether">
-<h4 title="Coating The Plate With Sensitive Albumen.">COATING THE PLATE
- WITH SENSITIVE ALBUMEN.</h4>
-
-<p>If the solution of albumen was poured over the plate and drained and dried,
-the film would be too thick at the bottom and too thin at the top; it is, therefore,
-necessary, to insure an even film of sensitive albumen, to subject the plate
-to a quick circular motion, so as to spread the film of albumen evenly, and to
-get rid of the surplus solution. This is effected by placing the grained zinc in
-the jaws of an instrument called a whirler and made as follows:</p></div>
-
-<p>Two pieces of wood, each half an inch thick, twelve inches long, nine inches
-wide at one end, and six inches at the other; upon the narrow end of one piece
-fix four screws, a piece of iron the shape of a
-<img class="glyph-a"
- src="images/heavy-up-and-horizontal.jpg" width="40" height="60" alt="┻" />,
-the top end of which is shaped
-to fit into the socket of a carpenter’s brace (which must have the centre handle
-revolving, not fixed); the cross piece must be flat, and pierced with four holes,
-countersunk to admit of stout screws.</p>
-
-<p>Place the two pieces of wood together, the
-<img class="glyph-a"
- src="images/heavy-up-and-horizontal.jpg" width="40" height="60" alt="┻" />
-piece between the two, and with
-a piece of stout leather hinge the two together, nailing the leather not only on
-the outside, but upon the top also; now screw a narrow batten on each of the
-pieces, about an inch from the widest end, to keep the wood from warping.</p>
-
-<p>Four inches from the top (the hinge being the top) bore a hole through both
-pieces, and pass through a couple of strong leather laces; by one end fix these
-on the outside of the cheek to which the iron
-<img class="glyph-a"
- src="images/heavy-up-and-horizontal.jpg" width="40" height="60" alt="┻" />
-is screwed, and on the outside
-of the other cheek, seven inches from the top, hinge a piece of wood (so as to
-fall toward the bottom) 5 inches by 2 by
-<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>&#xfeff;;
-and in the centre of the batten
-screwed on to prevent warping, fix a broad-headed nail or a turn-button, over
-which the free end of the leather laces can be passed.</p>
-
-<p>Now about half an inch from each end drive through the wood, six or eight
-wire nails one inch long in a line, and so that the points project on the inside
-of each cheek. Next fix the top of the iron into the socket of the brace and
-the whirler is ready for use.</p>
-
-<p>To use this instrument, lay it upon the bench, raise the upper jaw, place the
-grained zinc behind the teeth (face out) close the jaw, and after seeing that the
-face of the zinc is close up to the teeth, tighten the shoe lace, pass it over the
-hinged piece (which is lying down close to the cheek), and around the batten
-with two or three turns, then pass it back and tie the loose ends around the
-iron shank at the top; then raise the hinged piece, which by
-straining on the <span class="xxpn" id="p042">{42}</span>
-leather laces will cause the jaws to grip the zinc plate tight and hold
-it in position. (See Fig. 4.)</p>
-
-<div class="imctr05" id="fig04">
-<img src="images/i042.jpg" width="348" height="361" alt="" />
-<div class="caption">Fig. 4. The Whirler.</div>
-</div>
-
-<p>Now lift up the whirler from the bench, grasping the handle of the brace
-firmly in the right hand. Hold it at arm’s length, and by a series of quick
-jerks set the plate revolving.
-This will require a little
-patience to do evenly and
-rapidly, but with practice it
-will become quite easy.</p>
-
-<p>The plate is coated twice,
-whirling it after each application
-of the sensitive mixture.
-The whirler is then laid upon
-the bench, and the hinge piece
-let down. This relaxes the
-strain upon the leather laces,
-and allows the jaw to be lifted
-and the plate removed.</p>
-
-<p>An inverted revolving egg-beater
-may be made to serve
-for the same purpose.</p>
-
-<div class="keeptogether">
-<h4 title="Drying The Coated Zinc.">DRYING THE COATED ZINC.</h4>
-
-<p>The film of albumen now
-requires drying, which should
-be done over a spirit lamp. The best form of lamp is one of the small pocket
-spirit stoves sold by ironmongers, and having the three supports for a kettle
-cut away. The zinc is held over the flame and kept in constant motion, so as
-to dry the film as quickly and evenly as possible; no fear need be felt at
-applying too great a heat so long as the metal can be held comfortably in the
-fingers. When dry, the plate is ready for printing upon.</p></div>
-
-<p>For drying large plates, two or more of these stoves would be required, but
-it is very easy to extemporize a suitable arrangement, by laying a large pad of
-cotton saturated with spirits of wine in a tin dish, and setting it on fire; by
-this means a stove of any desired dimensions can be prepared quickly. To
-extinguish such a flame, cover it with a large sheet of zinc.</p>
-
-<p>It must be borne in mind that the film on the zinc is now very sensitive to <span class="xxpn" id="p043">{43}</span>
-light, therefore the preparation of the film must be done in a yellow light, as
-must also the operation of placing it in the printing-frame, inking up, and
-development; gas or lamp light may be used, as the film is not sensitive to
-artificial light of a low actinic power.</p>
-
-<div class="keeptogether">
-<h4 title="The Printing Frame.">THE PRINTING FRAME.</h4>
-
-<p>The printing-frames used for this purpose must be of the box pattern, fitted
-with stout plate-glass fronts, the cross bars behind being fitted with wooden
-screws, instead of springs, as absolute contact can only be obtained between
-the surfaces of the glass negative and zinc plate by means of
-screw-pressure.</p></div>
-
-<p>The front glass of the printing-frame must be kept perfectly clean, and
-especial care must be taken that no grit be upon either glass, inside the frame,
-or on the back of the negative, else the negative will be broken.</p>
-
-<div class="keeptogether">
-<h4 title="Timing And Exposure.">TIMING AND EXPOSURE.</h4>
-
-<p>The time of exposure to light is measured by means of an actinometer,
-which is simply an instrument in which is a strip of sensitive paper, exposed
-under a graduated series of different thicknesses of translucent paper, each
-division or gradation being distinguished by a number, thus: No. 1 has only
-one thickness of paper over it; No. 2, two thicknesses, and so on. But on
-account of the ever varying intensity of the light, a screen actinometer that is
-reliable is almost an impossibility. The best must be closely watched in a
-bright light, so that the tints are changed evenly.</p></div>
-
-<p>Johnson’s actinometer is very simple and handy; it consists of a cubical box
-with two lids, the inner one serving to press the paper in contact with the glass
-of the outer lid; the outer lid has a circular opening with a narrow rectangular
-strip in the centre transparent, the rest of the glass being covered with pigment
-the color assumed by the sensitive paper after exposure to the light. When
-the strip of sensitive paper inside has assumed this color, it is called one tint;
-the strip of paper is then pulled forward, and another portion, quite white is
-brought under the transparent portion of glass, and when the light has turned
-that the color of the pigment, that counts two tints, and so on. The paper
-used in the actinometer is ordinary albumenized paper.</p>
-
-<p>The exposure of zinc in the printing-frame under a good line negative, will
-be about six or eight tints in diffused light, but in direct sunlight the exposure
-may be timed by the watch, a suitable line negative never requiring more than
-from three to five minutes. <span class="xxpn" id="p044">{44}</span></p>
-
-<div class="keeptogether">
-<h4 title="Inking The Exposed Zinc.">INKING THE EXPOSED ZINC.</h4>
-
-<p>The sensitive zinc having been exposed to light under the negative, next
-cover the surface with a thin coating of litho-transfer ink, stone to stone.</p></div>
-
-<p>For this purpose we require a type-printer’s composition roller, mounted
-upon a litho stock. This roller must be perfectly smooth and cast in a solid
-mould, as the line along the side, formed by a split mould would render it
-useless for inking up a zinc plate. A roller eight inches long by five or six
-inches in diameter is a useful size. We also require an inking slab, a palette
-knife, a bottle of turpentine, with the cork cut so that the turpentine can be
-sprinkled out without having to remove the cork, a tin of transfer ink, and a
-linen cloth or two.</p>
-
-<p>The inking slab may be made of smooth iron, or a suitable lithographic
-stone is good.</p>
-
-<div class="chapter">
-<h3 class="nobreak" title="Chapter V. Printing on the Zinc in Albumen." id="p045">
-CHAPTER V. <span class="blksmaller">PRINTING ON THE ZINC IN
-ALBUMEN.</span></h3></div>
-
-<p>The negative being ready for printing, select a piece of zinc a little larger
-each way than the picture, polish, then grain, and after well washing it under
-the tap and gently rubbing it with a fine sponge, or a pledget of cotton-wool,
-place it in the whirler; again rinse under the tap, now invert the whirler and
-set it revolving; then examine the surface of the zinc and see that there is no
-dirt on the surface, but that it is quite smooth. If it is not, rinse it again
-under the tap, and rub it gently with the sponge, and again rinse. This should
-quite free the zinc from any deposit of dirt. Now whirl it so as to get rid of
-as much as possible of the water, then pour over the surface of the zinc sufficient
-to cover it, of the following solution (carefully filtered through cotton-wool):</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution for printing on zinc">
-<tr>
- <td class="tdleft padr">Albumen of one Egg.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">7</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Saturated Solution of Bichromate of Potash</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-</table></div>
-</div>
-
-<p>Place the white of egg in a bottle containing a lot of small pieces of perfectly
-clean glass, then add the water and shake it well for a minute; then add
-the solution of bichromate and again shake it well. Now place a pledget of
-cotton-wool in the neck of a glass funnel, and pass a few ounces of clean water
-through (if this is not done, there will be difficulty in getting the albumen to
-filter); drain as much as possible of the water away, and then filter the albumen
-into a clean bottle; when all the solution has gone through, remove the cotton-wool
-from the funnel, which well wash, then recharge with a fresh pledget,
-pass some water through, and again filter the albumen solution through, this
-time into a ten ounce glass-measure, which is to be used for pouring from
-upon the zinc. The stem of the funnel should be long enough to reach the
-bottom of the glass measure, so that the formation of air-bubbles be avoided,
-which is impossible with albumen if the funnel is not below the surface of the
-filtrate.</p>
-
-<p>Of this, pour over the zinc sufficient to well cover the surface, letting
-any surplus go into the sink; then set the whirler revolving, coat
-again, and <span class="xxpn" id="p046">{46}</span>
-again whirl; now examine the surface, and if it is free from dust, spots, and
-air-bubbles, remove the zinc and dry it over the spirit stove. But if either
-air-bubbles or dust be present, wash them off under the tap, and begin again.</p>
-
-<p>The film being dry, get the printing frame ready, see that the surface of the
-glass inside is quite clean and free from grit, as also the back of the negative,
-taking special care that the ridge of varnish which often forms at the bottom
-of the negative be removed, as the slightest inequality of surface will surely
-cause disaster directly the screws exert their pressure.</p>
-
-<p>Do not lay the negative into the frame flat upon the glass, but slide it in
-from one side, so as to carry any dust away from the glass front of the printing
-frame.</p>
-
-<p>The negative being in the frame, film side up, lay the coated zinc upon it,
-face down, judging the proper position and placing the zinc flat down upon the
-negative; now put a piece of brown paper over the back of the zinc, then place
-the back of the printing frame in place, fasten down the cross bars and apply
-the pressure screws, evenly and gently.</p>
-
-<p>Do not screw one side tight before the other has been touched, but screw
-down so as to tighten all as evenly as possible.</p>
-
-<p>Even pressure being applied, see that the front of the frame is clean, and
-then expose to direct sunlight for five minutes. Remove the frame to the
-dark-room, unfasten the cross bars and remove the zinc, taking great care to
-avoid scratching its film against the film of the negative.</p>
-
-<p>After wiping the inking slab with clean linen place a piece of the transfer
-ink, about the size of a small bean, upon the upper corner, sprinkle this with
-a little turpentine, and mix them with the palette knife until they are of about
-the consistency of printing ink.</p>
-
-<p>Now with the palette knife spread some of this mixture as far as possible
-over the inking slab, and then distribute it with the composition roller. Roll
-to and fro, across and diagonally, until there is a thin, even coating of ink all
-over the slab (not touching the corner where the ink was mixed with the turpentine)
-and upon the roller; if the mixture is too dry and refuses to spread,
-sprinkle on a little more turpentine, but do not use too much, else it will take a
-long time to evaporate.</p>
-
-<p>The roller having a coat of rather moist ink spread evenly upon it, place the
-exposed zinc, face up, on a piece of clean white paper, and proceed to roll it
-briskly to and fro, using a moderate amount of pressure, until the whole of
-the turpentine has evaporated; it should leave a thin coat of
-ink with an even <span class="xxpn" id="p047">{47}</span>
-matt surface, not thick enough to quite hide the yellow film of the sensitive
-albumen, as, if it does hide it, too much has been put on, and it will most likely
-smear in development.</p>
-
-<p>If, after first applying the roller, the ink on the zinc seems likely to be too
-thick, at once wipe the roller dry, and then roll the zinc briskly until the coat
-of ink is perfectly even and the turpentine evaporated.</p>
-
-<p>At this stage everything depends upon getting the coat of ink even. If there
-are patches of thick and patches of thin, sprinkle some turpentine upon the
-slab, quickly charge the roller, and roll up the zinc again, until the coat of ink
-is thin and even.</p>
-
-<p>An even coat of ink being obtained, the zinc is laid in a tray containing
-clean cold water of a sufficient depth to well cover the surface. Now take a
-pledget of cotton-wool and rub the surface gently, when the ink covering the
-albumen protected from light by the black portions of the negative, will wash
-away, leaving the picture on the zinc in ink; if the finer details do not develop
-easily, continue the rubbing with the cotton-wool, but be careful not to rub so
-hard as to scratch the ink lines.</p>
-
-<p>All details being developed, rinse the picture under the tap and put it away
-to dry, which at ordinary temperature will take but a few minutes.</p>
-
-<p>The chances of failure in this portion of the process are, first of all, air
-bubbles and dust spots in the film. These will at once declare themselves.
-The remedy, is increased care and cleanliness.</p>
-
-<p>If, upon development, some of the lines are missing, then the zinc and the
-negative have not been in actual contact, or if the finer lines wash away easily,
-then the exposure has not been long enough; whilst if it has been too long,
-either the finer details are covered up or the whole refuses to part with any ink.</p>
-
-<p>A satisfactory print, showing all the lines of the original having been
-obtained, dry, by first blotting off the water, then by gentle heat, after which
-the zinc is ready for the etching room.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p048"
- title="Chapter VI. Printing on Zinc in Bitumen.">
- CHAPTER VI. <span class="blksmaller">PRINTING
- ON ZINC IN BITUMEN.</span></h3></div>
-
-<p>The process described in the previous chapter is most suitable for printing
-on zinc, for blocks that are not overburthened with fine lines, and is intended
-for rough printing; and also, when from want of sunlight, and the exigencies
-of business, the exposure has to be made by electric light; but when the subjects
-are very fine, and the blocks must be of the very best, it will be better to print
-the image in bitumen; then the first etching can be done without having to
-ink up previous to immersing in the acid bath (which must be done after
-developing the inked albumen image), so getting the sharpest possible results,
-and also securing better depth to close work than when the inking up has to
-be done before biting in.</p>
-
-<p>Now the generally accepted idea of bitumen is, that it requires such a long
-exposure to light as to be practically useless, except for direct sun printing;
-but that only stands good where the bitumen is not prepared properly and
-where too thick a film is used upon the plate.</p>
-
-<p>By preparing the bitumen as described below and taking care to have a very
-thin film of the sensitive bitumen upon the zinc plate, then the exposure either
-to sunlight or electric light is not more than double that of albumen.</p>
-
-<p>There is one especial virtue in a bitumen film. If by chance too much
-exposure to light has been given, a prolonged immersion in the developing
-liquid (turpentine) will remedy the defect, whereas if an albumen image be
-over-exposed it is quite spoiled, and the work must be done again.</p>
-
-<p>We are still upon the subject of line work, and the same class of negative
-desirable for printing on an albumen film is necessary for printing upon
-bitumen, viz., the lines must be clear glass without veil, and the rest of the
-negative must be sufficiently opaque to stop the passage of light.</p>
-
-<p>The sensitive solution of bitumen is made by procuring a small quantity of
-photographic bitumen or asphaltum, and powdering it in a clean, dry mortar.
-Next take a clean and dry glass beaker, half filled with methylated ether, and
-pour into it the powdered bitumen, stirring with a glass rod for a few minutes;
-now cover the beaker with a piece of thin sheet India-rubber, and upon that <span class="xxpn" id="p049">{49}</span>
-place a piece of plate glass, so as to make the vessel as nearly air-tight as possible.
-Allow to stand a few hours, then stir up again, and again allow to stand,
-this time all night. Then pour away the ether, draining the liquid as closely
-as possible, so as to get rid of all those constituents which are soluble in the ether.
-Now add some more fresh ether, stir thoroughly, and again allow to stand and
-settle, putting on the cover as before, so as to prevent evaporation. After
-again settling, the ether is poured off, and all liquid and semi-liquid matter
-carefully drained away. More ether is added, and the operation is repeated
-until the added ether, after standing all night, is nearly or quite colorless. The
-residue in the beaker is removed to a glass plate and spread out over its surface,
-so that any ether remaining may quickly evaporate. During this evaporation
-of the ether, the bitumen must be protected from the action of white light.</p>
-
-<p>By thus purifying with ether we get rid of those constituents of the bitumen
-which are not sensitive to light, and thus we secure a film of bitumen sensitive
-to the action of light.</p>
-
-<p>When the ether has evaporated, take of the residue half an ounce and dissolve
-it in pure benzole (free from water) fifteen ounces, allow it to stand all night,
-then filter it through filtering paper (placing a sheet of glass over the funnel to
-prevent evaporation). It will keep six months.</p>
-
-<p>New zinc plates will require polishing first with rotten stone, and finishing
-with rouge, but plates that have been used should be first polished with fine
-emery cloth, followed by pumice powder, then by rotten stone, and finished
-with rouge, remembering that a circular motion must not be used.</p>
-
-<p>If, after polishing, the surface is at all greasy, immerse it in the graining
-bath used for the albumenized plates, wash well and rub away the scum; then
-with a perfectly clean piece of blotting paper, remove the water from the surface
-and dry it over the spirit flame.</p>
-
-<p>To coat a piece of zinc with bitumen, place it in the whirler, and when fixed
-in position, dust the surface with a clean camel’s-hair brush; then flow over it
-sufficient of the filtered bitumen solution in benzole, then lower the whirler
-and set it in motion; whirl rapidly for about a minute. This will equalize the
-coat or film of bitumen and get rid of superfluous solution. When taken from
-the whirler the plate will be ready at once for the printing frame. These
-plates do not deteriorate, and a stock of them may be prepared and stored
-away in the dark till wanted. Great care must be taken not to allow the
-slightest ray of daylight to fall upon them, else the action once set up, will
-continue, and spoil the plate. <span class="xxpn" id="p050">{50}</span></p>
-
-<p>On examining the zinc plate after removing it from the whirler, it will be
-difficult to realize that there is really a sufficient film of bitumen on the zinc,
-but there will be quite sufficient.</p>
-
-<p>In printing upon bitumen from negatives that have been varnished, it will
-be as well to rub the varnished surface of the negative with a pledget of cotton
-dipped in dry French chalk.</p>
-
-<p>The same care in putting into the printing frame, as enjoined in the chapter
-on zinc printing with bichromated albumen, is requisite with these plates, as is
-also the applying the pressure by means of the screws. The exposure to light
-will vary from ten minutes in the sun, to two or three hours in the shade.</p>
-
-<div class="keeptogether">
-<h4 title="Developing The Image.">DEVELOPING THE IMAGE.</h4>
-
-<p>To develop, place the exposed plate, face up, in a shallow tin tray, and
-pour into the tray sufficient turpentine to cover the plate; rock the tray so as
-to keep the solution in motion, and (if the exposure has been right) the image
-will gradually make its appearance; the bitumen protected from the action of
-light by the dense portions of the negative gradually dissolves away. As the
-development approaches completion, great care must be used, and when the
-last detail is visible, remove the plate, and rinse it with water from a rose top;
-now, if the image is quite perfect, immerse the plate at once in a mixture of
-nitric acid and water, the acid being just strong enough to taste. Keep the
-tray containing this acid solution rocking for about a minute, then remove
-the plate, and wash it thoroughly, rubbing it very gently with cotton-wool.
-If the exposure under the negative has been barely sufficient, the image will be
-too delicate for touching, so before rubbing it with the cotton-wool, try some
-portion of the margin, and if that stands the friction, it is all right; if not,
-be content with rinsing with water.</p></div>
-
-<p>The immersion in the acid water will have removed the shiny appearance of
-the zinc, and the matt surface will enable the operator to see if all the requisite
-details of the image are visible. If not, and they are covered with bitumen,
-another immersion in the turpentine will complete the development; but if any
-of the lines are rotten or the details are dissolved away, the exposure has been
-too short, and the plate will require repolishing and another exposure.</p>
-
-<p>The image being satisfactory, the water is blotted off with clean blotting
-paper and allowed to dry. <i>Don’t use heat for drying.</i> It may then be exposed
-to light for a few minutes. This is not absolutely necessary, although it tends
-to make the image finer. The plate is now ready for etching in relief.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p051"
- title="Chapter VII. Direct Transfers to Zinc.">
-CHAPTER VII. <span class="blksmaller">DIRECT TRANSFERS
- TO ZINC.</span></h3></div>
-
-<p>We have now treated of the various stages necessary to obtain a photographic
-transfer upon zinc, from a drawing or engraving, in line, in dot, or in stipple,
-first by making therefrom, in the camera, a negative—same size, reduced, or
-enlarged—and from that negative a print on zinc, either in ink on an albumen
-basis, or in bitumen.</p>
-
-<p>These transfers can be used, either for yielding re-transfers for lithographic
-press, or (as is at present our intention) for etching into relief, for use as blocks
-for printing from letter-press.</p>
-
-<p>Before proceeding to instruction for etching these photographic transfers into
-relief, we will consider the method of dealing with the direct transfer of drawings,
-in line or chalk, to zinc, without the intervention of photography.</p>
-
-<p>For direct transfers to zinc, the picture is drawn by the artist the exact
-dimensions of the finished block; if in line, on ordinary lithographic writing
-transfer paper, in ordinary lithographic writing ink, just in the same way that
-an ordinary line subject is treated for ordinary lithography.</p>
-
-<p>If the subject is in chalk, it may be drawn on a grained lithographic stone,
-which is rolled up, etched, washed out, again rolled up, then the transfer is
-pulled; or the picture may be drawn upon specially prepared transfer paper,
-like Josz’s polygraphic transfer paper, or other grained paper made for the
-purpose; or the subject may already be on stone, as a lithograph, or it may be
-a copper-plate engraving, in which case transfers are pulled and then put down
-upon zinc in the ordinary way.</p>
-
-<p>In making drawings on lithographic transfer paper, great care must be taken
-to avoid touching the surface with the fingers, as finger-marks will transfer and
-roll up black. In line work all lines must be firm and black; no attempt
-must be made to get effect by using thin or pale ink.</p>
-
-<p>In chalk work, also, the drawing must be firm and strong, and the corrections
-and alterations made on the transfer, not left to be done on the stone. If the
-corrections or alterations are small, they may be removed with an ink eraser, or
-by careful washing with turpentine, so that all the chalk is
-removed; if the <span class="xxpn" id="p052">{52}</span>
-correction be large, paste a piece of clean transfer paper over the place, spreading
-the paste as thin as possible; gum must not be used.</p>
-
-<p>The drawing on transfer paper being obtained, the next step is to transfer it
-to stone; then, after rolling up and proving, another transfer is made, which is
-to zinc.</p>
-
-<p>From an engraved copper plate a transfer is made on India or upon Scotch
-transfer paper, on either a copper-plate press or a lithographic press, and then
-transferred direct to the zinc.</p>
-
-<p>The engraved copper plate is first of all examined to see that all the old ink
-is out of the lines; if not, wash with turpentine and wipe quite dry; then, in
-a piece of clean linen rag, tie up some plate re-transfer ink; warm the copper
-plate, either on the hot plate or over a Bunsen burner, until it can be barely
-held in the hand; then, holding it in a piece of cloth to protect the fingers, rub
-in the ink tied up in the linen rag, until sufficient is melted to well cover the
-surface, taking care to see that the ink is rubbed well into the lines. Then
-take a piece of clean, soft rag and wipe off the ink from the surface of the plate
-carefully, so as not to remove it from the reversed lines; this is best secured by
-wiping across the lines, not with them. When the surface of the plate is quite
-free from ink, rub the lower part of the palm of the hand upon a ball of
-whiting, and proceed to polish the surface of the plate. Do not get too much
-whiting upon the hand, else it may stick to the ink and prevent it adhering to
-the transfer paper.</p>
-
-<p>Now place a piece of clean transfer paper (India or Scotch), a little larger
-than the plate, face downward upon a piece of clean paper, sponge the back
-with a damp sponge, then let it lie a few minutes, so as to get evenly damp all
-through.</p>
-
-<p>Now see that the press is ready. If a copper-plate press is to be used, see
-that the bed is free from grit, and that the blankets are in place; if a lithographic
-press is to be used, put in a stone, wipe it free from grit, and see that
-the scraper is all right; remove the tympan if of leather, but if of zinc or millboard
-it is all right. Now put the inked and polished copper plate upon the
-stone, and the damp transfer paper, face down, upon the copper plate; then
-upon the transfer paper place a piece of printer’s blanket, turn down the
-tympan, or put a piece of thin millboard over the blanket, run the bed of the
-press under the scraper, turn down the lever, and, if necessary, adjust the
-pressure (a good nip is necessary), then run the bed through; now raise the
-lever, pull out the bed, lift the tympan and blanket, reverse
-the plate, and pull <span class="xxpn" id="p053">{53}</span>
-through again. Now gently warm the plate, and carefully lift away the
-transfer paper, which should contain the picture with every line firm and
-sharp; if it is not so, sufficient pressure has not been used, or the transfer paper
-has been made too damp, or sufficient ink has not been put into the lines.</p>
-
-<p>The transfer, either drawn in line or in chalk, or from a plate, being obtained,
-it is next transferred to a polished litho stone. Of course, the picture can be
-at once transferred to the zinc which it is intended to etch, but it will be found
-best to first of all transfer to stone, then from the stone pull a transfer, and
-transfer that to the zinc, so that in case of an accident during the etching
-another plate can be quickly prepared. Before placing them upon the stone,
-the prepared transfers should lie in a damping book until evenly damp.</p>
-
-<p>Now take a polished litho stone and place it in front of a fire or in the sun
-until it is quite dry, then place it upon the bed of the press, and adjust the
-pressure; then place the transfer upon the stone in such a manner that it lies
-without any slurring. Next place a piece of clean paper upon the transfer,
-then the blanket, lower the tympan, run in the carriage, lower the lever, and
-pull through; then lift the lever, draw back the carriage, turn the stone round
-and pull through again, then sponge the back of the transfer with water and
-pull through again, repeating the damping, and pulling through three or four
-times. Now with a wet sponge saturate the back of the transfer with water,
-and lift away the paper, then wash away the composition, leaving the image
-on the stone; now cover it with thick gum solution, and allow it to dry.</p>
-
-<p>If more than one transfer is in hand at a time, they are trimmed as closely
-as possible and pasted with very thin paste close together upon a large piece of
-paper, and then all can be transferred at one operation.</p>
-
-<p>The gum upon the stone being dry, wash it off carefully with clean water,
-then roll up with transfer ink. Clean away any dirt there may be with sponge
-and snake stone; where the snake stone cannot be used, a piece of pointed wood,
-dipped into acid gum, will clear way the dirt. Take care to have the wet
-sponge handy so as to prevent the acid spreading upon the work; now roll up
-as strong as possible, then etch, by passing over water acidulated with nitric
-acid of such a strength that it just slightly effervesces when the stone is touched;
-saturate a sponge with the weak acidulated water and go gently over the stone,
-then with another sponge charged with clean water, wash off the acid. Now
-again roll up with transfer ink as strong as possible, and pull the transfer.
-Chalk drawings are transferred to stone in the same way, then etched, but the
-acid water is allowed to act a little longer than for a line transfer,
-and after <span class="xxpn" id="p054">{54}</span>
-washing away the etching solution, the picture is washed out with clean turpentine,
-then wiped with a sponge, gummed in, fanned dry, moistened with a
-wet sponge, and the water removed. Then the image is rolled up with transfer
-ink, and the transfers pulled for subsequent etching.</p>
-
-<p>To transfer to zinc, take a piece of polished zinc and immerse it in the graining
-bath (page <a href="#p040" title="go to p. 40">40</a>) for about a minute; then remove it, wash it under the tap, and
-rub it with soft sponge; then wipe it dry with a soft rag, and warm the plate
-slightly; lay it upon a litho stone in the press, lay the transfer (which has
-been lying in the damping book) upon the zinc plate; lay upon the transfer
-the piece of blanket, lower the tympan and pull through; then damp the back
-of the transfer, pull it through again; then reverse the plate, dampen the back
-of the transfer, pull through again; again dampen the back of the transfer, and
-again pull through; now saturate the transfer with water, peel off the paper,
-remove the composition, and apply with a sponge a sufficiency of a solution of
-gum (thickness of cream), 5 ounces; decoction of nutgalls, 10 ounces. The
-decoction of nutgalls is made as directed on page <a href="#p056" title="go to p. 56">56.</a></p>
-
-<p>Allow this to stay on the zinc for about a minute, then wash off, cover with
-plain gum, fan dry, and dip a sponge in gum and rub over the plate; now dip
-a soft rag into the gum, then into the etching ink (page <a href="#p057" title="go to p. 57">57</a>) mixed with a little
-cocoanut oil or mutton fat and middle varnish, continuing the application of
-gum and ink until the whole of the picture is sharp, black, and strong. Be
-sure and keep the plate well covered with gum and the ink as thick as possible.</p>
-
-<p>The plate is now dusted with finely powdered resin, sponged with a wet
-sponge, and then is placed in the etching trough containing water and just
-sufficient nitric acid to taste; in this the plate remains about half a minute,
-rocking the etching trough gently all the time; now remove the plate, wash it
-under the tap, rubbing gently back and front with a sponge, then dry by gentle
-heat; next coat the back, edges, and margin and portions of the front which
-are too large to etch away, with thin shellac varnish. When dry proceed to
-etch as directed in the next chapter.</p>
-
-<p>Instead of inking up with the rag after etching with the acid gum, wash off,
-then roll up with a leather roller charged with the etching ink mixed with a
-little cocoanut oil, and used as stiff as it is possible to work it, until the image
-has taken in all possible, damping the zinc with a sponge directly it shows any
-signs of getting dry; then dampen slightly, and repeat as above. Next immerse
-it in the etching bath as before; wash well, and dry; coat the back, edges and
-margin on the front with shellac varnish, when the plate will be ready for
-etching.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p055"
- title="Chapter VIII. Etching Line Transfers.">
- CHAPTER VIII. <span class="blksmaller">ETCHING
- LINE TRANSFERS.</span></h3></div>
-
-<p>For etching transfers on zinc, whether photographic or direct, we shall
-require the following apparatus: A slab of iron about 24 × 18 inches and
-<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub> or
-1 inch thick, supported horizontally upon four legs, and heated by an atmospheric
-burner, arranged somewhat like a gridiron so that the heat is even all
-over. A set of rollers on litho stock, one of leather, one of flannel, and one
-or two glazed rollers, the same as lithographers use for tint printing—we also
-require an etching box—<i>i. e.</i>, a wooden tray, 30 × 24 inches, and 8 inches deep,
-well made of seasoned wood, lined with either pitch (with a little tallow added),
-or gutta-percha, and mounted upon rockers.</p>
-
-<p>This box will require a firm table for its support during the etching, said
-table standing as close as convenient to a sink and water tap.</p>
-
-<p>The other requisites used during etching, are, nitric acid, turpentine, gum
-Arabic of a good quality, some powdered nutgalls, three or four sponges, some
-finely powdered resin, a flat camel’s-hair brush, a solution of shellac in
-spirits of wine, and the following inks:</p>
-
-<p>First the etching ink, composed of beeswax one-quarter ounce, Russian
-tallow two ounces, bitumen half an ounce, middle varnish two ounces.</p>
-
-<p>Melt these together in a pan over a fire, or Bunsen burner, stirring well
-during the operation, so as to mix them thoroughly; when all are melted, add
-five ounces of ordinary letterpress printing-ink, and thoroughly mix; then
-allow to boil and continue the heat until the gas escaping from the bursting
-bubbles explodes upon the application of a lighted taper; then remove all from
-the fire, and allow to cool.</p>
-
-<p>For a hard ink, for use after the plate is etched deep enough, and the resist
-is cleaned off, mix</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="hard ink recipe">
-<tr>
- <td class="tdleft padr">Beeswax</td>
- <td class="tdleft padr">&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Resin</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Shoemaker’s Wax</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Black Litho Ink (about $1 a pound)</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft" id="p056">ounces.</td></tr>
-</table></div>
-</div>
-
-<p>Melt, then cool and mix with turpentine to make it the consistency of soft
-soap.</p>
-
-<p>Now, with these and a solution of gum Arabic (in cold water), the thickness
-of cream, add one-quarter pint of a decoction of nutgalls to each quart of gum
-solution. The decoction of nutgalls is made by adding one-quarter pound of
-bruised nutgalls to one and one-half pints of water, in an earthenware vessel
-(not metal); boil, then allow to stand at the fire and simmer gently for six
-hours, keeping the vessel covered over; then allow to cool, filter and add the
-proper quantity to the above gum solution.</p>
-
-<p>We will assume that a suitable place is provided for carrying on the operations
-to be described, in the shape of plenty of bench room, and a good light
-to work by.</p>
-
-<p>The first stage in etching a zinc plate in relief is, to slightly warm it upon
-the hot plate, then allow it to cool (by-the-bye, it will be very convenient to
-have a clean litho stone handy for placing the plate upon to cool quickly).
-The plate being cold, with a piece of soft sponge carefully smear it over with
-the gum solution, allow the gum to dry, spontaneously, in a cold current of
-air; if heat be applied the gum will crack and bring away the image from the
-plate.</p>
-
-<p>Whilst the gum is drying, with a palette knife place equal parts of transfer
-ink (page <a href="#p044" title="go to p. 44">44</a>) and of etching ink
-(page <a href="#p054" title="go to p. 54">54</a>) upon one corner of the inking slab,
-then thin to the consistency of cream, with middle varnish, thoroughly incorporating
-the three ingredients with the palette knife.</p>
-
-<p>Now place a little of this ink upon the leather roller and roll vigorously
-upon the slab, so as to distribute the ink thoroughly upon both roller and slab;
-be careful not to get too much ink on the roller, nor to have it too thin; in
-fact, work the ink as stiff as is possible.</p>
-
-<p>Now lay the zinc upon a piece of clean paper, and sponge it gently over
-with a wet sponge, so as to loosen the film of gum, then squeeze the sponge
-nearly dry, and pass it over the plate again, so as to insure it being evenly
-damp all over, but be careful not to make it too dry.</p>
-
-<p>Now proceed to roll up, by passing the charged roller to and fro over the
-plate, using moderate pressure and slow motion, recharging the roller at short
-intervals from the inking slab. Occasionally use the damp sponge so as to
-keep the plate sufficiently damp to resist the ink.</p>
-
-<p>If the roller slides instead of rolling, wipe it with an old linen rag, which
-will remove the moisture; then recharge the roller again upon
-the slab. <span class="xxpn" id="p057">{57}</span></p>
-
-<p>The rolling is continued until the whole image is an intense black, when it
-is carefully dusted over with very finely powdered resin applied with a broad
-camel’s-hair brush, taking care that all the image gets covered. Then rub it
-gently with a wet, soft sponge and place it in the etching box containing a
-mixture of water and nitric acid, the acid being only just perceptible to the
-taste.</p>
-
-<p>The plate should remain in this for one minute (the box being kept rocking);
-it is then removed, and thoroughly washed back and front under the tap.
-Rub it gently with a clean soft sponge.</p>
-
-<p>This etching is merely to remove any traces of gum or dirt from the zinc
-which would interfere with the shellac varnish holding.</p>
-
-<p>Now dry the plates, using gentle heat, then coat the back with thin shellac
-varnish to protect it from the acid; do the same to the margin of the picture
-on front, also varnish the centre of any very broad whites up to half an inch
-of the image, so that the acid dissolves no more zinc than is necessary. Now
-examine the image carefully, and if any of the lines are defective touch them
-up, and make any alterations and additions required.</p>
-
-<p>The plate is now ready for the first etching, for which purpose a little nitric
-acid is added to the water in the etching tray—precise directions cannot be
-given as to how much acid to add, as so much depends upon the area of zinc
-on the plate that requires dissolving; practice, however, will soon enable the
-operator to judge the proper quantity. If too much acid is added, the plate
-will quickly be covered with myriads of minute bubbles, in which case it must
-be instantly removed, well washed, and the bath diluted with water before the
-plate is reimmersed. If, on the other hand, there is too little acid present, the
-action is too slow, and more must be added.</p>
-
-<p>The first etching must be carefully watched, and the rocking continued, until
-the application of the finger-nail to the margin shows that the zinc inside has
-been dissolved away to a depth of about the thickness of a visiting card.</p>
-
-<p>The first etching is the most important of the whole, as unless a sufficient
-depth be attained the sharp lines will not be obtained; and as the ink is not
-yet capable of resisting too strong acid, great care must be taken that the work
-is not damaged; proceed cautiously, adding acid from time to time as required.</p>
-
-<p>As a rule, the first etching will take from five to ten minutes (the tray being
-kept rocking all the time).</p>
-
-<p>When it is judged that the first etching has been carried far enough, remove
-the plate from the tray, wash it well under the tap, rubbing gently with
-a <span class="xxpn" id="p058">{58}</span>
-sponge, so as to remove the scum left by the acid, dry by means of gentle heat,
-then allow it to cool.</p>
-
-<p>When the plate is quite cold, smear it over with gum solution, and with a
-piece of cardboard, fan the gum dry.</p>
-
-<p>Now sprinkle the inking slab with turpentine, and with a cloth wipe the
-slab clean. Take a piece of etching ink and thin it with middle varnish,
-mixing them well with the palette knife upon the slab; now take the leather
-roller, and with the palette knife place a little of the ink upon it, and roll up
-on the slab until both roller and slab are well coated; but on no account must
-there be too much ink, nor must it be too thin.</p>
-
-<p>Now lay the zinc down on the bench, on a piece of clean paper, and with
-the wet sponge carefully wash off the gum; then wipe all superfluous water
-off the plate, and roll up with the leather roller charged as above; roll the
-plate first one way, and then the other, keeping the zinc evenly damp all over,
-else the ink will catch in the whites, and probably spoil the picture. When
-the rolling is completed, and as much ink as possible has been piled on, the
-zinc will be nearly dry. If not, allow it to stand in a cold current for a little
-time, then take it to the drawer in which the powdered resin is kept, and
-smear the plate all over with the powder. Now brush as much of the resin
-away as will come, using the brush from all sides, so that all the lines get
-evenly coated, not only on the top, but upon the sides; this being done, take a
-damp sponge and carefully remove the superfluous resin from the whites, or
-unprotected zinc.</p>
-
-<p>The plate is now ready for the second etching, and the solution in the etching
-tray must be reinforced by the addition of a little acid; but do not add
-too much at once. It will be far best to add a little at a time, and then, as
-soon as the zinc shows there is no action going on, add a little more; an easy
-and simple method of ascertaining whether any acid be present or not is to
-wipe the bare metal with the tip of the finger, and if that spot (which will be
-brighter than the surrounding parts) does not speedily resume its dingy color,
-the acid is exhausted.</p>
-
-<p>The plate being immersed in the solution, set the tray rocking, and pay
-attention to the remarks above. At the end of ten minutes remove the plate
-from the tray, wash it under the tap, rub it gently with soft sponge, then remove
-as much of the water as possible, and examine the progress made by the acid.
-This can be seen by the lines being bare below the ink, in which case the
-etching has been carried far enough, and if not stopped, there would be
-danger <span class="xxpn" id="p059">{59}</span>
-of under-cutting; if, however, no progress has been made, add a little more
-acid to the solution, replace the zinc, and rock again for another five or ten
-minutes.</p>
-
-<p>The second etching being effected, the zinc is carefully washed, and the scum
-left by the acid is carefully sponged away; now stand the zinc up near the hot
-plate, so that it will get the benefit of a gentle heat, and when quite dry lay it
-upon the hot plate (which should be heated to a temperature of 120° to
-150°&nbsp;F.) face up, with a piece of brown paper between the zinc plate and the hot
-plate.</p>
-
-<p>As soon as the zinc plate begins to get hot, there will be a tendency to curl
-slightly away from the hot plate, which, if allowed, would prevent the ink
-being evenly melted. To prevent this, take a brad-awl in each hand, and press
-down the sides of the zinc, taking care not to touch any of the picture.</p>
-
-<p>Allow the zinc to remain on the hot plate until the ink and resin are melted
-and run down to the bottom of the etching, then remove it and lay it on the
-cold slab until the plate is cold.</p>
-
-<p>When cold, smear the plate with the gum solution, fan it dry (<i>never use heat
-for drying the gum</i>), moisten with wet sponge, roll up again (use the leather
-roller), using the ink pretty stiff on the inking slab; keep the surface of the
-zinc well moistened. When the roller gets too much water upon it, pass a piece
-of damp cheese-cloth over it to remove the water; then roll the roller vigorously
-on the slab until it again bites the ink. Continue rolling the zinc until all
-portions have received due attention from the roller. N. B.—Some of the
-closest work will be quite blocked up this time, and each subsequent rolling
-will block up more and more, until only the very open work will be left.</p>
-
-<p>Now allow the zinc to get dry, then cover it with resin, brushing from all
-sides, so as to coat the sides of the lines as well as the top, and then remove
-all superfluous resin from the whites with a damp sponge. The zinc is now
-ready for the next etching, for which more acid is added to the solution in
-the etching tray.</p>
-
-<p>Rock the tray carefully, watching the zinc to see that the acid is neither too
-weak nor too strong, until the progress can be seen by examining the plate;
-the time, with the proper quantity of acid, is twenty to thirty minutes.</p>
-
-<p>When the etching has proceeded far enough, after washing and sponging,
-again allow it to dry, then place it upon the hot plate until the ink is melted
-and runs down the sides of the lines; then cool, smear with gum, fan dry,
-moisten with sponge, and roll up as before; dry, cover with resin,
-using a <span class="xxpn" id="p060">{60}</span>
-camel’s-hair brush, then dampen with a sponge and give a fourth etching, using the
-same precautions as to strength of acid and duration of rocking as before.</p>
-
-<p>Now cool the plate; get a little more ink on the roller, and roll the plate
-whilst cold. When the surface of the lines has a nice even coat of ink upon
-each and all (coarse and fine), again warm the zinc on the hot plate until it is
-just too hot to hold in the fingers; then cool it again, varnish the back with
-shellac varnish, then make a mark with a blunt point, in the ink on the
-margin, so as to lay a short line of zinc bare to the action of the acid.</p>
-
-<p>The round of operations is repeated; but for rolling up for the fifth and
-subsequent etching, a flannel roller is used, and more ink will be required upon
-the slab; it will also require to be a little thinner.</p>
-
-<p>For some subjects six or seven etchings will be required, whilst for others—especially
-where there are whites that are too small for cutting out with a
-fret saw or router—ten or twelve etches will be required. Practice, the best
-teacher, will soon enable the operator to judge how many are required.</p>
-
-<p>The etching having been carried as deep as is judged sufficient, sprinkle the
-plate liberally with turpentine, and with a stiff scrubbing brush loosen the ink
-from the lines, and wash it off with a solution of American potash.</p>
-
-<p>The plate being cleared from all ink, etc., is now examined carefully. The
-sides of the lines will show each etching, by a series of irregular steps. If the
-plate be put into the press in this condition, the chances are that before many
-copies had been made, these steps would take more or less ink from the rollers,
-and blur the image; therefore, before passing it into the hands of the printer,
-the plate will require etching two or three times more, to get rid of these
-irregularities.</p>
-
-<p>This is done by warming the zinc on the hot plate, and then, whilst still
-warm, rolling up with a fine glazed roller charged with the hard etching ink
-from a clean inking slab.</p>
-
-<p>Roll the zinc firmly, first one way and then the other, so that all the tops of
-the lines get well coated with ink; now make a mark on the margin with a
-blunt point in the ink, so as to lay a short line of zinc bare to the action of
-the acid.</p>
-
-<p>Next empty the etching tray, put into it some clean water, and add sufficient
-acid to make it taste like strong vinegar; in this immerse the plate, and keep
-rocking for ten or fifteen minutes, or until the mark on the margin, when felt
-with the finger-nail, shows that it has attained a depth about the same as that
-obtained in the first
-etching. <span class="xxpn" id="p061">{61}</span></p>
-
-<p>Now wash the plate under the tap, and wash off the ink with turpentine,
-followed by a solution of American potash; again wash and dry on the hot
-plate. Now examine, and if the lines are free from the steps, the plate is
-finished, but if not, the operation must be repeated until the steps are all
-removed.</p>
-
-<p>Be careful to cover the surface of the block thoroughly with the ink, else the
-acid will spoil the picture.</p>
-
-<p>The plate is now ready either for mounting for the press, or for electrotypes
-being taken from it; if the former, the deep whites are cut away with the
-router or fret saw, the edges are trimmed or bevelled, holes are drilled and
-counter-sunk at convenient places, for the insertion of nails or screws to fix the
-zinc to the wooden block, to make the surface type high.</p>
-
-<p>The object aimed at in the instruction in Part I. is the production of relief
-blocks on zinc from an original in black and white, which original may be a
-drawing made purposely for reproduction, or it may be from a drawing already
-in existence, a woodcut, or engraving, the picture being rendered entirely in
-line, or a chalk drawing may be used. In fact, any subject that is capable
-of being worked from either at a type press or by ordinary (monochrome)
-lithography. Washed drawings, or oil or water color drawings are not
-applicable.</p>
-
-<p>In fixing plans, or drawings on the easel, prior to photographing them, if
-they are cockled, and difficult to get flat, pins may be placed anywhere, so
-long as the lines are not interfered with, for these pins may be painted out
-with a camel’s-hair brush and gamboge or Indian ink. It is important that
-the plans or drawings be as flat as possible, as if the lines are cockled, they
-will not be photographed straight.</p>
-
-<p>In photographing drawings on tracing paper or cloth, a piece of white paper
-should be placed behind them.</p>
-
-<p>When, from an original of black lines on a white ground, it is desired to
-make a reverse block—<i>i. e.</i>, white lines on a black ground—a negative is first
-made from the original, and from that negative a transparency is made; and a
-print made upon the zinc from that transparency will be a reverse of the
-original.</p>
-
-<p>Thus far I have tried to make plain the details of a process which is as
-fascinating and as pretty as any in photography, and which supplies results
-which could not be attained by the most expert workers two years ago. And
-since those experts first obtained even tolerable results by zinc etching,
-like <span class="xxpn" id="p062">{62}</span>
-everything else in photography, it has made wonderful progress. At first we
-were delighted and content when a block was obtained with relief sufficient to
-enable us to print it upon an ordinary press with type. But now we can get
-from the zinc surface all the qualities which are given by the lithographic stone.
-Indeed, the process of zincography bears a very strong general resemblance to
-that of lithography; of course, it varies therefrom in matters of process detail.
-The manipulations of zincography, however, are no more complicated in their
-nature than the details of printing, etc., from stone. Crayon drawings, ink
-work in line and stipple, rubber work, in fact, anything that can be drawn on
-stone can be drawn on properly prepared zinc, with the exception of engraved
-lines (intaglio), the structure of the zinc not giving the yielding brittleness of
-stone. The great departure made possible by zinc plates exists in the fact that
-they can be bent to the surface of a cylinder, thus displacing the reciprocating
-bed and stop-cylinder of the lithographic press with the continuously rotating
-plate and impression cylinder of the zincographic press, which, at the same
-driving speed, produces double the number of impressions printed on the lithographic
-press. To Mr. Bernard Huber, of the Huber Printing Press Company
-of Taunton, Mass., belongs the credit of designing the only American zincographic
-press in existence, and which is now in successful operation in several
-lithographic establishments. It is a thoroughly American machine in design
-and construction, and while no glowing prophecies of its immediately taking the
-place of lithographic presses are indulged in, yet this kind of press has its
-place and use, and will by its qualities win favor in the trade.</p>
-
-<p>Many lithographers are beginning to give correct attention to zincography,
-but few are willing to give the time and constant experimenting to the subject
-that has been given by Messrs. Harris &amp; Jones, who during the past three years
-have operated the zincographic presses in their lithographic establishment
-known as the Providence Lithograph Co. Having taken the selling agency
-of the Huber zincographic press, they offer to those who <i>buy</i> the press full
-instructions in zincographic surface printing.</p>
-
-<p>These suggestions are given right here, first because we are now about to
-take a step higher in zinc etching—a step which will lead us to results which
-lithography can scarcely equal in some particulars—and second, because it is
-the policy of this work to withhold no information which the novice will need
-in supplying himself with a perfect outfit for doing the best of work. For the
-same reason the advertisers have been chosen, rather than received in the
-usual way.</p>
-
-<div class="chapter">
-<h2 class="nobreak" title="Part II. Photo-engraving in Half-tone."
- id="p063">PART II. <span class="blksmaller">PHOTO-ENGRAVING
- IN HALF-TONE.</span></h2>
-
-<h3 class="nobreak" title="Chapter I. Retrospective.">CHAPTER I.
-<span class="blksmaller">RETROSPECTIVE.</span></h3></div>
-
-<p>The former chapters have treated entirely upon the production of blocks in
-line—<i>i. e.</i>, where the picture has been made by a draughtsman, the half-tones
-and gradations being communicated by a greater or less thickness of line, or by
-dots, or stipple, or hatching.</p>
-
-<p>The picture for such blocks may have been specially drawn for the process,
-the same size or larger, or it may be a copy of some woodcut or engraving
-already in existence, but if it is desired to reproduce blocks from drawings,
-paintings, or photographs, then an entirely different method must be adopted,
-and the smooth gradations of half-tone levelled, so to speak, so as to bring the
-high lights and the shadows upon one plane.</p>
-
-<p>In photographs from nature (or from washed drawings or paintings) the
-scale of gradations runs, as it were, in a series of short steps from the deepest
-shadow to the highest light, and a block made, say in bichromated gelatine,
-from such a negative can give no half-tones, as the inking roller could only
-touch the deep shadows properly.</p>
-
-<p>Now the subject of making photographs applicable for the illustration of
-letter-press, instead of woodcuts, has occupied the attention of experimentalists
-from the early days of the art-science, as the records of the Patent Office show.</p>
-
-<p>The first patent, dated 1852, bears the honored name of Mr. Fox Talbot,
-and although it is for intaglio printing, and therefore a little out of place under
-the above heading, still it claims our attention as giving a method for breaking
-up the half-tones of the photograph, by placing muslin, crape, etc., between the
-photographic cliche and the sensitive surface; or a glass plate may be covered
-with fine lines, or glass may be coated with powder, which is caused to
-adhere. <span class="xxpn" id="p064">{64}</span></p>
-
-<p>In 1854, Paul Pretsch broke up the half-tone by the reticulation of gelatine,
-caused by the admixture with iodide of silver and bichromate of potash; this
-was spread upon a silvered copper plate, dried, and exposed to light under the
-half-tone negative, then washed in cold water and borax, or carbonate of soda,
-then in alcohol, coated with copal varnish, and immersed in a weak solution of
-tannin, after which an electrotype could be made, or a transfer made to zinc
-or stone.</p>
-
-<p>In 1855, A. J. Berchtold produced a grain by printing upon a photograph
-in black or in any color, from a plate or block or other surface, or by perforating
-or making strokes, lines, or dots upon it, by roller or other instrument.
-Repatented in 1883, by Brown, Barnes, and Bell.</p>
-
-<p>In 1860, E. J. Asser used starch, and in 1865, J. W. Swan used a tissue
-of gelatine mixed with charcoal or other chemically inert grit; in the same
-year Messrs. E. &amp; J. Bullock published, perhaps, the most important specification,
-describing all, or nearly all, practical methods of obtaining grain, the most
-important of which are the placing of any fine fabric between the lens and the
-sensitive surface, or between the camera and the object, or copies of granulated
-or recticulated structures or fabrics could be used, or such copy could be placed
-in contact with negatives, and both copied together.</p>
-
-<p>In 1879, J. W. Swan made negatives by moving, during exposure, the
-Bullock’s screen, placed in front of a sensitive plate. Meisenbach’s method,
-patented a little later, is somewhat similar.</p>
-
-<p>If a Woodbury relief is thinly coated with transfer ink, and then laid upon
-a piece of ordinary litho transfer paper which has been embossed with lines, or
-dots, or stipple, by being pressed in contact with wire gauze or an engraved
-plate, and the inked relief and the embossed litho transfer are then subjected to
-heavy pressure, a grained image is impressed upon the transfer paper, which
-can be transferred to zinc, and then etched in relief.</p>
-
-<p>The method of making a grained negative to be now described, shortly
-stated, is done by interposing a screen, either before the sensitive plate in the
-dark slide of the camera (when copying a photograph) or placing the screen
-behind a transparency on glass when transmitted light is used. In the first
-instance the image projected upon the sensitive plate, having first to pass
-through the screen, is broken up by the dots upon the screen, the result being a
-definite grained negative. In the second instance, the screen being placed in
-contact with the transparency, a similar result follows. The first method is
-most generally used, as the print does not require the careful focussing necessitated
-by the second.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p065"
- title="Chapter II. Making Grained Negatives.">
-CHAPTER II. <span class="blksmaller">MAKING GRAINED NEGATIVES.</span></h3></div>
-
-<h4 title="The Screen.">THE SCREEN.</h4>
-
-<p>For making grained negatives, the apparatus, chemicals, and manipulations
-described in Chapters I. and II., Part I., for line negatives, are required, with
-perhaps a little increased care to secure clean and bright negatives.</p>
-
-<p>The first requirement will be a proof, on fine white paper, from a machine-ruled
-plate, or a plate with fine dots or stipple; a favorite being plates ruled
-diagonally and straight, either in single lines or crossed. These plates must be
-of good size, say 18 by 15, ruled with lines as fine as possible, 100 or 150 to
-the inch. The ruled sheet must be perfect, as any defect in it will be fatal.</p>
-
-<p>Such a proof being secured, it should be carefully mounted with starch paste
-upon a stout piece of smooth cardboard, and should be carefully shielded
-from all chances of being soiled, as the slightest stain or mark upon it will
-unfit it for use. As such a fine line is very difficult to focus, especially in
-making the smaller screens, it will be found a good plan to cut four narrow
-strips of good, bold type, and paste these at the four corners of the sheet, just
-outside the ruling; these slips of type will be easy to focus, and will render the
-task of making the screens easier.</p>
-
-<p>Plates ruled with single lines, either diagonally or horizontally, may be used
-instead of the cross ruling, and are by many preferred.</p>
-
-<p>Those in possession of a ruling machine may make these ruled sheets by
-ruling a large litho stone, and pulling impressions from that stone. If this is
-done once, and done well, the sheets will last a lifetime; and if the stone be
-sufficiently large, and the lines very fine, the screens may be used for blocks
-15 by 12 inches or larger.</p>
-
-<p>To copy this ruled sheet, remove the mirror from the lens, and put the lens
-in the camera in its ordinary position; then pin up the sheet on the easel, and,
-after seeing that the easel and camera are quite parallel, proceed to make a
-series of negatives from the sheet, making screens of various degrees of fineness,
-varying from a coarse grain for a coarse photograph, to the finest possible
-for <span class="xxpn" id="p066">{66}</span>
-photographs full of delicate half-tone, and from three inches to ten inches wide.
-Many subjects will need screens made especially for them. The screens must
-be free from speck or stain, and should be made upon very thin glass.</p>
-
-<p>The nitrate bath should be in good condition, and the collodion ripe. Such
-negatives take a good deal of time making, but as they are the foundation of
-the process, and with care will last for years, the trouble must not be grudged.</p>
-
-<p>The screen negatives being made, they must be varnished with a good, hard,
-well-filtered varnish, applied in a room quite free from dust.</p>
-
-<p>The screens must be made by the wet collodion process. The ordinary
-gelatine dry-plate is utterly useless for such work. Gelatino-chloride plates
-might do, but the exposure is so very long that there is risk of shaking the
-camera during exposure.</p>
-
-<div class="keeptogether">
-<h4 title="The Grained Negative.">THE GRAINED NEGATIVE.</h4>
-
-<p>For the first method a good vigorous photograph is selected, placed in position
-on a copying board, and the camera adjusted so as to get the image on the
-focussing screen the size wanted the mirror being used, as the negative must
-be reversed.</p></div>
-
-<p>A collodion plate is now prepared and well drained; then one of the transparent
-screens is fixed in front of the carrier by drawing pins, by passing strips
-of gum paper over, or by fixing with fine tacks a piece of thin card at the top,
-and one at the bottom, slightly overlapping the screen, and holding it firmly in
-a sort of rebate.</p>
-
-<p>The carrier is now placed in the dark slide, the sensitive plate in its place,
-the door of the slide closed and fastened.</p>
-
-<p>The exposure is now made in the camera, and if the screen is properly
-transparent the time will not be very much more than when copying in the
-ordinary way.</p>
-
-<p>The development of the exposed plate is done by means of the developer
-given in Chapter I., and the result must have all the details of the photograph,
-while the lines of the screen must be clear and free from veil.</p>
-
-<p>The negative is washed, fixed in cyanide, washed again and then intensified,
-first immersing it in the solution No. 1, Chapter I., until bleached, then thoroughly
-washed and blacked with No. 2 solution, again washed, and varnished
-with the water varnish, or dried and varnished with benzole varnish.</p>
-
-<p>For the second method we shall require, instead of a paper photograph, a
-transparency on
-glass. <span class="xxpn" id="p067">{67}</span></p>
-
-<p>The transparency may be made on a gelatine dry-plate by printing in
-contact with the negative, or an enlarged transparency may be made, either on
-a dry plate or by the wet collodion process.</p>
-
-<p>The transparency should be made by contact, when the original negative is
-of larger size than the block required; the enlarged transparency is used if
-the negative be smaller or the same size as the block.</p>
-
-<p>The development of the transparencies on gelatine dry-plates will be treated
-of later, but if wet collodion be used, the manipulations will be the same
-as for negatives, except that the image is in reverse gradations, the lights
-being clear glass, and the shades
-dense and black. Every detail
-in lights, shadows, and half-tones
-must show distinct and strong.</p>
-
-<div class="figright imwth06" id="fig05">
-<img src="images/i067.jpg" width="312" height="318" alt="" />
-<div class="caption">Fig. 5.</div>
-</div>
-
-<p>For the production of these
-enlarged transparencies, an enlarging
-camera will be required, which
-may be provided by having an
-arrangement in front of the ordinary
-camera, fitted like the accompanying
-figure, consisting of two
-boxes, one sliding within the
-other, the negative from which
-the transparency is to be made
-being placed in a carrier at B.</p>
-
-<p>In the illustration the sides are
-shown open, but only for simplicity,
-as they must be quite opaque. In using such an arrangement, the
-camera must be brought under the skylight of the studio, and the light reflected
-through the negative, by placing a large sheet of white paper at an angle of
-forty-five degrees in front of the negative.</p>
-
-<p>Another and perhaps better method will be to cut a hole in a dark-room
-at a proper height for the camera, and fix the negative in the hole, then adjust
-the focus upon the screen, illuminating the negative by means of a reflector
-fixed at an angle of forty-five degrees.</p>
-
-<p>The transparency being secured, it is varnished, and all blemishes or spots
-removed by means of a sable brush, and a little carmine color; it is then
-placed in contact with a suitable screen, and the two together are inserted in
-the <span class="xxpn" id="p068">{68}</span>
-place previously occupied by the original negative. Now adjust the camera so
-as to get the image on the focussing screen the proper size, and proceed to
-make a grained negative by the wet collodion process exactly as described in
-Chapter II., Part I., and above. When a negative containing all the details
-of the original negative broken up by the fine grain of the screen is obtained,
-it may be dried and varnished, and then it is ready for printing upon the zinc.</p>
-
-<p>All pinholes, etc., should be stopped by means of a fine sable brush and
-Indian ink. The printing on the zinc should be done by the bitumen process,
-Chapter VI., Part I., as the albumen is not nearly so perfect. If, however, the
-albumen process be preferred, the printing is done in the same way as described
-in Chapter V., but extra care must be taken, first, that the zinc plate is thoroughly
-and evenly polished; secondly, that the graining bath is kept weak with
-plenty of alum in, so as to have the grain on the plate as fine as possible;
-thirdly, that no speck of dust, dirt, or any air-bubbles be on the film after
-coating, and that the whirling be effectually done so as to get the sensitive
-coating as even as possible.</p>
-
-<p>The inking up requires no comment, as it must be done as evenly and thinly
-as possible, for both line and half-tone.</p>
-
-<p>In development, a little more energetic friction will be necessary, but extreme
-care must be taken not to abrade the ink surface. Continue the rubbing
-until all the details are developed, and bear in mind that the finished block
-will be exactly like the zinc after development.</p>
-
-<p>In printing these half-tone zincs, it often happens (like printing in silver)
-that to get the best results some portions will require less exposure than others.
-The best way to stop back any portion or portions, is to cover the front glass
-of the printing frame with whiting mixed with water to the consistency of thick
-cream; apply with a rag over the places in the negative, before exposing to
-light, and at the end of one-third, or in case of very deep shades, one-half the
-exposure, clean off the whiting and finish the exposure without any obstruction
-to the light.</p>
-
-<p>The exposure to a grained half-tone negative will be one-half to double as
-long as a simple line negative.</p>
-
-<p>A perfect print on the zinc must contain all the grain intact, for if there is
-any break in its continuity, it is of no use to proceed further with it.</p>
-
-<p>The printing in bitumen requires no more comment than to say care is
-necessary to avoid dust. The smallest speck will be likely to spoil an otherwise
-perfect print.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p069"
- title="Chapter III. Etching in Half-tone.">
- CHAPTER III. <span class="blksmaller">ETCHING IN
- HALF-TONE.</span></h3></div>
-
-<h4 title="When The Print Is In Albumen.">WHEN THE PRINT IS IN ALBUMEN.</h4>
-
-<p>The zinc plate with the image upon it in ink, is dried, then warmed slightly
-on the hot plate, cooled, and coated with thick gum* and fanned dry (not dried
-by heat, or the gum is certain to crack and bring away the image or part of
-it); then wash it under the tap, and rub it gently with a fine sponge so as to
-remove all gum from the ink, but not from the zinc. Next proceed to roll up
-as directed in Chapter V., using the India-rubber roller charged with stiff ink.
-The surface of the zinc should be kept well covered with water. Use as little
-pressure as possible, but let the motion be fairly rapid, and if any portions of
-the image should smear, roll rapidly with slightly increased pressure.</p>
-
-<div class="footnote" id="Footnote_2_2">
-<p class="pfn">* See page
-<a href="#p055" title="go to p. 55">55,</a> Part I., Gum and Nut-galls.</p></div>
-
-<p>This operation of rolling up the image is the crucial one, for unless it is
-done properly, when it is finished, the result is a strong black and perfectly
-even image; it is of no use proceeding further with it, for in fact the picture
-must be perfect.</p>
-
-<p>The rolling up being done, any touching up that may be required can now
-be done, and any fine details clouded over, or made indistinct by the grain,
-strengthened or opened out. Additions should be made with transfer ink
-thinned with turpentine, laid on with a very fine sable brush. The whites are
-put in by scratching through the ink with a fine etching needle.</p>
-
-<p>To rest the hand upon in doing this touching up, so as to avoid touching
-the image, a bridge is used made of a strip of smooth wood, one inch wide,
-quarter of an inch thick, and sufficiently long to well span the plate; at each
-end of this strip nail narrow strips a quarter of an inch thick to serve as the
-feet for the bridge to stand upon. Then the zinc may be slid under it
-without touching the surface against the under part of the bridge.</p>
-
-<p>The zinc is now ready for the first etching in the rocking tray. The nitric
-acid solution must be very weak indeed to the taste, the presence of acid being
-just perceptible. The time of immersion in the first bath must not
-be longer <span class="xxpn" id="p070">{70}</span>
-than thirty seconds; then the zinc is removed, washed under the tap, and
-gently rubbed with a sponge; dry it gently on the hot plate, allow the zinc to
-cool, coat it with gum, fan it dry, rinse it under the tap and rub it with a sponge;
-then again roll up, when it is ready for the second etching; that is done in the
-same bath as the first, without any addition of acid. Keep the tray gently
-rocking for three minutes, then again withdraw, wash it under the tap, rubbing
-with sponge, coat with gum, fan dry, wash under the tap rubbing gently with
-sponge, and again roll up, using the ink on the roller a little thicker, but stiff.
-When the image has taken the ink equally, place it on the hot plate and allow
-the zinc to get hot enough to melt the ink slightly; then allow it to cool, and
-place it in the etching bath, slightly reinforced with a few drops of nitric acid.
-Immerse it this time for five minutes.</p>
-
-<p>The operations of washing, gumming, rolling up, etc., are to be repeated
-until it is judged that the etching has been carried far enough. The time of
-immersion in the acid solution with each etching may be lengthened, but take
-special care to keep the bath weak until near the last etching, when the strength
-may be slightly increased.</p>
-
-<p>The resist is cleaned off with turpentine and a stiff brush, and then a proof
-is pulled. If further etching will improve it wholly or in part, the plate is
-inked up and again subjected to the action of the acid bath.</p>
-
-<p>If only portions require reëtching, cover the rest with bitumen varnish; but
-it will be scarcely safe to give more than one etching after cleaning off the
-original resist.</p>
-
-<div class="keeptogether">
-<h4 title="When The Image Is In Bitumen.">WHEN THE IMAGE IS IN BITUMEN.</h4>
-
-<p>A bitumen image is etched in the first bath in which the acid is just perceptible
-to the taste, without any preliminary rolling up. The duration of the
-first etching may be prolonged for three or five minutes; then the plate is withdrawn
-and well washed. Remove any scum with a soft sponge; then dry it in
-a cold current, and smear it with gum, fan it dry, and roll up with a leather
-roller charged with stiff ink, until all portions of the image have taken a film
-of ink. Now reinforce the nitrate bath with a few drops of nitric acid, and
-again immerse the plate, rocking the bath for ten minutes; watch the picture
-carefully so that in case of undercutting the plate may be removed before any
-mischief is done.</p></div>
-
-<p>The plate is again removed, washed, rubbed with a sponge, and dried; it
-is <span class="xxpn" id="p071">{71}</span>
-then warmed on the hot plate, so as to slightly melt the ink, then allowed to
-cool, smeared with gum, fanned dry, damped over with a wet sponge, and
-rolled up, the roller being charged with stiff ink. The plate is now ready for
-another etching, for which the bath must be strengthened by the addition of
-more acid. The immersion (rocking all the time) may be fifteen or twenty
-minutes, after which the plate is withdrawn, washed, rubbed with a sponge,
-and if it is thought another etching would improve it, the cycle of operations
-is repeated, beginning with warming the zinc on the hot plate.</p>
-
-<p>After the resist is cleaned off (which with bitumen must be done first with
-turpentine and then with benzoline) further etching may be given, if deemed
-necessary, first inking up well with the hard ink mentioned in Chapter VIII.,
-and then reimmersing in a weak bath of acid and water. If only a portion
-requires reëtching, those parts that are not to be touched, are protected by
-coating with bitumen varnish.</p>
-
-<p>The plate being etched, now requires finishing.</p>
-
-<p>The outside zinc is removed with a circular saw and then the edges are filed
-and holes drilled at an angle, so that the metal can be fixed upon the
-block.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p072"
- title="Chapter IV. Printing from the Block.">
- CHAPTER IV. <span class="blksmaller">PRINTING
- FROM THE BLOCK.</span></h3></div>
-
-<p>A half-tone block to give results commensurate with the care needed in its
-preparation, must be handled by the machine man with care and consideration.</p>
-
-<p>The blanket on the tympan or cylinder must be replaced with something
-harder, else the soft pressure of the blanket will blur the print.</p>
-
-<p>The block must also be made ready, not by putting cut-outs on the tympan
-or cylinder, but underneath the block, and there as thin as possible.</p>
-
-<p>The ink must be good and not too thin; the rollers must be free from flaws
-and not too tacky. In fact, as much care is required on the press as during the
-photographic and subsequent operations. Indeed photo-engraving and zinc
-etching would have come into popular use more rapidly than they have, if
-printers had been willing to give them the special “making-ready” attention
-they require. Despite all prejudice and indifference, “process-engraving” so
-called, has made continuous improvement ever since it came into use, and the
-good work goes on. The most delicate gradations of light and shade discernible
-in nature, may, from the photographic plate, be rendered in pure black and
-white by means of any of the methods given in this work. All that nature
-displays, and all that imagination compels, may be reproduced indefinitely.</p>
-
-<p>With regard to the storage and keeping of zinc blocks after using, Mr. T.
-Bolas, in the <i>Photographic News</i> of September 24, 1886, says, “they should not
-be washed with the usual lye, but should have a few drops of paraffine oil poured
-upon them; and after this has been well rubbed in by a soft brush kept for the
-purpose, the paraffine should be well wiped away with a soft cloth. If the
-block is to be stored away for a long time, it should be waxed. The best
-way of doing this will be to make it rather warmer than is necessary to melt
-wax, and then to rub it over with a piece of yellow bees’-wax, after which the
-excess is wiped off with a piece of flannel.”</p>
-
-<p>Sometimes zinc blocks are electroplated with copper or nickel (a necessity
-when they are to be used for certain color work), and such blocks should also
-be treated in the same way as the bare zinc, as they cannot be safely cleaned
-with the lye solution.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p073" title="Chapter V. The
-Transfer of the Drawing, and Its Treatment Before
-Etching.">CHAPTER V.
-<span class="blksmaller">THE TRANSFER OF
-THE DRAWING, AND ITS TREATMENT BEFORE
-ETCHING.</span></h3></div>
-
-<p>According to the methods of producing them, classify the drawings as
-follows:</p>
-
-<p>(<i>a</i>) Freehand drawings in crayon or ink, drawn with lithographical chalk
-on rough paper, or with pen and chemical Indian ink on paper prepared for
-transferring.</p>
-
-<p>(<i>b</i>) Lithographical transfer of engravings, pen-and-ink crayon drawings,
-or drawings on stone.</p>
-
-<p>(<i>c</i>) Transfers from relief plates made in copper, steel, zinc, or lead (music).</p>
-
-<p>(<i>d</i>) Anastatic transfers.</p>
-
-<p>(<i>e</i>) Fat or resin prints from photographic negatives.</p>
-
-<p>Proceed as follows:</p>
-
-<p>(<i>a</i>) <i>Transfer of hand-drawing.</i>—Place the drawing to be transferred with its
-face upon a sheet of clean, white paper, and moisten the back with a weak
-solution of nitric acid
-(<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>&#xfeff;°&nbsp;Baumé),
-by means of a sponge. Over-moistening
-causes obliteration of the drawing, fringing of the single lines, and the running
-together of the hatched portions. The correct degree of moisture can be ascertained
-when the side prepared and drawn upon grows slightly sticky, and when
-the drawing becomes glossy. This will take place in from four to five minutes
-after moistening. This time is to be spent in arranging the zinc in the press,
-after having freed it from all greasiness. Place a card on the rolling press
-below the drawing and the zinc; above it, a sheet of good blotting-paper, a
-sheet of Bristol paper and are of pressing board; then make a trial print with
-the press, a clean piece of paper taking the place of the drawing. The correct
-pressure is a matter of experience; it is advisable to begin with a pressure less
-by one sheet, in order to be able to increase it during the process of transfer.</p>
-
-<p>In the lithographic press the ink-block is first to be adjusted; since it needs
-a greater “setting in” than the rolling press, the zinc must be cut larger. It
-must extend three centimetres on all sides beyond the drawing. The edges of
-the cut plate must be well ground off, in order that the ink-block may not
-be <span class="xxpn" id="p074">{74}</span>
-caught; at all events, it is advisable to have the latter smaller than the plate.
-Observe that the range of the press should be regulated; then place the zinc
-directly, without any intervening layer of paper, on a solid stone; lay upon it
-a clean sheet of paper, a blotter, a sheet of Bristol paper, and a pressing board
-well covered with tallow. Make a trial by drawing the sheet through at a
-moderate pressure. If all is arranged, the work of transfer can be started.
-The temperature of the zinc should now be about 35°&nbsp;C.</p>
-
-<p>Place the drawing down carefully, without moving it about; upon it the
-blotter, the Bristol paper, and a pressing board, and draw it through three
-times with constantly increasing pressure; turn the plate in a contrary direction,
-and draw it through three times in the same manner. Now place a moistened
-sheet of good paper between the blotter and the drawing, and draw through,
-first with weak, and then with strong pressure, three times in both positions.
-Instead of turning the zinc, the ink-block may be reversed. This finishes the
-operation of transprinting, and the next question is the loosening of the paper
-from the zinc. Here we can pursue two methods: first, we can have hot water
-and a porcelain tray at hand; place the copied plate in the tray, and pour the
-water upon it. The coated layer bearing the drawing begins to separate from
-the paper. Shaking the tray promotes this action, and soon the paper will
-loosen itself from the layer which remains attached to the zinc. With the
-second method proceed thus: moisten the back of the copied drawing, thoroughly
-with a sponge and cold water; allow it to soak in, warm the plate to
-60°–65°&nbsp;C. and carefully rub all parts by hand. The layer will again separate
-by degrees from the paper, which latter we can then easily lift off from the
-plate.</p>
-
-<p>On account of the strongly gelatinous layer, crayons on grained paper should
-only be moistened moderately before and after the first rolling, in order to avoid
-the coiling of the paper.</p>
-
-<p>Hand-drawings on paper without coloring require treatment with stronger
-acid (I recommend nitric acid, 4°&nbsp;Beaumé). At the same time the drawing
-should be cut as close as possible. To draw it through securely, place it as
-usual upon the zinc, and above it a piece of prepared copy paper moderately
-moistened, and a trifle larger than the drawing, then a blotter, a Bristol board,
-and a thick card, and draw through as before. The coated copy paper sticks
-tight to the zinc after the first rolling; it also retains the drawing in its first
-position, and allows repeated rolling. If the original was over-moist
-when <span class="xxpn" id="p075">{75}</span>
-copying, it sticks to the zinc and separates with difficulty; if the moistening
-was just right, two perfect copies can often be made from the same original.</p>
-
-<p>I have attempted to copy drawings on a fatty zinc surface, and to etch them
-strongly, but, far from being satisfied with the result, I prefer the above
-method.</p>
-
-<p>(<i>b</i> and <i>c</i>) Copies of lithographs, type, plates for printing of any kind, plates
-for <i>deep</i> printing, I make on well satinized copying paper*; in making the
-prints, I employ a copying ink as thick as possible, with the addition of a few
-drops of a thick solution of asphaltum in lavender oil, rolling a long time with
-but little color, so as to get a sharp rather than a heavy print.</p>
-
-<div class="footnote" id="Footnote_3_3">
-<p class="pfn">* Instead of the paste-gelatine-chalk, I prefer to prepare
-the surface with a decoction of semina psyllii.</p></div>
-
-<p>Plates for <i>deep</i> printing, I heat equally throughout before applying the color.
-Instead of color, I rub them with chemical Indian ink, wipe the surface carefully,
-even polish it finally with a ball and some Frankfort black. I then
-draw it through and again heat it uniformly, so that the copy comes off of
-itself. Fine, sharp transfers, with perfect relief, are thus obtained.</p>
-
-<p>(<i>d</i>) Anastatic copies are no longer of great value, since they always turn out
-roughly and cannot compare with photographic copies. Although I possess a
-safe method, I believe that I will have to omit it on account of the limited
-space of my work and the minute importance of the results.</p>
-
-<p>(<i>e</i>) Photographic fat or resin prints should be treated like ordinary prints.
-Moisten them on the back with water—which is preferable to placing them
-between moistened blotting-paper, since the drawing does not grow too wet—and
-wait till they are easily flexible. Drops of water on the film can and often
-do destroy the proof. Draw the plate through with increasing pressure and
-one intermediate moistening. Prints in fatty inks necessitate a temperature of
-plate of 35°&nbsp;C. Prints with dissolved etching varnish (resin) as a printing
-film should have from 50°–60°&nbsp;C. When loosening the paper avoid warming,
-but moisten well. Sticking of the gelatine film happens, especially with
-Husnik’s paper; a safe remedy is to dry the copy in strong light, after developing.
-Old sensitized paper, on the contrary, seldom sticks at all, and
-fresh paper should always be sought.</p>
-
-<p>In printing with the rolling press, I observe that the rollers of the press
-need only once to be regulated, and that greater or less pressure can be attained
-by thicker or thinner covering of the print with sheets of paper. This gives
-much greater security than can be had when constantly readjusting
-the rollers. <span class="xxpn" id="p076">{76}</span></p>
-
-<div class="keeptogether">
-<h4 title="The Further Treatment Of The Transfer.">THE
- FURTHER TREATMENT OF THE TRANSFER.</h4>
-
-<p>Should we now proceed directly to etch the copy, the acid would act through
-the drawing, which is as yet but loosely attached to the zinc, and would at last
-cause the lines to appear broken, if not destroy them.</p></div>
-
-<p>It is, therefore, necessary to replace the loose copy by a possibly dense
-etching varnish, attached fast to the zinc, and to produce an intimate connection
-between the latter and the etching varnish. Here we meet a difference between
-the French and Austrian methods. The former, totally based on the lithographic
-process, favors the use of a resinous dense color as a <i>strengthening
-material</i>, whereas the Austrian method employs an ordinary copying color and
-endeavors to form an etching varnish by sprinkling and melting in a quantity
-of finely pulverized resin. In the method of etching with copper sulphate, it
-was attempted to restrict the corroding action of the sulphuric acid by the
-following method: The drawing, rubbed with color and thinly besprinkled
-with resin, was slightly melted in, then sprinkled and rubbed with the finest
-silver graphite or real water-gold. It was thus made an electric conductor.
-A thin coating of copper was then deposited on the drawing, which, in point of
-fact, hindered the destruction of the film. At the same time, however, the
-process became uncontrollable, since often a deposit of amorphous copper
-became tightly fastened to the metallic surface. The lateral action could not
-well be ascertained, since the narrowest parts were often clogged with metal,
-without preventing corrosion from below.</p>
-
-<p>The French method of etching is this: A thick solution of gum-arabic is
-mixed with extract of nutgalls; this is carefully spread over the surface of the
-plate by means of a fine sponge, and dried by a fan. Then a knife’s point full
-of etching color (composed of 500 grammes chalk color, 40 grammes coagulated
-mutton suet, 40 grammes soap, 125 grammes yellow wax, 40 grammes margarin,
-and 40 grammes oleine, melted in the warm bath and passed through the color
-mill) is dissolved in oil of turpentine, and a portion of this solution is spread
-uniformly on the grinding stone by means of a fine sponge, so that the latter
-contains a similar layer of color throughout. The fatty gum film is then
-washed, with a wet sponge, free from fat and acid; a fresh quantity of the
-gum and nutgall solution is poured out, and the copy is by degrees strengthened
-by rubbing on the etching color with a sponge. This is repeated until the
-drawing has attained the proper strength throughout. The superposed layer
-of gum is then washed off, the superfluous water is removed with a sponge, a
-wet cloth, and blotting-paper, dried with a fan, then gently
-warmed. <span class="xxpn" id="p077">{77}</span></p>
-
-<p>Now the plate is to be dusted with the finest pulverized resin, consisting of
-equal parts of Syrian asphalt, washed in alcohol, and of mastic; the superfluous
-resin is removed with a brush and some cotton; the plate is then carefully
-heated, without beginning to melt the resin, however.</p>
-
-<p>This, by the French method, finishes the plate for etching. Only weak acid
-is safe for such a plate, however.</p>
-
-<p>According to the Austrian method (practised by me for several years), we
-proceed as follows: The copied plate is first copiously coated with a cold
-saturated solution of gallic acid, and then with a pure solution of gum.
-Without allowing it to dry, I remove the superfluous preparing materials with
-a wet sponge, and pour on some fresh gallic acid, as with an excess of acid the
-drawing assumes a more brilliant black color.</p>
-
-<p>The strengthening with ordinary copying color I effect, as the case may be,
-with the rollers, the sponge, or by coating.</p>
-
-<p>(<i>a</i>) <i>Strengthening with the Rollers.</i>—I roll out some thick copying ink with
-good, rough rollers which have been frequently used, and begin to roll the
-transfer plate while still damp, without any pressure, till its surface begins to
-dry. I then grasp the handles of the rollers more firmly and blacken the dry
-plate uniformly, giving it a thin coat of ink. This done, I moisten it a little
-and roll it regularly with rollers freshly treated with color, so that the picture
-comes up harmoniously and strongly.</p>
-
-<p>Rolling off during drying keeps the gum solution from the drawing while
-drying on, and keeps open the connection for rolling in.</p>
-
-<p>Before going further I will explain the terms used*: To roll in is to give
-color or ink, and is done slowly, with tightly grasped handles and certain pressure.
-Rolling off is effected with loosely grasped handles, without pressure, and
-quickly, and is intended to draw off with the rollers any excess of color on the
-plate. <i>To work out</i> or <i>make the rollers</i> means to bring fresh color on it from
-the grinding stone, and is done with strong pressure and strong traction. The
-correct management of the rollers rests in the wrists. To <i>reverse the rollers</i>, to
-<i>change the handles</i>, means to turn the rollers around, to make the left-hand
-handle the right-hand one, and thus to correct irregularities in the distribution
-of color. After every advance and return on the stone or plate to be blackened
-the rollers are newly adjusted. The plate thus strengthened
-must be well <span class="xxpn" id="p078">{78}</span>
-washed with clear water, to be dried, and at times even to be retouched with a
-brush and color dissolved in oil of turpentine.</p>
-
-<div class="footnote" id="Footnote_4_4">
-<p class="pfn">* Color and ink are synonymous. “Burn in” and “melt in”
-mean the same.</p></div>
-
-<p>(<i>b</i>) <i>Blackening in</i> with a sponge. The initiatory etching is done with gallic
-acid, the gum coating put on and additional gallic acid poured over; then some
-turpentine solution of copy color, the consistency of syrup, is rubbed over the
-plate until the picture is uniformly strengthened. If, as may happen in hand-drawings,
-the color should become massed and not attach itself smoothly, it
-must be washed off with turpentine and then clean color must be rubbed on.</p>
-
-<p>This operation requires great delicacy. After having finished the blackening
-in, rinse well, dry with a sponge and thick blotting paper. Heat, so as to
-vaporize the last remnants of dampness, and retouch.</p>
-
-<p>(<i>c</i>) A peculiar method of strengthening, nowhere described, as far as I know,
-is that of drying the plate after coating it with gum, then washing the gum
-with water; then, after drying, of covering the plate with a thin solution of
-wax, asphaltum, rosin, and shellac in ether, and of carefully coating the quickly
-drying film with gum. The film remains on the lines of the copy, but easily
-detaches itself from the bright metallic spaces, which have an insoluble combination
-with the gallic acid and gum, and are thus protected from the fat.</p>
-
-<p><i>Faults in strengthening</i> are caused by the following:</p>
-
-<p><i>a.</i> By ink which is too thick or too thin, or which has not been well ground.
-Stripes are caused by the dissolving of the color which is already present.</p>
-
-<p><i>b.</i> By excessive dampness on the plate (it does not take the color; the color
-in the sponge changes to a slimy emulsion).</p>
-
-<p><i>c.</i> By too great pressure with the color sponge the fine parts are lost. The
-same is the case with careless washing of the color of hand-drawings.</p>
-
-<p><i>d.</i> In <i>rolling on</i> excessive moisture on the plate spoils the work. The surface
-of the rollers becomes glossy and must be again inked.</p>
-
-<p><i>e.</i> In pouring out the ink a very thick layer prevents the strengthening of
-the finest lines.</p>
-
-<p>Dirt on the plate often comes from handling the drawings; it must be
-scratched off and the plate must be perfect before proceeding.</p>
-
-<p>Now comes the changing of the ink into an etching varnish. But before
-beginning we must cover the free edges of the zinc for the distance of half a
-centimetre around the drawing with a solution of ink in turpentine; the same
-applies to large white surfaces in the drawing, which it is more convenient to
-cut out with a scroll saw. Then subject the plate to the finest
-asphaltum <span class="xxpn" id="p079">{79}</span>
-powder, passed through a hair-sieve, and cover it by the dusting brush copiously
-with powdered rosin. Continue the rubbing on of fresh powder for a minute,
-until the ink is saturated, then dust out the superfluous powder with the dusting
-brush and fine cotton, so that the metal is bright (no film should be perceptible
-on looking over it).</p>
-
-<p>The plate should now be heated to about 60°&nbsp;C., till the color of the
-asphaltum changes from a coffee tint to a dead (matt) black. Place the plate
-in this condition a second time with the asphaltum, which is again absorbed
-rapidly. Dust off carefully as before and burn in again till the color changes
-to a somewhat shiny black; the yellow tint must be avoided, because this
-degree of burning exposes the lights in the closest hatchings to the danger of
-running together.</p>
-
-<p>Thus the coat of color is changed into an etching varnish of excellent resistance
-and adhesion, and the plate is ready for etching.</p>
-
-<div class="keeptogether">
-<h4 title="The Etching and Its Intermediate Treatment Before Mounting
-The Cliché.">THE ETCHING AND ITS INTERMEDIATE TREATMENT BEFORE MOUNTING
-THE CLICHÉ.</h4>
-
-<p><i>Introductory remarks.</i>—If we examine a wood cut or an electrotype with
-regard to the depth of its narrow and wide-line complexes, we can at once
-determine a plane for the closest hatchings; in a uniformly deep layer the lines
-lie at a moderate distance apart, and those of the highest lights are very deep.
-These three planes are situated higher or lower according to the very narrow
-or very wide series of lines. This gives a natural division of the different
-stages of etching, and, according to the three depths, we distinguish the <i>sharp
-etching</i> or <i>etching on</i> in which the engraving must advance far enough to place
-the narrowest portions sufficiently low; <i>middle etching</i>, which has to accomplish
-the same for the moderately narrow portions, and <i>deep etching</i>, which must
-attain sufficient depth for the highest lights.</p></div>
-
-<p>On account of the lateral action of the acid it is impossible to etch down
-perpendicularly, but a wider covering is taken for each stage. Of these wider
-coverings there remain after etching all around the relief two terrace like
-grades, which must also be removed.</p>
-
-<p>We have, then, in addition to the above, three sorts of etching, a <i>round etching</i>,
-in which the grade remaining from the deep etching is to be removed, and a
-<i>clean etching</i>, or a removal of the wire-edge left after middle etching.</p>
-
-<p>This natural subdivision is found in the old French method as well as in
-the <span class="xxpn" id="p080">{80}</span>
-new method, and both coating and the acids are of a strength proportionate to
-the different stages of the work.</p>
-
-<p>We have already alluded to the lateral action of the acid; it is a factor that
-taxes the care of the etcher in the highest degree. In the beginning of the
-action of the acid, the edge of the metal under the coating is exposed the more,
-the longer the action lasts; here, of course, the dissolving power becomes apparent.
-The deeper we go, the more the metal under the line is exposed, and
-the action on the lateral edge continually increases. In the effect of the acid
-we distinguish thence, a perpendicular and a lateral action. Since the latter
-cannot be removed by changing the character of the acid, we must give it a
-part in this process of dissolving metals, but at the same time must invent a
-method which will prevent the lines from growing thin.</p>
-
-<p>But in order to do this we must know the relation of the perpendicular to
-side action. Both are in proportion, a result both of theoretical and practical
-consideration. In order then to attain a certain depth of etching, a proportional
-lateral protection must take place, which is by degrees destroyed by the lateral
-action. Since this lateral action sets in at the beginning of the work, the
-dimension of the line must be secured from the start. This is done in the
-Vienna method by the already mentioned formation of the etching varnish, by
-means of dusting with resin and burning in, by which an almost imperceptible
-growing of the width of line is attained. The French method endeavors to
-correct this by using a very weak acid and a correspondingly thin coating, but
-coating oftener and etching at every new coating, as we shall see below. Also
-the coating for middle and deep etching must be arranged in accordance with
-the principles above elucidated. As deep as the middle or deep etching is
-desired, so wide must the lines be surrounded by etching varnish.</p>
-
-<div class="keeptogether">
-<h4 title="Etching By The French Method.">ETCHING BY THE FRENCH METHOD.</h4>
-
-<p>We have already seen (p. <a href="#p076" title="go to p. 76">76</a>) how a copy is made by the French method
-for etching, and we now continue the development of this process.</p></div>
-
-<p>Into a tray pour 4 litres of water at 18°&nbsp;C., add 15 c.cm. nitric acid and
-mix well by shaking. Then place the prepared plate into the bath and rock
-it for seven or ten minutes (according to the fineness of the drawing), rinse
-well with water, remove the remaining water with blotting paper, and, finally,
-dry thoroughly with a fan. (Do not forget to dry the back.) Now warm the
-plate from the back, moving the flame about continually, so as to secure uniform
-heating and prevent warping of the zinc. The asphalt powder, which is
-as <span class="xxpn" id="p081">{81}</span>
-yet but loosely attached, is more intimately connected with the subjacent ink
-through this heating process. The combination becomes evident from the
-assumption of a black lustre. With the appearance of this, stop heating, and
-lay the plate on a cold stone to cool. This done, spread some gallic acid over
-it with a soft sponge, and without washing it off, spread gum on the surface of
-the plate, and hasten the drying with a fan.</p>
-
-<p>Mix some etching ink with varnish and work it out into a thin layer with
-good rough rollers. If the rollers are in order, wash the coat of gallic acid
-and gum from the plate, remove superfluous water and <i>roll in</i> (the manner
-similar to that used in lithography). The surface of the plate should not be
-more than moderately damp, so that the rollers may not slip. If a coat of
-color has been uniformly deposited, wash the plate with clean water, remove
-the excess with a sponge and blotter, dry by fan and remove all moisture by
-heating to 45°&nbsp;C. Dust the warm plate again with asphaltum (remove the
-excess), and warm it a trifle to secure better adherence. Strengthen the bath by
-the addition of 15 c.cm. nitric acid, and etch again for seven or ten minutes
-under continued shaking. Then rinse the plate, remove the water and dry
-with a fan, and burn in the resin powder well. Careful inspection will now
-show a successful and uniform but still weak relief.</p>
-
-<p>As before, the plate is coated with gallic acid and solution of gum, is dried,
-washed, and <i>blackened in</i>, in which treatment one-third “wax
-pomatum”* is
-mixed with the etching ink. After washing and drying heat the plate up to
-60°&nbsp;C., thus causing an imperceptible widening of the drawing. After coating
-dust once more with asphaltum, warm it and cover only the back and the
-white rim around the drawing with a solution of shellac (1 part ruby shellac
-in 10 parts spirits). Strengthen the bath with 20 c.cm. of acid and bathe it
-for seven to ten minutes, shaking the bath regularly. Continue until you see
-that the lateral action of the acid has almost wholly destroyed the lateral
-covering produced by heating. Do not, however, etch too long, and do not
-mistake the <i>over</i>-hanging coat for the other. Then follow washing, drying,
-melting on some resin, cooling, coating with gum, blacking in with equal parts
-of etching ink and “wax pomatum,” then washing, drying, greater heating
-(70°&nbsp;C.) (so that by increasing the ink each line receives lateral protection),
-cool and dust to excess with the finest resin dust.
-<span class="xxpn" id="p082">{82}</span></p>
-
-<div class="footnote" id="Footnote_5_5">
-<p class="pfn">* Wax pomatum is prepared by cutting beeswax into
-fine parts and covering it in a wide-necked flask with oil of
-turpentine. In a few days a jelly-like mixture will remain, which
-serves the above purpose.</p></div>
-
-<p>As we have now reached the necessary depth for the narrowest portions, we
-use, instead of the asphaltum, resin, which melts easily and spreads out readily,
-in order to attain protection for our middle etching.</p>
-
-<p>Strengthen the bath with 30 c.cm. acid, and bathe until the lateral action of
-the acid has reduced the lateral coating to a narrow edge. Then wash, dry,
-melt on some resin, cool, prepare with gum. Blacken in as before, but employ
-one-third etching ink and two-thirds wax pomade and apply so thickly that all
-the narrowest spaces of the drawing are completely filled with color. Continue
-warming until the ink, which was applied, has well covered each line; then
-dry and use resin as before.</p>
-
-<p>The acid may now be strengthened by 100–158 c.cm., according to the
-strength of coating chosen. Bathing must be continued until the edge that
-has run off begins to grow narrow. Wash, dry, burn in resin, cool, coat with
-gum, and blacken in by rollers with clean wax. Continue heating until each
-line is well covered by ink. Always dust until the ink is fully saturated and
-then heat gently.</p>
-
-<p>Strengthen the bath 200 c.cm. and begin the <i>deep etching</i>. According to
-the depth to be attained repeat the manipulation of strengthening once or
-twice. Whenever a corrosion of the lateral coating becomes apparent, coat
-freshly, adhering to the above order of operation. For obtaining the necessary
-depth ink is applied about <i>ten</i> times, adding wax each time to facilitate
-the spreading when warming.</p>
-
-<p>In order to attain a fine, regular lateral coating, great ability in manipulating
-the rollers is necessary, since without such the correct degree of strengthening
-is never attained. Irregular coating leads, of course, to irregular melting
-of the ink; one spot then is already sufficiently wide, while another is not
-yet covered. In such cases coating with a brush must be resorted to.</p>
-
-<p>If the necessary depth is attained, the plate is to be freed carefully from the
-coating with a brush and oil of turpentine, and then placed in fresh sawdust,
-which absorbs the oil of turpentine and leaves behind a clean surface. Now
-the work can be criticised in all its parts. To every coating is a corresponding
-narrow edge of etching, which is now to be removed in order to make the
-plate fit for printing. To removing these edges we must devote our attention.
-We begin with the top one, and make preparations thus: Roll out on a clean,
-warm stone with faultlessly smooth rollers a very thin gauze-like layer of
-etching ink. Likewise warm the zinc plate and roll it in all directions without
-pressure till the picture becomes beautifully
-black. <span class="xxpn" id="p083">{83}</span></p>
-
-<p>Pressure must not be employed, but the coating must be obtained by
-renewed <i>working out</i> of the rollers on the <i>color-slab</i>,
-and repeated coating.
-When at last the desired strength is obtained, dust with the finest asphaltum
-powder, blow the traces of dust out of the hollows, and warm till the layer
-becomes slightly brilliant. Next, etch in a new bath of 4000 c.cm. of water
-and 40 c.cm. of acid for 7 minutes, wash, and dry well; then, with more ink
-on the rollers, coat the dried plate, dust once with resin, heat gently, then
-apply the asphaltum and burn in strongly. Thus the first relief is protected
-laterally, and the first grade can be etched down completely, without endangering
-the drawing. To remove the second grade, we repeat washing, and put
-on etching ink mixed with one-third wax. Rolling must continue till the
-narrowest spaces of the etching are completely closed. Then follow dusting
-with resin, warming, and placing the warm plate in the asphalt, dusting,
-removing the excess, and finally burning in.</p>
-
-<p>With this coating a further rounding of the grades can take place (in a bath
-of 10°&nbsp;Baumé). Continue this process until all the grades are removed and
-the etching appears as perfect as a cast plate.</p>
-
-<p>Since hitherto all publications on chemigraphy have duly described this
-method, I believe that I should not enter into further details, improvements,
-etc. Suffice it to call attention to weak points. In view of the new method
-later to be described, the reader may make a comparison between the two.</p>
-
-<p>A very weak point is the method of strengthening based on the lithographic
-process of superimposing new color upon the old color. In consequence of
-the repeated melting in of resin, this latter acquires an uneven surface,
-which can be blackened in only with great difficulty. Equally untrustworthy
-is the lateral protection by <i>melting off</i>, which is only attained with safe
-uniformity by skilled workers. And what is more, with the weak coating at
-the beginning; even weak acid often works its way through to the etching, so
-that the finished etching appears slightly porous, and gives no dense black
-print. Also shaking, which is to promote the removal of the metallic mud
-and the gas bubbles from the lines of the etching, has an unsatisfactory effect,
-inasmuch as the single lines are often thus under-washed.</p>
-
-<p>But the principal defect is that no accurate determination of the degree of
-each operation can be made, everything depending on the delicate execution of
-the process.</p>
-
-<p>The time that the etching of a correct, deep cliché requires by this method is
-from eight to ten hours. This procedure also demands better trained
-hands <span class="xxpn" id="p084">{84}</span>
-than the Austrian, which, in large establishments, is based on a division of
-labor, and in which men trained in a single manipulation, under good supervision,
-accomplish the maximum work surely and excellently.</p>
-
-<p>Furthermore, the expenses of the manufacture on a large scale are far
-greater, since each etcher draws a greater salary than a workman skilled in a
-few manipulations, such as the following method requires.</p>
-
-<div class="keeptogether">
-<h4 title="The Austrian Method—the Etching On.">THE AUSTRIAN
- METHOD—THE ETCHING ON.</h4>
-
-<p>I have already shown how a transferred plate should be prepared for etching
-by this method. Before proceeding to the details, however, we will prepare
-the etching baths, which, by the way, may always be employed for several
-plates. Corresponding to the three steps of etching, we require three baths of
-different concentration to be determined by means of an areometer with a
-Baumé scale. The bath for <i>etching on</i> is prepared in strength of 2°&nbsp;Baumé at
-a temperature of 18°&nbsp;C. There must be a quantity sufficient to cover the
-plate to a depth of 4 to 5 centimetres. The bath for middle etching requires
-10°&nbsp;Baumé and a temperature of 18°&nbsp;C.; the bath for deep etching, 18°&nbsp;Baumé.
-These baths are prepared at the beginning, and are used for the five successive
-stages of etching. If, after continued use, the bath for deep etching should grow
-weak, it may be used for middle etching. For protecting the trays, I recommend
-a coat of gutta-percha over a well-coated inner surface of asphaltum.
-Everything being ready, immerse the prepared plate in the bath, and with an
-etching-brush brush the surface of the plate uniformly for two minutes.</p></div>
-
-<p>The hairs of the brush must only rest lightly on the metallic surface. For
-determining time, use sand-glasses of two, three, and five minutes. After two
-minutes, take the plate out of the acid, wash it well with water, and examine it
-carefully. If the effect has not been uniform, see that two minutes more can
-be safely given in the etching bath. If by any sort of careless handling the
-plate has been injured, dry it with blotting-paper, vaporize the remaining
-dampness, and cover the soiled spot with very thick solution of asphaltum in
-turpentine. Cool, and continue brushing lightly for two minutes in the bath.</p>
-
-<p>At the end of this time, wash and examine again. Even now everything
-will be intact. With very fine drawings, however, lateral action has already
-progressed so far that, under all circumstances, the exposed edges must be
-covered. Coarser drawings generally stand one or two minutes more.</p>
-
-<p>To try the depth of etching: with your finger-nail on the edge of the
-black <span class="xxpn" id="p085">{85}</span>
-rim, feel how far the etching-on has proceeded. As soon as the finger-nail
-catches, the depth is sufficient, and the sides of the lines may be covered.</p>
-
-<p>For this operation the plate needs, above all, thorough washing, drying on
-both sides by blotting-paper and gentle heat, and a temperature of 45°&nbsp;C.
-At this temperature place the plate into the finest resin-powder, and rub the
-latter several times over the warm drawing, using for this purpose a fine
-brush. The protection, which has grown sticky through heating, retains a thin
-coating of resin, which, after dusting off the bright metallic spots with a brush
-and fine cotton, and after careful fanning off, is reheated to about 50°&nbsp;C. At
-this temperature the plate is returned to the white rosin, receives a good
-dusting-in, and being freed from excess as before, is heated to about 65°, so
-that the easily fusible rosin begins to spread out. At this moment extinguish
-the light, and put the plate into the asphaltum, which will attach itself copiously
-to the sticky resin. Brush the plate well with the substance, remove
-any excess from the bright spots, heat to 80°&nbsp;C.; then place it again into the
-asphaltum, brush it, clean it by removing any excess, and heat it to 100°&nbsp;C.,
-when a complete combination of the resinous mass takes place, and a uniform
-etching varnish is formed. This last coating is extremely regular, and it is
-wonderful to see the accuracy with which the lines have been covered. Beginners
-are warned to pay attention to the careful cleaning of the bright parts of
-the plate when brushing and dusting it; should any resin remain behind, it
-melts on, and grows by degrees to a strong yellow tint, which is very difficult
-to remove, but very easy to guard against. Never forget to dust off the back.</p>
-
-<p>While the plate is still hot, lean it against the wall, face in, and the back
-covered with a solution of shellac.</p>
-
-<p>Now the plate is ready for further etching, which is carried on for two
-minutes in the first bath. At the end of two minutes, wash and examine
-critically. In almost every case we may etch for a third, or even a fourth time.
-It is, however, sufficient for the beginner to know that he has sufficiently etched
-in two spaces of two minutes each, after preparing with resin. Trying and
-examining with the finger-nail on the black edge will show a fine relief. Should
-it be possible to etch for a third space of two minutes, or even of one, without
-danger, it is preferable to do so. It should be a rule to proceed as far
-as possible, judging from the character of drawing and coating. Experience
-is easily gained in two or three trials, since anything can be examined at any
-moment. Beginners would do well to use a magnifying-glass with good field
-of view in examining, when they can observe the most sensitive portion,
-and <span class="xxpn" id="p086">{86}</span>
-all changes may easily be noticed. The brush should be used lightly, to prevent
-scratching. Usually, it is fastened at right angles to a stick to protect
-the hands from the effect of the acid.</p>
-
-<p>To raise the plates out of the tray, lay a gutta-percha thread into the bottom
-of each tray, fastened at one end to the top edge of the tray, projecting over
-the same on the other side. The plate is placed on the thread while etching.
-It may be removed without touching the bath by pulling the free end of the
-thread.</p>
-
-<p>As already remarked, the spreading of ink on a surface which is more or less
-rough is difficult. For this reason the plate, when etched-on after my method,
-is to be washed out with oil of turpentine. A strong brush should be used for
-this, and some of the oil rubbed over the plate without pressure. You must
-cause a dissolving, not a rubbing off, of the coat. On continuing the addition
-of turpentine, the metal grows bright. Take, then, a handful of the coarsest of
-pine-wood sawdust and rub off the surface. This removes instantly every
-trace of turpentine, leaving a clean surface behind. For the sake of security,
-pour on more turpentine, rub with a somewhat softer brush, and remove again
-with clean sawdust.</p>
-
-<p>It is important that the wash-table should always remain free from sawdust,
-which latter should fall through the grating into a suitable receptacle. If this
-rule is disregarded, the wash-brush will soon be a conglomerate of sawdust
-and hairs. Sawdust and turpentine will stick to the brush so tightly that a
-new brush will have to be purchased.</p>
-
-<p>Now we again examine our work. It is a mark of success if the relief still
-shows its original smoothness in all its parts, and has nowhere grown porous.
-All the parts must be clear in their correct proportional strength, as seen in the
-transfer.</p>
-
-<p>The treatment of the plate from the time of transfer to the close of the
-etching-on takes: for the saving of the edges and the white portions of the
-drawing, 2 minutes; for preparing twice with asphaltum, 4 minutes; for
-varnishing the back and coloring the plate, 4 minutes; for etching-on the
-lateral protection, 4 to 5 minutes; for preparing twice with resin, asphaltum,
-and varnishing, 16 minutes; for renewed etching, 4 to 5 minutes; and for
-washing, 5 minutes—that is, 33 minutes in all. Add 7 minutes for inspection
-and retouching, and 40 minutes will be the space allowed for
-etching-on. <span class="xxpn" id="p087">{87}</span></p>
-
-<div class="keeptogether">
-<h4 title="Middle Etching.">MIDDLE ETCHING.</h4>
-
-<p>In order to give to the middle tints of the drawing the depth necessary for
-printing, we begin with a new blacking-in. We need for this purpose excellent,
-smooth, and hard rollers, which are immersed in minium and linseed oil, and
-are then left to dry for a short time. Contrary to the French method, we
-need here a thin composition for the etching ink, obtained by concocting equal
-parts of paraffine, suet, beeswax, and ordinary ink, prepared in an excess of
-good linseed oil. (Ready-made color of right composition may be had of E.
-Liesegang, in Dusseldorf, and other dealers.)</p></div>
-
-<p>This color, when of right composition, possesses the power of absorbing
-resin-powder, and changes in combination with the same, when heated, to a
-compact, very solid, yet brittle mass.</p>
-
-<p>Of this color, which is soft as butter, take a portion on a knife-point, and
-spread it upon the smooth rollers, forming a perfectly uniform layer. The
-complete covering is done by rolling, changing the adjustment at intervals.
-When a perfectly uniform, oily coat is spread on the color-slab and the rollers,
-begin rolling-in the washed plate.</p>
-
-<p>Do not exert any pressure, but roll, carrying the handles so as to black the
-relief only from the surface of the rollers. Of course, it cannot be prevented,
-and is of no consequence, if ink attaches itself to the large white spots. Rolling
-continues till the oily brown coating has deposited itself uniformly. Exercise
-care in order not to get more ink on some spots than on others. The plate,
-now completely rolled, is placed in the finely powdered resin, with which it
-must be completely covered. For the space of two minutes the oily color
-absorbs the powder, which should, therefore, be strewn on it and rubbed off
-repeatedly. If saturation in the cold has taken place, dust off lightly with
-brush and cotton, blow off well, and heat uniformly to 35°&nbsp;C. The resin
-should not melt now, but should only grow sticky and combine intimately with
-the color, which forms the binding material. This change is observed immediately
-in the change resulting in the gray resin coat. As soon as the change
-occurs (beware of unequal heating), again place the warm plate into the resin,
-saturate as before, dust out, blow strongly on the bright, metallic spaces, to
-remove remaining traces of resin, and heat to 50°–55°&nbsp;C. At this temperature
-cover the film with fine asphalt powder, dust off as before, and heat to 65°&nbsp;or
-70°&nbsp;C. In this condition the plate is again saturated with asphalt, and the
-layer, after careful dusting and blowing, is heated until it grows
-slightly <span class="xxpn" id="p088">{88}</span>
-brilliant. Thus a complete coating is formed, and the plate has the appearance
-of Fig. 6. The black spots represent the dirt which has clung to the
-intensest lights, and must be removed. But before attempting this, we varnish
-the back of our plate with a solution of shellac, and cool it completely in
-water.</p>
-
-<div class="figleft imwth08" id="fig06">
-<img src="images/i088.jpg" width="252" height="213" alt="" />
-<div class="caption">Fig. 6.</div>
-</div>
-
-<p>Now take a very coarse scraper, ground with a sharp edge; hold it between
-the index and middle fingers, and scratch away the dirt from the light spots,
-making the edge of the scratcher draw the
-strokes close together. The brittle backing
-breaks off finely, and in a few minutes
-the dirt is removed and the plate is ready
-for etching. If (which will only happen to
-beginners) the drawing should be scratched,
-the exposed spot must be covered, by
-means of a brush, with a thick, warm
-solution of asphalt in turpentine; the dirt
-which was scratched loose is brushed off,
-and the plate goes into the bath for middle
-etching for about three minutes. Brushing
-and washing follow in the same way
-as in the previous operation. At the expiration of three minutes inspect
-(with or without a magnifying glass); places that have been uncovered must
-instantly be covered with asphaltum, as already directed. Etching is continued
-till the lateral coating no longer protects the first relief, which generally takes
-place after the third period (in about nine minutes) in a new bath, but requires
-twelve to fifteen minutes in an old one. It is proved by the existence of only
-a narrow thread alongside of the relief. The moment can be well ascertained.
-If we wish to be sure of it we may do so by exposing the edge of the black
-rim at different places; the width of the thread is then apparent, and a safe
-conclusion may be drawn from the single spots as to the whole plate. If not
-enough middle etching has taken place, the thread remains wide and requires
-an extraordinary clean etching, which may lead to the picture growing thin and
-endanger the finest lines. Care, then, is necessary to ascertain the right moment
-of suspending the middle etching, and of continuing in the above-described
-manner with oil of turpentine, brushing, sawdusting, and washing. After
-drying and brushing off the sawdust with a strong brush, we have the clean
-plate ready for examination. We observe the grade of etching produced
-by <span class="xxpn" id="p089">{89}</span>
-middle etching parallel to the contours of the different parts, and can safely
-assert that the process has taken its natural course. Etchings without real
-deep places (as high lights) might here be <i>etched clean</i>—that is, might undergo
-removal of the formed <i>etching grade</i>. Yet it is preferable to place the edge of
-the drawing as low as possible, to prevent a tendency to crookedness, so-called
-facetting, and to get a deep edge for nailing the plate on wood. The outward
-appearance of the etching improves considerably, and the cliché can be fastened
-much more securely. The chemigraphist must endeavor to satisfy the demands
-of the printer in all respects, and should omit nothing that serves to perfect his
-work. Thus only can he gain a good reputation both for himself and for his
-work.</p>
-
-<div class="keeptogether">
-<h4 title="Deep Etching.">DEEP ETCHING.</h4>
-
-<p>Having been successfully treated in the middle etching process, the plate
-needs only depression of the larger light spots. Some simplify this part of the
-work by cutting out the highest lights by means of a chisel, reverse ground.
-This can easily be done after a little practice, and often saves time and acid.
-Care should be taken with the chisel; the plate should lie on a flat surface and
-the cutting twist be executed lightly and regularly. If this course is decided
-upon and is applied to the highest lights, proceed to the execution of the deep
-etching. Such chiselling does not happen in my laboratory, since I prefer to
-etch all plates alike to their normal depth.</p></div>
-
-<p>An excess of ink is now well spread over the rollers and the plate is rolled
-in all directions. Close up all the middle tints and give the acid room only in
-the densest lights. This coating is done by warming the regularly covered
-plate to 31°&nbsp;C., and allowing the ink to flow down rapidly and cover the
-recesses. A second coating with slow manipulating of the rollers and manipulation
-of the handles without pressure, will yield a sufficient coat from above.
-If, despite this, certain parts should not be sufficiently blackened, rub on more
-ink till the covering is sufficient and the side protection perfect.</p>
-
-<p>As in middle etching, we must proceed to the formation of an etching varnish
-by dusting with gums, placing into resin, by lightly rubbing this resin on in
-constantly renewed layers, till the absorptive power of the ink ceases; then
-warming and dusting warm with the same resin to complete saturation; then
-raising the heat as above, and dusting with asphaltum to saturation, heating
-stronger and finally placing the hot plate into asphaltum, which again secures
-all parts covered with ink and
-resin. <span class="xxpn" id="p090">{90}</span></p>
-
-<p>At the different times of removing the dust, pay particular attention to the
-bright metallic parts. Over-removal of dust removes resin from the layer;
-under-removal leaves behind an obstinate yellow tint in the bright spots.
-Practice and experience readily prove the best teachers in this respect.</p>
-
-<p>The final heating of the etching varnish must be pushed so far that an intimate
-connection is effected between all of its parts. This is easily noticeable
-from the uniform gloss of the mass. While
-still hot, the back of the plate is carefully
-varnished and cooling is promoted by dipping
-it into cold water.</p>
-
-<div class="figleft imwth08" id="fig07">
-<img src="images/i090.jpg" width="252" height="219" alt="" />
-<div class="caption">Fig. 7.</div>
-</div>
-
-<p>But few spots are to be removed by
-chiselling (see Fig. 7), for the rollers have
-only blacked the middle of the highest
-lights. These spots, as indicated in middle
-etching, are scratched bright with a chisel.
-It is important always to scrape off the
-white edge around the drawing. Scratching
-of the plate does not even happen with
-beginners, except in cases of gross carelessness.
-If it does happen, a good covering with the turpentine solution of
-asphalt must be used. When this is all done properly we proceed to etch.</p>
-
-<p>The process of etching by the aid of a brush is continued in periods of five
-minutes each. It is necessary to examine the side covering carefully at the
-end of every operation; a diligent brushing off of the surface is also to be
-recommended. Etching is continued until, by degrees, the lateral coating
-decreases and the grade grows narrower. At this juncture—that is, after
-about five to six operations (twenty-five minutes) the necessary depth is attained.
-In few cases (and almost always with beginners), it happens that a single coating
-does not suffice for deep etching without endangering the plate. In such cases
-wash the plate, coat it a second time, and form a second etching varnish.</p>
-
-<p>When the depth is satisfactory the plate is washed and the new grade may
-be criticised.</p>
-
-<p>After a proper examination, we proceed to the</p>
-
-<div class="keeptogether">
-<h4 title="Round Etching.">ROUND ETCHING.</h4>
-
-<p>Its object is to remove the last formed grade. Coat the plate with a very
-uniform coating of ink, corresponding to the one used in middle etching.
-A <span class="xxpn" id="p091">{91}</span>
-criterion for correct coating is, that only the grade caused by middle etching be
-covered, while the grade from deep etching must remain exposed. Remember
-also that in heating the plate a further spreading is caused by melting.</p></div>
-
-<p>To the inexperienced it may happen that the grade caused by deep etching is
-of variable width. These places must be removed by working over with a
-graver before continuing, as otherwise we will not attain symmetrical round
-etching.</p>
-
-<p>The plate prepared for the latter treatment is only dusted once in resin, and
-then blown out. It is then heated to 45°&nbsp;C., and is dusted and heated twice
-with asphaltum at increasing temperature, just as in both the previous processes.
-Nothing now remains to be scratched away. After having varnished
-the back, the plate is etched in the middle etching bath two or three times for
-three minutes. At the end of each period examine whether another whole
-period is necessary, or whether rounding the plate requires less time. When
-this is over (several parts, which perhaps were already finished beforehand,
-have been covered), wash and approach the next problem, the removal of the
-grade resulting from the middle etching. This is called</p>
-
-<div class="keeptogether">
-<h4 title="Clean Etching.">CLEAN ETCHING.</h4>
-
-<p>Upon the clean, smooth rollers spread thick transfer ink and roll it out
-perfectly. It is advisable to warm the stone previously with a little alcohol,
-which promotes the working out of the color. When the surface of the color
-has become perfectly uniform the plate is rolled in slowly and without pressure.
-Pressure would deposit too much color in the finest recesses, and prevent the
-clean etching and sharpening of the same, thus causing lack of harmony in the
-prints.</p></div>
-
-<p>It is better to coat the shadows with a pad, as they require more color.</p>
-
-<p>The plate, thus blackened, is to be dusted once with the finest asphalt powder,
-then freed from excess by dusting off and blowing until the coating becomes
-brilliant.</p>
-
-<p>Clean etching then takes place in the bath for etching on, in periods of one
-minute each, and repeatedly until the last thread has disappeared.</p>
-
-<p>Now everything is ready for a proof, and for subsequent mounting.</p>
-
-<div class="figleft imwth08" id="fig08">
-<img src="images/i092.jpg" width="252" height="220" alt="" />
-<div class="caption">Fig. 8.</div>
-</div>
-
-<p>Fig. 6 shows a print of the little picture given during the process of middle
-and deep etching, and admits of an instructive comparison during the progress
-of the work. <span class="xxpn" id="p092">{92}</span></p>
-
-<p>Proofs are made from the cleaned plate (the back of which has been scratched
-clean) in the following manner: Upon a good lithographic roller place a
-quantity of the best ink and coat the
-etching uniformly. Help the shadows
-along by dabbing on some ink with a
-leather pad. When this is done, carefully
-rub off the excess in the lightest spots, and
-fix the plate in the rolling-press; place on
-it a sheet of well-calendered tissue paper,
-next a sheet of writing paper, a sheet of
-Bristol paper, and a cardboard. With
-very little pressure (the thickness of one
-cardboard less than in the transfer) draw
-it through. If the print is too weak, place
-paper below, sheet by sheet. The stronger spots may be blackened separately.</p>
-
-<div class="keeptogether">
-<h4 title="Finishing And Mounting The Plate.">FINISHING AND MOUNTING THE PLATE.</h4>
-
-<p>The first thing to be done is the removal of the black edge left by etching
-and the sawing out of such spots in the drawing as were spared for this from
-the beginning. The waste may be removed by means of a circular saw or a
-fine-toothed carpenter’s saw. Do not, however, forget to leave behind a margin
-of about three millimetres for the purpose of nailing the plate to the wood.
-The edges must be smoothed with a graver, filed and chipped off to a suitable
-plane, since sawing produces a sharp edge.</p></div>
-
-<p>To remove the spots spared in the drawing, bore a hole through the metal at
-that spot with an American gimlet, introduce a scroll saw, and thus cut out the
-metal. The edge should be worked over with a dog-leg chisel.</p>
-
-<p>By aid of the borer we also make the conical holes in the edge, through
-which the nails are to be hammered. Elevations caused on the back of the
-plate by boring should be removed by filing.</p>
-
-<p>The block of wood which is to raise the height of the plate to that of
-type should be cut from perfectly dry maple, oak, or mahogany wood. With
-the plate it must just reach to the top of the type; the sides must be parallel,
-and all should be perfectly smooth.</p>
-
-<p>Cutting at right angles can be done with a circular saw or with the aid of a
-mitre saw used by printers for such work. For exact examination of
-height, <span class="xxpn" id="p093">{93}</span>
-pass the block and zinc through the caliber-bridge (Fig. 9). Roughen the
-base and top surface of the block with a toothing-plane. When convinced that
-the block fits perfectly, nail the etching upon it, taking care to drive the heads
-of the nails well into the holes provided
-for them, otherwise they will show in
-the print. If other small details are
-noticed, they may be removed with a
-dog-leg chisel.</p>
-
-<div class="figright imwth07" id="fig09">
-<img src="images/i093.jpg" width="288" height="108" alt="" />
-<div class="caption">Fig. 9.</div>
-</div>
-
-<p>This finishes the plate for delivery.</p>
-
-<p>In the expounded explanation of my
-chemigraphical method, the following
-arrangement may serve the beginner as a guide to the manipulations from
-the beginning to the end of the work:</p>
-
-<p>1. Planing the plate.
-2. Grinding it out.
-3. Freeing from fat, and then testing its cleanliness.
-4. Transferring the drawing to the metal.
-5. Preparing the metallic surface after transfer.
-6. Strengthening the transferred drawing
-by rubbing, rolling, or flooding it as directed.
-7. Transmutation of the transferred drawing into a resisting
-etching varnish by double besprinkling and burning in of
-asphaltum, subsequent to covering the edges and large light
-parts, and after varnishing the back.
-8. Sharp or preliminary etching, strengthening with resin powder,
-and finishing preliminary etching.
-9. Washing and examining the work.
-10. Coating with etching ink for middle etching.
-11. Formation of the etching
-varnish by double dusting and increasing burning-in of (<i>a</i>)
-resin and (<i>b</i>) asphalt; varnishing the back.
-12. Chiselling out the lights of the picture.
-13. Middle etching.
-14. Washing and examining the result.
-15. Coating for deep etching.
-16. Formation of
-etching varnish by dusting, heating with increasing strength
-of resin and asphaltum; varnishing the back.
-17. Deep etching.
-18. Washing out and examining.
-19. Coating for round etching.
-20. Formation of etching varnish by single dusting and warming of resin,
-and double dusting and burning-in of asphaltum; varnishing
-the back.
-21. Round etching.
-22. Washing and examining the plate.
-23. Coating for clean etching.
-24. Formation of etching varnish by
-single dusting and burning-in of asphaltum at a high
-temperature.
-25. Clean etching.
-26. Washing and scraping the back.
-27. Proofs.
-28. Cutting out and mounting the plate.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p094"
- title="Chapter VI. Hints from All Sources.">CHAPTER VI.
-<span class="blksmaller">HINTS FROM ALL SOURCES.</span></h3></div>
-
-<p>Although the number increases almost every week, there are but few
-persons who understand photo-reproductive processes in all their details. Those
-who do, have been so chary of giving of what they know, that our literature
-on the subject is very scanty indeed. Consequently, as all the hints that are
-obtainable are very welcome, I have collated a few from various sources, and
-make a mosaics of them here for the general good.</p>
-
-<div class="keeptogether">
-<p>Every would-be photo-engraver, if he is not already a skilled photographer,
-should obtain and study a good photographic text-book. If he proposes to make
-his own drawings, he should also obtain Burnet’s <i>Essays on Art</i>. The first will
-not only teach the best formula for the production of negatives, but it will also
-enjoin the importance of being careful, cleanly, and exact in all the manipulations.
-The second will teach how to draw according to the best rules of art.
-Remember always, the old injunction, <i>whatever you are, be best</i>! After the
-regular photographic manipulations are well looked after, the preparation of
-the drawing should have attention.—<span class="smcap">E<span>DWARD</span></span> L.
-<span class="smcap">W<span>ILSON.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="As To The Drawing.">AS TO THE DRAWING.</h4>
-
-<p>There are two separate and distinct styles of drawing for reproductive
-purposes, whether the artistic engraver be employed, or any of the means of
-automatic engraving be used. These two methods are technically known
-respectively as <i>fac simile</i> drawing, and drawing in wash. The former consists
-in the sole employment of lines, in which the shading is to be produced as well
-as the outline of a picture. Every line and mark that is subsequently to appear
-in the engraving must be traced in the original. This description of drawing
-is applicable to wood engraving, to line engraving upon copper or steel, as well
-as to all the methods for automatically producing blocks for relief printing.
-The line method is also universally adopted by
-etchers in <i>intaglio</i>.</p></div>
-
-<p>Successfully to prepare drawings for photographic reproduction it is essential
-that some knowledge should be possessed of the fundamental principles
-of <span class="xxpn" id="p095">{95}</span>
-photography, as well as an acquaintance with the capabilities of the particular
-process of production which is to be employed. Thus, the material upon which
-the drawing is to be made should be of such a character as will yield a strong
-and well-defined contrast to the lines of the drawing; while the pigment
-employed for the drawing should be as black as can be procured. White
-Bristol board of fine surface, and the best India ink meet these conditions.
-A blue-black does not form a desirable drawing medium, but the introduction
-of red or orange into the composition should serve to intensify the photographic
-image. To draw upon a dark orange-colored paper with a pale blue-gray ink
-would be simply to disregard all photographic principles, for the photographic
-value of the paper and of the ink would be nearly equal, and the drawing
-would consequently be lost.</p>
-
-<p>Uniformity of color in the drawing is also desirable, and the artist should
-resist the natural tendency to express distance and to produce his effects by
-diminishing the intensity of color in parts of his picture. From a drawing
-uniform in color a satisfactory negative is obtained; but, in the other case, the
-photographer must estimate an average duration of exposure, and will rarely
-escape the dilemma of some portions being overexposed while others are comparatively
-undeveloped. This theory receives illustration from the fact that
-very good subdued effects can be obtained from well-executed pencil drawings,
-where this uniformity of color is preserved. A longer exposure may be
-required, but every part of the picture will be equally developed.</p>
-
-<p>To return to the matter of the paper used, color is not the only important
-consideration. If the surface of the paper is irregular and coarse in texture,
-such as painters in water-color delight in, good results must not be expected.
-A negative, taken in the ordinary way from a drawing made on such material,
-would inevitably reproduce all the inequalities of the texture of the paper, to
-the manifest injury of the more delicate parts of the drawing. In reproductions
-from old prints or printed books, the conditions and character of the
-paper present some of the greatest difficulties with which the photographer has
-to contend. The ridges in the surface of the paper cast shadows which are too
-faithfully reproduced in the negative. The employment of a diffusive rather
-than a direct light is the usual remedy, but the best way of dealing with the
-difficulty is that employed in the studio of the Autotype Company. The
-original is laid upon the floor under a strong light, and the camera set at an
-angle of forty-five degrees.</p>
-
-<p>Mr. Alfred Dawson informs me that he inclines to the opinion, founded
-upon <span class="xxpn" id="p096">{96}</span>
-his extensive experience and untiring experiment, that it is desirable to get rid
-of the surface of the paper altogether, by covering it with a substance similar
-to an enamel.</p>
-
-<div class="keeptogether">
-<p>In conclusion, the conditions required in the successful preparation of drawings
-for photographic reproduction, may be thus briefly summarized: That a
-sufficient photographic contrast should exist between the pigment employed
-and the material upon which the drawing is made; that a paper should be
-selected which is smooth and without water-mark, and white; that the drawing
-material may be pencil or ink, in which blue is not a component.—<span class="smcap">J<span>AMES</span></span> S.
-<span class="smcap">H<span>ODGSON.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="Fading Out The Photograph.">FADING OUT THE PHOTOGRAPH.</h4>
-
-<p>For newspaper line work excellent results may be obtained by drawing
-over a photograph, and then fading out the photographic parts not wanted.
-There are several methods, but the following is the most simple and the easiest
-to manage: Make a weak solution of cyanide of potassium and add a flake or
-two of iodine. When the drawing is made with water-proof ink and on a
-photograph printed upon bromo-gelatine paper the above solution flowed over
-it will at once cause such portions of the image as have not been drawn upon
-with the ink, to fade away and leave nothing but a fine ink sketch against a
-perfectly white background.—<span class="smcap">R<span>OBERTS</span></span> &amp;
-<span class="smcap">F<span>ELLOWS.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="The Reversal Of Drawings (Negative Printing).">THE
- REVERSAL OF DRAWINGS (NEGATIVE PRINTING).</h4>
-
-<p>This very simple and very safe method is to be recommended especially for
-advertisements in papers and for titles of books, and can be made both by aid
-of photography (by a transparency) and without it,
-in the following manner:</p></div>
-
-<p>Make a copy, on copy-paper, of the drawing to be reversed, using an ink of
-gum, glycerine, and aniline, and transfer it carefully, without using too much
-water, when loosening. Dry the plate, and pour over it a solution of 1 part
-of asphaltum, 1 part Venetian turpentine, in 18 parts benzole; then allow to
-dry upon a plate. Place the plate into a weak soda solution, and develop with
-a fine pad of cotton, till the drawing stands clear. Ordinarily I employ the
-following method: A plate prepared for transfer is uniformly cleansed with
-gallic acid and then coated with gum, as in the case of blackening a transferred
-drawing, while both solutions are left to dry spontaneously. This done, the
-coating of gum and gallic acid is thoroughly washed off, and the plate is carefully
-dried and gently warmed. The transferred drawing must be made
-on <span class="xxpn" id="p097">{97}</span>
-paper with an easily soluble layer composed as follows: dissolve 100 grammes
-of wheat starch—<i>i. e.</i>, starch <i>made</i> of wheat—in 400 c.cm. of rain-water; raise
-1 litre of water to boiling and dissolve therein: 50 grammes of common salt,
-75 grammes of glycerine, 50 grammes of gelatine, and 25 grammes of molasses;
-when these are well dissolved and taken up, add slowly the wheat-starch, stirring
-continually; then allow to boil a short time so that we may dissolve it
-without an excess of water after the ordinary transfer of the picture. When
-this has been done, we wash it again with a soft brush and water, dry, dust
-twice, and burn in thoroughly with asphaltum. Place the plate in a very
-weak bath of nitric acid (10 cubic centimetres of acid to 1 litre of water), and
-rock it lightly for about two minutes until the zinc changes color. Then wash,
-dry, and warm.</p>
-
-<div class="keeptogether">
-<p>The combination of gum and gallic acid is broken up by this etching in all
-those places which were not protected through the transferred drawing, and the
-latter itself, in the subsequent blackening with chemical India-ink, forms the
-coating and protection against a combination of the zinc below. It is best to
-blacken it with a brush and to warm the plate until the ink has become dry.
-Now moisten again with gallic acid and gum, wash the plate (without great
-pressure) with spirits of turpentine, rub on more of the solution of gum, and
-blacken as usual. Practice will insure safe working by this method.—J. O.
-<span class="smcap">M<span>ORCH.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="Etching Apparatus.">ETCHING APPARATUS.</h4>
-
-<p>It does not come within the province of this work to instruct in the preparation
-of inks and colors for etching or for printing, since such articles are better
-purchased of the dealers ready prepared. In all cases the choicest results are
-obtained by using the best apparatus and the purest materials. There is no
-economy in “getting on” with the “cheap.”</p></div>
-
-<p>A few hints as to some of the “tools” which are found convenient in practice:
-For sifting the fine <i>resin dust</i>, a machine is employed, known to
-sieve manufacturers as “the <i>composition</i> sieve.” It consists of the ordinary
-sieve, having on each side a cover with a bottom of calf skin. The sieve-bottom
-is made of the finest silk texture. (See Fig. 10.)</p>
-
-<p>For fixing and melting-in of the drawing on metal, I use a grate made of a
-wooden frame with diagonal iron rods. This form is preferable to the ordinary
-grate, because it allows the flame free access to the metal plate. Inasmuch as
-the heat is strongest in the <i>centre</i>, the cross-bars protect the centre of the plate
-from burning and from warping. The source of heat is either an
-alcohol <span class="xxpn" id="p098">{98}</span>
-lamp (Fig. 11) in which cotton soaked in alcohol is ignited (the cover shown in
-the drawing serves to smother the flame), or a strong gas flame (Bunsen burner).
-The adoption of the latter mode is advisable.</p>
-
-<div class="imctr01" id="fig10"><div id="fig11">
-<img src="images/i098a.jpg" width="600" height="113" alt="" />
-<div class="caption">
-<table class="tabwth100" summary="caption">
-<tr>
- <td class="tdwth-b">Fig. 10. The Sieve.</td>
- <td class="tdwth-c">Fig. 11.</td></tr></table>
-</div></div></div>
-
-<p>Formerly I employed a plain cast-iron heating-plate, with
-a gas or a petroleum flame. The zinc plate, however, being
-in direct contact with the hot surface, warped very much. I
-obviated that somewhat by covering the heating-plate with
-a piece of wire-gauze. The strata of hot air thus obtained
-between the cast-iron and the zinc plate heats the latter
-equally throughout, and prevents warping. Still I prefer the
-direct method.</p>
-
-<p>For freeing the plate from resin-dust, employ a strong
-pair of ordinary bellows.</p>
-
-<p>The table (Fig. 12) for washing the coating material from
-the plate consists of a heavy framework, upon which rests a
-wooden grate. A massive table-board is not to be recommended,
-as the dirty sawdust adheres to the same, while with the
-other it easily falls through the openings into a box, and
-leaves the table free and clear.</p>
-
-<div class="figleft imwth05" id="fig12">
-<img src="images/i098b.jpg" width="348" height="276" alt="" />
-<div class="caption">Fig. 12.</div>
-</div>
-
-<p>The measuring or calibre-bridge (see Fig. 7) serves
-to determine accurately whether the ready plates have
-the height of type. A rule of forty <span class="xxpn"
-id="p099">{99}</span> centimetres will suffice for any
-plate. No plate should leave the workshop without having been
-tested as to its thickness or height on this instrument.</p>
-
-<p>The zinc plane is of ordinary construction, to the bottom
-of which is attached a double layer of hard wood. The iron
-being arranged for scraping can be inserted in a position
-just the reverse of the ordinary plane.</p>
-
-<p>The “hand-bridge” is a strong ruler, thirty centimetres
-long, and five centimetres wide, to the ends of which are
-fastened two blocks of wood one centimetre high. It serves as
-a support for the hand in retouching.</p>
-
-<div class="keeptogether">
-<p>The rollers of the “chemigraphist,” and also the pads, are of greatest importance.
-For etching by the French process we need a good, rough roller, and a
-faultless, smooth one; for the Vienna process only the latter is needed, in
-addition to a smooth, tight leather ball or pad, such as was used in the art of
-printing prior to the introduction of rollers. A perfectly smooth surface is
-obtained by covering the rollers with a dryer, and allowing them to dry in the
-open air. A solution of shellac with camphor, applied like furniture polish,
-also yields a fine surface.—J. O.
-<span class="smcap">M<span>ORCH.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="The Best Drying Box.">THE BEST DRYING BOX.</h4>
-
-<p>After bichromatizing the gelatine sheet for printing the transfer image, I
-proceed with the drying in a box constructed as follows:</p></div>
-
-<p>The box has four walls or sides of cloth, or any other stuff that allows the
-air to pass through, and must have a solid bottom, which will allow the attachment
-of a heating apparatus beneath it. In this box is a cylinder which turns
-on its own axle, and which can be set in rotation from the outside when the box
-is closed. Upon this cylinder the gelatine paper, as we may call it, is placed,
-and the box closed. A very equalizing drying is thus obtained, by keeping
-the heating apparatus under the bottom of the box constantly at a steady,
-uniform heat. By these means, it will be noticed:</p>
-
-<p>1. That an uneven running down of the chrome-layer is avoided, and uneven
-drying also positively prevented in consequence of the centrifugal force.</p>
-
-<p>2. That the drying by the draft of air is regulated, and at the same time the
-air can be driven to a more rapid current.</p>
-
-<p>3. That the grain formed by this extraordinary method is unusually perfect,
-and the nature of the grain more pleasing to the eye than when formed by
-chlorides.</p>
-
-<p>4. That, as already stated, a rolling up or an uneven drying is hereby <span class="xxpn" id="p100">{100}</span>
-positively prevented, as the paper is placed tight around the cylinder. And now for
-the main advantage:</p>
-
-<div class="keeptogether">
-<p>This so dried paper is ready for use, and, when exposed to light, under a
-negative, produces a perfect and correct picture, which, when rolled up with
-transfer ink and developed in water, is ready for transferring direct on to the
-lithographic stone, or on to a metal plate, and to be further proceeded with as
-usual.—<span class="smcap">E<span>DWARD</span></span>
-<span class="smcap">M<span>EISSNER.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="To Produce Grain On A Negative.">TO PRODUCE GRAIN ON A NEGATIVE.</h4>
-
-<p>The negative is taken, and a solid pigment of Chinese ink sprinkled on it
-with the Air Brush, by which it gets a wonderfully fine grain. A coarser
-grain is made in a similar way, by sprinkling with a knife over a tooth-brush
-that has been dipped in Chinese ink. The Air Brush, however, will always
-be found the most suitable instrument, and now a wide field for its use is
-opened to artists of all classes. Instead of using Chinese ink, gamboge, or any
-other solid and well-covering pigment may be used.</p></div>
-
-<div class="keeptogether">
-<p>For the practical photo-engraver, lithographer, photo-lithographer, and other
-men of experience in photo-mechanical processes, no further explanation is
-required. They will at once see the <i>superiority</i> of this process over everything
-that has hitherto appeared. After the information we have just given, they
-will all be enabled to do work by this process. It will henceforward be easy to
-produce photo-lithographs for lithographic printing as well as printing plates
-for the type press <i>without difficulty, in a short time, and at trifling
-expense</i>.—<span class="smcap">F<span>RED.</span></span>
-<span class="smcap">B<span>UEHRING.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="On The Use Of Acids.">ON THE USE OF ACIDS.</h4>
-
-<p>A few hints on use of the acids will form my contribution to your work:</p></div>
-
-<p>In order to obtain a proper resistance and firmness in the lines, it is necessary
-to prevent the acid from making the base that supports them too thin, and to
-strengthen the base by giving the depression the form of a V, and the base
-itself the form of an A. The depth must be great enough in the broad blanks
-to prevent the roller from sinking (although there is no danger of this when
-the lines are close together), and thus soiling them. A useless depth between
-very thin sides might weaken them; but, in the process employed, the attack
-by the acid continues only in proportion to the width of the spaces to be
-excavated. <span class="xxpn" id="p101">{101}</span></p>
-
-<p>These results are obtained as follows: The prepared plate bearing the design
-is inked with a thick ink containing a little wax, and is placed in a trough with
-acidulated water, which slightly attacks the metal.</p>
-
-<p>The trough is mounted so as to rock, and is kept in motion by a lever
-actuated by a steam motor. The water moves to and fro over the entire
-surface, and keeps continually washing the parts that are not protected against
-its action. No local saturation, therefore occurs, and the continuously renewed
-liquid attacks the bottom as well as the sides of the hollow. The sides would
-soon be rendered too thin were the biting-in too long continued, and for this
-reason the first attack is made with great care. It is upon this that depends
-the sharpness of the proof. The acid used is nitric, so dilute that it is scarcely
-perceptible to the taste, and in the proportion of about one and a half ounces
-to a quart of water. The acidity is kept up by a small quantity of acid of 36°,
-that falls drop by drop from a bottle provided with a cock. After about a
-quarter of an hour, the plate is taken out, and the operation repeated as generally
-directed.</p>
-
-<p>Remember this: At every new biting-in the acidity of the bath is increased,
-and, when the broad parts alone remain exposed to the attack, acid of 6°&nbsp;B.
-may be used. In this state, the zinc plate, taken from the bath and washed
-and dried, is treated with benzine, and then with potash, in order to remove all
-fatty matter. It may then be seen that the sides of the hollows do not exhibit
-a regular sloping surface, but a series of ridges corresponding to the series of
-bitings-in. As these might take the ink, and affect the purity of the lights and
-shades, it is necessary to remove them by an operation analogous to the first,
-but carried on quickly in an opposite direction. With this intent, the plate,
-well cleaned and heated upon the iron table, is inked while hot, with a composition
-formed of two parts printing ink and one part each of resin and beeswax.
-This ink, which can be used hot only, descends along the sides of the
-depressions, and when it has got half way to the bottom the plate is cooled,
-and the inking is renewed so as to well cover the entire surface.</p>
-
-<div class="keeptogether">
-<p>It must not be believed that in practice these operations can be conducted
-without extreme care. A want of attention, unsuitable ink, or a too high or
-low temperature, may lead to the loss or poor execution of the piece. It is
-often objected that the lines in this style of plates have not the boldness of
-those produced by the graver. It is not for us to answer the question whether
-this is a merit or a defect; artists generally endeavor to employ paper with
-an irregular and granular surface, and which is far from giving such
-boldness; <span class="xxpn" id="p102">{102}</span>
-and he perhaps would be poorly appreciated who should present upon glazed
-paper a drawing made with the pen and resembling a picture made with the
-graver. It is the artist’s business to produce the work such as he desires the
-Gilloteur to render it.—<span class="smcap">G<span>ILLOT.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="Multiplication of Zinc Etchings by Galvanic Means
-And by Stereotyping.">MULTIPLICATION OF ZINC ETCHINGS BY GALVANIC MEANS
-AND BY STEREOTYPING.</h4>
-
-<p>Multiplication of printing-blocks by galvanoplastic, or stereotyping, is not
-so easy as in case of woodcuts or type. The main difficulty lies in some
-peculiarities of the process of etching, especially if the plate has been produced
-by the French method. The reproduction of a form is often impossible,
-since the matrix is caught on certain rough spots and then tears, thus rendering
-galvanoplastic reproductions imperfect.</p></div>
-
-<p>Having very frequent opportunity of making matrices from plates, I call
-the etcher’s attention to several points upon which the success of the work
-depends. On no condition whatever may any parts of the plate be corroded
-from beneath, as wax or gutta-percha will invariably tear when lifting off the
-impression (mould).</p>
-
-<p>In the second place, the bottom of the etching must be perfectly smooth, not
-rough; the single grades, left by etching, must be removed, and the lines must
-incline perfectly smooth toward the depth of the etching.</p>
-
-<p>In stereotyping, the process of drying presents special difficulties, since with
-heat the wood warps and distorts the plate; the cold process, on the other
-hand, does not give equally sharp impressions. For this purpose I have
-mounted the plates on lead instead of on wood, and am thus enabled to get
-sharp impressions and to apply hot drying.</p>
-
-<p>Instead of paste, I employ light magnesia; instead of oiling the plate before
-planing or rolling it in, I give it a high polish with stearine oil and rouge by
-means of a circular brush, and brush it once more with talc. Thus I am sure
-of success.</p>
-
-<div class="keeptogether">
-<h4 title="Preparing Zinc Plates On The Printer’s Press.">PREPARING
- ZINC PLATES ON THE PRINTER’S PRESS.</h4>
-
-<p>A wood-cut gives the <i>outrunners</i> of the finest portions in a plane which runs
-downward; an etching, on the contrary, shows the whole engraving in one
-plane. According to this the <i>outrunners</i> (the borders) often print somewhat
-hard, unless care is taken to alleviate this fault. This will be easy to the
-experienced workman. <span class="xxpn" id="p103">{103}</span></p></div>
-
-<p>Starting from the fact that a zinc plate is easily bent, place something under
-the back of the <i>heavy</i> portions in mounting, and when nailing drive the nails
-tight in the white lights and on the edges; thus the borders are deepened, and
-<i>print</i> softer.</p>
-
-<p>In this manner an experienced and practised hand can produce effects
-impossible in any other way.</p>
-
-<p>For printing on rotary machines, galvanos are used in many places. But
-a zinc plate may be excellently fastened in the following manner:</p>
-
-<p>Clean the back well and solder the back with soft solder, as is customary in
-galvanic backing. Then attach it lightly to its place on the wooden or metal
-block, hammer or roll in the plate without paying special attention to the zinc
-plate, dry the matrix, and lift it from the form. After preparing for casting
-take the zinc plate from the wooden block, bend it while hot, put it back into
-its position in the matrix, cover the edges with tissue paper and paste, dry the
-edges with an iron, place into the casting apparatus and cast as usual. In this
-manner the zinc plate (metal, cast from a matrix) is in place at exactly the
-height of the type and will print excellently. (The face is to be slightly oiled
-before fastening in the matrix, to prevent any sticking of the lead.)</p>
-
-<p>As a <i>cover</i> for the printing cylinder, I have always found paper most serviceable,
-although covers of English leather are also advantageous, especially for
-large editions. I should not recommend felt.</p>
-
-<p>The rollers for printing zinc plates should be held with somewhat stronger
-tension than for printing of wood-engravings.</p>
-
-<p>As a method of preparing, I recommend the gradating of the lights and
-shades, known to every intelligent machinist. Wherever possible, highly
-calendered paper should be used, as it gives the best results.</p>
-
-<div class="keeptogether">
-<h4 title="Etching With Sulphate Of Copper Solution.">ETCHING
- WITH SULPHATE OF COPPER SOLUTION.</h4>
-
-<p>Nitric acid may be replaced by sulphate of copper, especially in the first
-periods of etching, and etching can be obtained both in a galvanic way and by
-easy shaking of the tray. The sulphuric acid of the copper sulphate combines
-with the zinc and the copper, and when liberated, precipitates as an amorphous,
-muddy substance.</p></div>
-
-<p>Although this process has almost entirely fallen into disuse, the most important
-points are treated of below.</p>
-
-<p><i>The bath.</i>—Dissolve pure copper sulphate (of the strength of 9°&nbsp;Beaumé) at
-a temperature of 15°&nbsp;C. Etch galvanically in this bath by placing in it a
-clean <span class="xxpn" id="p104">{104}</span>
-copper dish. The plate prepared for etching as per
-page <a href="#p084" title="go to p. 84">84,</a> is rubbed bright at
-the four corners and four S-shaped narrow strips of sheet copper are so
-fastened to the bright zinc that the S-shaped end rises about three millimetres
-over the picture. Then place the plate face downward for three minutes into
-the bath, above the copper plate, which is electrically connected with the zinc
-by brass strips, so that instantly a strong galvanic current is set up. The
-etchings are found to be very satisfactory and interesting. In three periods
-(nine minutes) a beautiful preliminary etching is obtained with rather perpendicular
-faces.</p>
-
-<p>I cannot recommend etching by shaking, as the sediment causes rupture
-of the finest lines.</p>
-
-<div class="keeptogether">
-<h4 title="Process For High Etching In Relief.">PROCESS
- FOR HIGH ETCHING IN RELIEF.</h4>
-
-<p>Experienced etchers can also apply their art to the reproduction of drawings
-by means of the printer’s press, in the following manner:</p></div>
-
-<p>A plate, ready for etching and free from grease, is cleaned with weakly
-acidified water, the remaining water drawn off with a blotter, and the plate
-gently heated. By means of a pad a fine paste of graphite is rubbed upon the
-surface; it is then moderately heated and a very thin gauze-like layer of warm
-white wax is applied to the graphite surface. After cooling the plate, spread
-upon it a coat consisting of the finest orange-colored chrome yellow (rubbed to
-a fine dough with water and gum). In this ground layer we can erase as for
-deep etching.</p>
-
-<div class="keeptogether">
-<p>Brush the finished surface with writing ink dissolved in benzine (using a fine
-wide brush). The plate should be warm. Take a pad made of cotton, dip it
-into water and work over the surface in small circles until the image has become
-well developed. From this point we can continue according to the usual
-method.</p>
-
-<p class="psignature">J. O.
-<span class="smcap">M<span>ÖRCH.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="The Running Of A Workshop.">THE
- RUNNING OF A WORKSHOP.</h4>
-
-<p>The great competition demands of every chemigraphical business a ready,
-productive organization, which is also attentive to the rules of economy. In
-following out the latter it is advisable to aim at a division of labor. By
-giving to the single workmen more practice in each particular manipulation,
-the quality of the work is also promoted. To secure a lucrative trade, we need
-the following helpers: 1. A foreman thoroughly acquainted with the whole
-process. 2. A photographic assistant, who is skilled especially in straight
-line <span class="xxpn" id="p105">{105}</span>
-reproduction, and who aids in the copying of negatives. 3. A carpenter, at the
-same time polisher of the zinc and finisher of the plates, who will also assist at
-other things in general. 4. A first manipulator, who understands blacking of
-the plates and the examination of the same throughout the whole process. 5.
-A man to form the etching varnish on the plates. 6. A man to scrape off. 7.
-A man to etch. 8. One to wash plates and to make himself generally useful.
-With the aid of such a staff it is possible to produce 2000 square centimetres
-of etching daily, and by the addition of a ninth assistant the capacity can be
-raised to 3000 square centimetres.</p></div>
-
-<p>A first manipulator can be trained in three months, a carpenter in the same
-time, and the others in four to six weeks.</p>
-
-<p>The head of the establishment will, of course, be doubly busy during these
-first months. Upon his abilities depends the success of the whole.</p>
-
-<div class="keeptogether">
-<p>I think it is inadvisable to introduce etching into all the printing establishments,
-as production on a small scale is far more expensive and less satisfactory.
-But it <i>is</i> advisable to add to the chemigraphy a small lithographical
-laboratory.—J. O.
-<span class="smcap">M<span>ORCH.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="Some Wrinkles And Dodges.">SOME WRINKLES AND DODGES.</h4>
-
-<p>As I had to stumble through to success like many others, I gladly give a
-few little items of practice which may speed the work of others. I like this
-for a sensitizing solution:</p></div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="sensitizing solution">
-<tr>
- <td class="tdleft padr">Bichromate of Potash in powder</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">15</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol (950)</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-</table></div></div>
-
-<p>After I have sensitized the gelatine transfer paper I increase the surface
-quality by laying it upon a glass plate which has been heated <i>very slightly
-indeed</i>
-with vaseline. I use a squeegee to secure close contact and then stand it up to
-dry, say over night. A slight start at one corner with a knife point will cause
-the paper to leave the glass readily.</p>
-
-<p>It pays always to get the best material. Nothing is worse than a bad quality
-of zinc. I use No. 10. A strong, well-made clotheswringer will answer for
-a time, for making transfers, when a lithographic press is not convenient. The
-pressure should be uniform.</p>
-
-<div class="keeptogether">
-<p>Learn to be systematic until you are familiar with all the details of the work.
-It might be well for you to make a numbered list of the necessary
-operations <span class="xxpn" id="p106">{106}</span>
-and paste it up where you can see it and refer to it handily. Accustom yourself
-to having a place for everything and everything in its place. I have seen
-many an etching lost by disregard of this rule.—C. W.
-<span class="smcap">R<span>OCHE.</span></span></p></div>
-
-<div class="keeptogether">
-<h4 title="Carbon Printing.">CARBON PRINTING.</h4>
-
-<p>In Chapters III. and IV. on engraving on copper, the resist and relief are
-made by what is called in photographic nomenclature the carbon process—that
-is, printing in gelatine to which has been added a suitable pigment. This pigmented
-gelatine, spread upon paper and dried, is known in commerce as carbon
-tissue, and is sold of various colors and degrees of density as regards the quantity
-of pigment incorporated with the gelatine. For our purpose that tissue
-containing the minimum quantity of pigment is the best (this only applies to
-the resist or relief on the copper, not to the transparency necessary for printing
-the resist from; in this case what is known as transparency tissue must be
-used, and that is made with the maximum quantity of pigment (India ink) incorporated
-with the gelatine), but as the subject of making transparencies in
-carbon has already been treated of, the present notes will be confined entirely to
-developing carbon prints upon copper for resists (Chapter III. for reliefs
-Chapter IV.).</p></div>
-
-<p>The carbon tissue of commerce is not sold in a sensitive condition; therefore,
-the first care will be to render it sensitive to the action of light, which is done
-by immersion in a solution of bichromates of potash and ammonia.</p>
-
-<p>First of all dissolve in eighty ounces of water one and a half ounces of bichromate
-of ammonia, and one ounce of bichromate of potassium, and filter.
-Then cut the carbon tissue into suitable sized pieces—<i>i. e.</i>, pieces a little
-larger than the subject on the transparency or negative to be used, and a little
-smaller than the copper plate upon which it is intended to develop the carbon
-print; next select a sufficient number of glass plates quite free from scratches
-a little larger than the pieces of tissue, now clean these glass plates carefully
-by polishing with clean linen or silk cloth free from lint, then dust over
-with French chalk and again well polish; then coat with thin plain collodion,
-and when the film is well set place the collodionized plate in clean cold water
-until the greasy appearance that shows on the first immersion in the water has
-disappeared.</p>
-
-<p>Place the filtered bichromate solution in a clean dish, then immerse the
-pieces of tissue, one at a time, taking care that no air bells are
-allowed to <span class="xxpn" id="p107">{107}</span>
-remain upon the surface; if any form, remove them by bursting them with the
-fingers. After the tissue has been in the solution for three minutes, take one
-of the collodionized and washed plates from the water and remove one of the
-pieces of tissue from the bichromate bath, place the two face to face, lowering
-the tissue gently down upon the collodion film, then place the glass plate upon
-a bench, lay a piece of Macintosh cloth (larger than the plate) over the tissue,
-and with a squeegee gently scrape along the Macintosh; this will bring the
-carbon tissue into contact with the collodion film, and also expel superfluous
-bichromate solution, but care must be taken not to remove too much of the
-bichromate else the tissue will be insensitive and print hard. The plate is now
-placed upon a rack, and all the remaining pieces being done in the same way
-are also placed upon the rack.</p>
-
-<p>The tissue being thus squeegeed into optical contact (the squeegee is made
-with a strip of soft rubber fixed between two pieces of wood) with the collodionized
-glass, it must be dried in the dark room in a current of warm air, not
-higher than 60°&nbsp;F., else the pigmented gelatine will melt and be useless (bye
-the bye, the bichromate solution in hot weather should be iced so as to keep
-the temperature below 50°&nbsp;F.).</p>
-
-<p>When the tissue is dry it is stripped from the glass and stored in a tin tube,
-and care must be taken to keep it away from the light, as if the tissue be once
-exposed to the light even for a short time, the action will go on in the dark.</p>
-
-<p>In treating of the transparencies, it is mentioned that the subject on the transparency
-or negative is marked, this being necessary to form what is called a
-safe edge to the carbon print. If such a safe edge be not provided, the carbon
-print will not adhere to the copper during development; therefore, the extreme
-edges of the tissue must be guarded from the light during the exposure in the
-printing frame.</p>
-
-<p>The exposure to light under the negative or transparency must be timed by
-means of an actinometer, which may be improvised by dividing a strip of
-tracing paper into ten spaces, and numbering these spaces so:</p>
-
-<div class="imctr01">
-<img src="images/i107.jpg" width="600" height="91" alt="" />
-</div>
-
-<p>Write the figures with good black ink and then cut other pieces of white
-tracing paper into strips of the same
-width. <span class="xxpn" id="p108">{108}</span></p>
-
-<p>Now lay the piece of tracing paper with the numbers on it, upon a piece of
-glass 4&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>4</sub>&#160;×
-3&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>4</sub>
-inches, and fix it in the centre,
-then place thicknesses of tracing
-paper over this so that space 2 has three thicknesses of tracing paper, space 3
-five thicknesses, space 4 seven thicknesses, space 5 eight, space 6 nine, and so
-on up to 10. Now if a piece of ordinary sensitive albumen paper is put into a
-frame behind this screen, it will form an actinometer, and when, after exposure
-to light the figure 5 is just visible, five tints are registered.</p>
-
-<p>This actinometer will with practice enable the operator to judge when the
-carbon tissue has been exposed sufficiently long; the only guide that can be
-given, is to err on the side of overexposure rather than underexpose.</p>
-
-<p>The carbon tissue being exposed, it is removed from the frame, and placed
-in clean cold water; then as soon as it begins to uncurl itself, the copper plate
-is placed in the water, and the two are brought into contact, the tissue adjusted
-in position upon the copper, then removed from the water, and a squeegee
-applied vigorously to the back of the tissue, applying the squeegee first one way
-and then the other.</p>
-
-<p>Now allow to stand a few minutes, then immerse it in water at a temperature
-of 90° or 95°&nbsp;F., and in a few minutes the pigmented gelatine will begin to
-ooze from under the paper backing, which may now be stripped off and thrown
-away. The copper plate may now be raised and gently laved with the hot
-water, or it may be allowed to remain until the whole of the soluble gelatine
-is dissolved away, leaving the picture upon the copper plate, which is rinsed
-in cold water and dried.</p>
-
-<p>For the purpose of copper plate work, the image must be thoroughly well
-exposed, every detail being impressed, else it will be impossible to get a good
-photogravure; therefore, until the operator thoroughly understands the use of
-the actinometer it will be as well to make a few prints upon a piece of opal
-glass.</p>
-
-<p>Carbon tissue does not keep in a sensitive condition more than a month,
-under the most favorable conditions, the general time perhaps being a week.
-The first sign of deterioration is generally shown when trying to mount
-upon the copper, after soaking in cold water, the tissue refusing to adhere after
-the application of the squeegee. The best way to test the sensitive tissue is to
-take a small piece and immerse it in cold water for a minute, then put it into
-water at 95°, and, if the coating dissolves off the paper the tissue is all right;
-if it does not, it is useless. Tissue will generally be found at its best
-about <span class="xxpn" id="p109">{109}</span>
-three days after sensitizing, and will gain rapidly in sensitiveness daily afterward.</p>
-
-<p>Carbon tissue can be made at home, the following being the formula:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="formula for carbon tissue">
-<tr>
- <td class="tdleft padr">Gelatine (soft)</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Sugar</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>Dissolve the gelatine at as low a temperature as possible, then add the sugar
-and churn thoroughly; then add sixty grains of India-ink, previously dissolved
-in a little water, again churn, then strain through muslin into a dish
-(which dish is placed in another containing hot water). Now take two sheets
-of paper, grasp one end tightly and drag them rapidly through the tissue compound,
-and directly they are lifted clear of the solution let an assistant grasp
-the bottom and you dropping the top, will reverse the sheets and keep the
-gelatine on the surface of the paper; when the gelatine has set, divide the two
-sheets and hang up to dry; when dry the subsequent proceedings are the same
-as for commercial tissue.</p>
-
-<div class="keeptogether">
-<h4 title="Colas’s Black Process.">COLAS’S BLACK PROCESS.</h4>
-
-<p>This process will often be found useful to reproduce a drawing on yellow
-tracing-paper, so as to give a more suitable copy to photograph from.</p></div>
-
-<p>Coat with a fine sponge a hard, well-sized paper, with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution for tracing paper">
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">300</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">&#8199;10</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Perchloride of Iron (dry)</td>
- <td class="tdleft padr">&#8199;20</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Tartaric Acid</td>
- <td class="tdleft padr">&#8199;10</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Persulphate of Zinc</td>
- <td class="tdleft padr">&#8199;10</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">and dry in a dark-room.</p>
-
-<p>When dry, expose under the tracing until the greenish-yellow tint of the
-paper has disappeared, except where covered by the opaque lines.</p>
-
-<p>Development is effected in a bath made by dissolving 20 parts of gallic acid
-in 200 parts of alcohol and 1000 parts of water; then wash in plenty of clean
-water.</p>
-
-<div class="keeptogether">
-<h4 title="Mordants For Etching.">MORDANTS FOR ETCHING.</h4>
-
-<div class="divp"><h5 class="hinline" title="I. Mordants for Steel">I.
-<span class="smcap">M<span>ORDANTS</span></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">S<span>TEEL.</span></span></h5>—Nitric acid forms the basis of most fluids for
-etching steel as well as for other metals. Acetic acid and alcohol are sometimes
-added, and some formulæ contain nitrate of silver, corrosive sublimate, salts
-of <span class="xxpn" id="p110">{110}</span>
-copper, etc. Iodine is also a most efficient mordant for steel, and Mr. Fox-Talbot
-used the chlorides of iron and platinum for etching his plates through
-the coating of bichromated gelatine.</div></div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="4"><h6 title="Plain Acid Mordant.—(Kruger.)">
- <i>Plain Acid Mordant.—(Kruger.)</i></h6></th></tr>
-<tr>
- <td class="tdleft padr" rowspan="2">First biting:</td>
- <td class="tdleft padr">Muriatic or Nitric Acid</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">8</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr" rowspan="2">Stronger:</td>
- <td class="tdleft padr">Acid</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Deepest:</td>
- <td class="tdleft">Equal parts acid and water.</td></tr>
-</table></div>
-</div>
-
-<div class="divp"><h6 class="hinline" title="Kruger."><i>Kruger.</i></h6>—Chromic
-acid, diluted according to the effect to be produced. This
-also serves for zinc, copper, and brass, and bites with great ease and certainty,
-making a good vertical cut.</div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Ed. Turrell."><i>Ed. Turrell.</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Glacial Acetic Acid</td>
- <td class="tdleft padr">4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Absolute Alcohol</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Nitric Acid (specific gravity, 1.28)</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-</table></div></div>
-
-<p>The acetic acid and alcohol are mixed and allowed to stand for half an hour,
-then the nitric acid is added very gradually. This mordant is applied from
-one to fifteen minutes, according to the strength desired, and may be
-strengthened by adding nitric acid.</p>
-
-<div class="keeptogether">
-<h6 title="Etching Solution with Alcohol."><i>Etching Solution with Alcohol.</i></h6>
-
-<p>Alcohol seems to be added with the object of softening the action in the first
-biting, and of making the mordant bite at once. For etching Niepce de
-St. Victor’s asphaltum plates, M. Lemaitre used,
-for the first biting:</p></div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Nitric acid, at 36°</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">8</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol, at 36°</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">And finished off with nitric acid and water,
-without alcohol.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Etching Solution with Nitrate
- of Silver."><i>Etching Solution with Nitrate
- of Silver.</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">&#8199;6</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">&#8199;9</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Pure Nitric Acid</td>
- <td class="tdleft padr">16.6</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Nitrate of Silver</td>
- <td class="tdleft padr">&#8199;0.83</td>
- <td class="tdleft" id="p111">parts.</td></tr>
-</table></div></div>
-
-<p>The liquid improves by keeping. Before beginning, wash the plate for a
-few seconds with dilute nitric acid (at four per cent.), then apply the above
-mordant for about three minutes, and wash off with distilled water containing
-six per cent. of alcohol. Repeat the biting as often as may be necessary, well
-washing between each operation.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Deleschamps.—Glyphogen."><i>Deleschamps.—Glyphogen.</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Acetate of Silver</td>
- <td class="tdleft padr">&#8199;&#8199;8</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Rectified Spirits</td>
- <td class="tdleft padr">500</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">500</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Pure Nitric Acid</td>
- <td class="tdleft padr">260</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Nitric Ether</td>
- <td class="tdleft padr">&#8199;64</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Oxalic Acid</td>
- <td class="tdleft padr">&#8199;&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>This is recommended as being free from the defects of many of the other
-mordants, and as giving a clean vertical bite.</p>
-
-<p>Several formulæ contain salts of copper.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Roret."><i>Roret.</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Nitric Acid</td>
- <td class="tdleft padr">&#8199;62</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">125</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">187</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Nitrate of Copper</td>
- <td class="tdleft padr">&#8199;&#8199;8</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>Iodine is recommended as a very efficient mordant for steel, being free from
-the inconveniences caused by the disengagement of gas, as when biting with
-nitric acid. Messrs. Schwarz and Boehme give the following:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Iodine</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Iodide of Potassium</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">40</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>This may be further diluted up to 40 parts more water, for etching the finest
-lines. It gives good deep lines, sharp, and with clear edges even, for the finest
-and closely ruled lines have no tendency to run one into the other.</p>
-
-<p>The following resembles the etching fluids for copper, commonly known as
-“Dutch mordant.”</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="etching fluids">
-<tr>
- <th colspan="4"><h6 title="Cooley."><i>Cooley.</i></h6></th></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Hydrochloric Acid</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">95</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Mix and add:</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Chlorate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">50</td>
- <td class="tdleft" id="p112">parts.</td></tr>
-</table></div>
-
-<div class="divp"><h6 class="hinline" title="Cooley."><i>Cooley.</i></h6>—For
-electric etching with the battery, a solution of common salt is used.</div>
-
-<div class="divp"><h5 class="hinline" title="II. Mordants for Copper.">II.
-<span class="smcap">M<span>ORDANTS</span></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">C<span>OPPER.</span></span></h5>—The most
-useful mordants for copper are
-nitric and nitrous acids, more or less diluted with water. Latterly, however, a
-mixture of chlorate of potash and hydrochloric acid, known as the “Dutch
-mordant,” has come more into use. For some purposes, perchloride of iron in
-solution is a useful mordant, particularly in photographic work with gelatine
-films. These two latter mordants bite more quietly than the acids, so that the
-lines are not so much enlarged, and there is not the same risk of close lines
-running together and other inconveniences caused by the evolution of bubbles
-of gas.</div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Acid Mordants.—(Lalanne.)">
- <i>Acid Mordants.—(Lalanne.)</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Nitric Acid, at 40°</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">With a little old etching solution added,
-or pieces of scrap copper.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Malaret."><i>Malaret.</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Nitric or Sulphuric Acid</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Saturated Solution of Bichromate of Potash</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>Fizeau used for daguerrotype etching a mordant composed of nitric, nitrous,
-and hydrochloric acids.</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="mixture">
-<tr>
- <th colspan="4"><h6 title="Dutch Mordant."><i>Dutch Mordant.</i></h6></th></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Fuming Muriatic Acid (specific gravity, 1.190)</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">70</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">To this add a
- boiling solution of</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Chlorate of Potash</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">parts.</td></tr>
-</table></div>
-
-<p class="pcontinue">This may be diluted with from
-100 to 400 parts of water as required.</p>
-
-<p>Perchloride of iron, more or less diluted in
-water, is, according to Hamerton, an excellent
-mordant. It bites deep and clear, without enlarging
-the line much, and there is no ebullition, as
-with nitric acid. It is particularly useful in
-photographic etching through gelatine, as the
-latter is insoluble in it.</p>
-
-<p>In most cases the mordant is flowed over the
-plate, or kept moving on it in the same way as a
-photographic developer. Such mordants are generally
-used for finishing off and deepening the light
-tints, and are called <i>eau fortis à couler or à
-passer</i>. The following formulæ are given: <span
-class="xxpn" id="p113">{113}</span></p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Roret.—(Abraham Rosse’s.)"><i>Roret.—(Abraham Rosse’s.)</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Strong White or Distilled Vinegar</td>
- <td class="tdleft padr">&#8199;&#8199;3</td>
- <td class="tdleft">litres.</td></tr>
-<tr>
- <td class="tdleft padr">Sal Ammoniac</td>
- <td class="tdleft padr">180</td>
- <td class="tdleft">grammes.</td></tr>
-<tr>
- <td class="tdleft padr">Common Salt</td>
- <td class="tdleft padr">180</td>
- <td class="tdleft">grammes.</td></tr>
-<tr>
- <td class="tdleft padr">Pure Verdigris</td>
- <td class="tdleft padr">120</td>
- <td class="tdleft">grammes.</td></tr>
-</table></div></div>
-
-<p>A little oxalic acid is sometimes added. The solids are ground up, and
-boiled in the vinegar. Acetic acid at 3°, or pyroligneous acid, may be used in
-place of vinegar, and, if too strong, more vinegar should be added.</p>
-
-<p>The following, used by Callot and Piranesi, is similar and prepared in the
-same way:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Strong Vinegar</td>
- <td class="tdleft padr">&#8199;8</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Verdigris</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Sal Ammoniac</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Salt</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Alum</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">16</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>For relief etching use only 10 parts of water.</p>
-
-<h6 title="Relief Etching."><i>Relief Etching.</i></h6>
-
-<p>For etching copper in relief, the following glyphogen is recommended by
-Deleschamps:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Nitrous Acid, at 30°</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Acetate of Silver</td>
- <td class="tdleft padr">&#8199;6</td>
- <td class="tdleft">drachms.</td></tr>
-<tr>
- <td class="tdleft padr">Hydrated Nitric Ether</td>
- <td class="tdleft padr">16</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>The nitric ether is prepared by mixing two ounces each of nitric acid and
-alcohol, and, when the reaction commences, stopping it by adding eight ounces
-of distilled water.</p>
-
-<h6 title="Tint Etching."><i>Tint Etching.</i></h6>
-
-<p>Flour of sulphur mixed with oil forms a good composition for etching
-tints. It can be applied with a brush. For a flat tint, Hamerton says “Oil
-the plate liberally with olive oil, and blow flour of sulphur upon this.” The
-sulphur, if allowed to remain on the plate, will produce a flat tint, more or less
-deep in proportion to the time it remains.</p>
-
-<p>Roret gives the following formula for tint etching:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bay Salt</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Sal Ammoniac</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Verdigris</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">These are pounded together, and the mixture kept in a
-bottle. <span class="xxpn" id="p114">{114}</span></p>
-
-<p>When required for use, grind up a little in a glass with some syrup of old
-honey, so as to make a mixture which flows readily. It may be used with a
-brush like a color. It is used after the bitings of aquatint plates with acid, to
-give finish and vary the tints.</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h6 title="Fielding (for aquatint)."><i>Fielding (for aquatint).</i></h6></th></tr>
-<tr>
- <td class="tdleft padr">Nitrous Acid</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">For the strongest touches, nitrous acid and water, equal parts, applied with a
-feather or brush. No. 19 may also be used for this purpose, either with or
-without a little gum.</p>
-
-<div class="divp"><h6 class="hinline" title="Hamman."><i>Hamman.</i></h6>—Dilute
-nitric acid at 12° (sp. gr. 1.09), mixed with:</div>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">12</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">&#8199;3</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">This is said to give a grain in biting, so that the ordinary grained ground may
-be dispensed with.</p>
-
-<div class="keeptogether">
-<h6 title="Electric Etching."><i>Electric Etching.</i></h6>
-
-<p>It has frequently been proposed to etch by means of electricity, and in some
-cases it may be an advantage to do so.</p></div>
-
-<p>The copper plate to be engraved is attached to the positive pole of a suitable
-battery and placed as anode in a solution of sulphate of copper, or in water
-acidulated with sulphuric acid.</p>
-
-<p>In suitable cases, different degrees of depth may be given, putting parts of
-the anode and cathode nearer together or further apart.</p>
-
-<p>Grove etched daguerrotype plates with a single pair of Grove or Bunsen cells,
-by inserting the plate to be etched, and a platinum plate of the same size, in a
-wooden frame having two grooves a quarter of an inch apart.</p>
-
-<p>The daguerrotype having been attached to the battery as anode, and the
-platinum plates as cathode, the frame is immersed in a suitable vessel filled
-with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Hydrochloric Acid</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Distilled Water</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Contact is made for about half a minute, after which the plate is removed from
-the acid, washed thoroughly with distilled water, then placed in a solution of
-hyposulphite of soda or ammonia, and the deposit removed from the
-surface <span class="xxpn" id="p115">{115}</span>
-with gentle rubbing with cotton. It is again rinsed with distilled water and
-dried.</p>
-
-<div class="keeptogether">
-<h5 title="Mordants For Zinc.">MORDANTS FOR ZINC.</h5>
-
-<p>The comparative cheapness of zinc would give it
-an advantage over copper or steel for engraving or
-etching with the graver or point, but it does not
-seem to be recommended for these purposes. It is
-hard to cut with the graver, and, though it bites
-easily, it is not suitable for fine work. Another
-defect is that it will not stand a long impression;
-but this may be overcome by surfacing the plate
-with copper. The principal uses of this metal for
-printing purposes are for surface printing or
-zincography in the same manner as lithography,
-and for the process of biting in relief, and
-zinco-typography or Gillotage, now so largely
-employed as a substitute for wood blocks. It can
-also be engraved very delicately in the same style
-as engraving is done on stone, through a coating of
-gum.</p></div>
-
-<p>The etching fluids for zinc are of two entirely
-different kinds: first, mixtures of gum and weak
-acids used for preparing plates for zincographic
-printing in the lithographic press, or for
-preliminary inking preparatory to being bitten in
-relief by the Gillotage process; and secondly,
-mineral acid, more or less dilute, used for biting
-in relief and ordinary etching.</p>
-
-<div class="keeptogether">
-<h6 title="Zincographic Etching."><i>Zincographic Etching.</i></h6>
-
-<p>This kind of etching is more of a preparation of the plate for printing than
-engraving or biting, the object being merely to fill up the pores of the metal
-with gum, and prevent it receiving printers’ ink from the roller elsewhere than
-on the lines of the drawing.</p></div>
-
-<p>The solution most commonly employed for this purpose is a mixture of gum
-and decoction of nut-galls, in use at the Ordnance Survey Office, Southampton,
-and given by Sir Henry James in his work on <i>Photo-zincography</i>. It is prepared
-as follows: Four ounces of Aleppo galls are bruised and steeped in three
-quarts of cold water for twenty-four hours; the water and galls are then boiled
-up together, and the decoction strained. The gum-water should be about the
-consistency of cream. One quart of the decoction of galls is added to three
-quarts of the gum-water and to the mixture are added about three ounces of
-phosphoric acid, which is prepared by placing sticks of phosphorus in a
-loosely corked bottle of water, so that the ends of the sticks may be uncovered.
-The oxidation of the phosphorus produces phosphoric acid, which dissolves as
-fast as it is formed. <span class="xxpn" id="p116">{116}</span></p>
-
-<p>The etching solution should only just mark a piece of plain zinc.</p>
-
-<p>In Richmond’s <i>Grammar of Lithography</i> the following modifications of this
-formula are given:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="Richmond's modifications">
-<tr>
- <td class="tdleft padr">Decoction of Nutgalls</td>
- <td class="tdleft padr">&#8199;<sup>3</sup>&#xfeff;&#8260;&#xfeff;<sub>4</sub></td>
- <td class="tdleft">pint.</td></tr>
-<tr>
- <td class="tdleft padr">Gum Water as thick as Cream</td>
- <td class="tdleft padr">&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>4</sub></td>
- <td class="tdleft">pint.</td></tr>
-<tr>
- <td class="tdleft padr">Phosphoric Acid Solution</td>
- <td class="tdleft padr">3</td>
- <td class="tdleft">drachms.</td></tr>
-</table></div></div>
-
-<p>Boil one and a quarter ounces of bruised nutgalls in one and a quarter
-pounds of water till reduced to one-third, strain, and add two drachms of nitric
-acid and four drops of acetic acid.</p>
-
-<p>Richmond recommends, however, the use of a simple decoction of galls without
-acid, and gumming in after etching.</p>
-
-<p>Scamoni has the following, by Garnier: Boil about one and a half ounces of
-bruised gall-nuts in a pint of water till reduced to one-third, filter, and add two
-drops of nitric acid, and three or four drops of muriatic acid. For very fine
-work this may be weakened with water. It is applied for about a minute,
-then washed off, and the plate gummed.</p>
-
-<div class="keeptogether">
-<h6 title="Zinco-typographic Etching."><i>Zinco-typographic Etching.</i></h6>
-
-<p>In biting zinc plates in relief, the acid generally used is nitric of different
-degrees of strength, according to the nature and state of the work.</p></div>
-
-<p>After the transfer is made, the plate is etched with one of the foregoing
-preparations, then inked in and dusted with finely powdered resin, which
-adheres only to the lines. This procedure is followed after every biting, the
-plate being warmed to melt the resin and inky coating, so that it may run
-down between the lines and protect them from the undercutting action of the
-acid.</p>
-
-<p>Kruger, in his <i>Die Zinkogravure</i>, recommends for the first relief etching,
-nitric acid 30 to 40 drops to 100 grammes of water, applied for five minutes.
-For each subsequent etching, 8 to 10 drops of acid are added for each 100
-grammes of water, and the time is increased, from five to fifteen minutes. For
-the final etching of the broad lights he uses:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="Kruger's formula">
-<tr>
- <td class="tdleft padr">Muriatic Acid</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Nitric acid</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">part.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">16</td>
- <td class="tdleft">parts.</td></tr>
-</table></div></div>
-
-<p>To soften down the ridges between the lines the plate is inked and dusted
-as before, and etched with dilute nitric acid at five per cent., applied for
-a <span class="xxpn" id="p117">{117}</span>
-minute, and the inking, dusting, and etching repeated as often as may be
-necessary.</p>
-
-<div class="keeptogether">
-<h4 title="The Difference.">THE DIFFERENCE.</h4>
-
-<p>Finally, in this department, only the novice will require an explanation of
-the varied productions possible by means of the processes already given. As
-actual examples, reference may be had to the illustrations in this work. Figures
-1, 2, and 3 are specimens of line work, zinc etchings made from pen and ink
-drawings. The figures in the following chapter were made in the same way.</p></div>
-
-<div class="imctr05" id="fig13">
-<img src="images/i117.jpg" width="348" height="270" alt="" />
-<div class="caption">Fig. 13.</div>
-</div>
-
-<div class="figleft imwth08" id="fig14">
-<img src="images/i118.jpg" width="252" height="353" alt="" />
-<div class="caption">Fig. 14.</div>
-</div>
-
-<p>Figures 4, 5, 6, and 7, as well as some others, are zinc etchings reproduced
-from Mr. Mörch’s work. With them more effort has been made to secure
-half-tone by a variety and quantity, or filling, in of lines. The example below
-was made by using the objects (ferns) themselves as the negative, without any
-interposition from photography, and shows one of the possible applications of
-zinc etching. It is delicate work and is very beautiful when carefully done.
-An example of true half-tone, obtained in the manner described in Part II., is
-the one which follows. It was made by Mr. F. E. Ives, the earliest inventor
-of a half-tone process, several years ago. The larger examples of half-tone
-work which appear in this book are made after the most modern fashion and
-formulæ, as described in Part II., and will serve well to show what the worker
-in this fascinating process may expect to reach after patient and persistent
-experiment. When we look upon Fig. 1 and see the very best that
-zinc <span class="xxpn" id="p118">{118}</span>
-etching could do a few years ago, and compare it with the Mosstype and other
-half-tone pictures now possible, we may well wonder at the growth of the art.</p>
-
-<p>It has been attained by the careful and persistent plodding of a few. Many
-a method has been discarded for a newcomer, and there is no telling what may
-come next. Photography has about revolutionized the illustration of books
-and magazines, and has made the newspaper far more attractive than it was a
-few years ago. It has made the faces of
-almost every renowned individual familiar
-in every land and in every household, and
-the attractions of every known country
-have been so pictured by it that every
-intelligent child is familiar with them.
-It has been said that process-engraving
-has supplanted wood-engraving. This is
-not so. How many newspapers were illustrated
-before process-engraving was made
-available? How many works of the old
-masters and gems of the old museums
-abroad were made familiar to the lovers of
-pictures everywhere, by wood-engraving?
-Instead of coming into the arts to take
-the place of another, photo-engraving has
-made a place for itself and a market for
-itself. Moreover, it is refining and educating
-the masses by creating a love for art,
-where before its advent, there was very little feeling for the beautiful. Its
-accomplishments have been marvellous, and yet they have hardly begun.
-The good photography has done in bringing the wood-engraver up to his duty
-in following the artist in every line and light and shade, it will augment by
-teaching him how to secure the loveliest effects of nature. It will make way
-for more wood-engraving as well as for more process-pictures if you choose to
-call them such.</p>
-
-<div class="chapter">
-<h2 class="nobreak" title="Part III. Photo-engraving on Copper." id="p119">
-PART III.
-<span class="blksmaller">PHOTO-ENGRAVING ON COPPER.</span></h2>
-
-<h3 class="nobreak" title="Chapter I. Subjects in Line.">CHAPTER I.
-<span class="blksmaller">SUBJECTS IN LINE.</span></h3></div>
-
-<p>In printing from copper plates, the ink, instead of being spread on the surface
-of the plate by means of a flexible roller as in ordinary type printing, is smeared
-over the previously warmed plate and thereby forced into the deep parts of the
-plate. Then, after the surface is polished, the paper picks out the ink from
-these cavities and so forms the picture. Therefore, instead of using a negative
-for producing the resist, a transparency is required; and for the production of
-subjects in line, the transparency must fulfil all the conditions laid down as
-required in a negative for the production of prints for zinc etching and for
-photo-litho. transfers, and must be from a subject in line or in stipple.</p>
-
-<p>The negative is made the exact size required, by the wet collodion process
-(the lens being used without the reversing mirror). This negative is intensified
-by immersion in the bichloride of mercury solution, and after well washing is
-blackened by the application of ammonia, as directed in Part I. of this book,
-under the head of photographic manipulation.</p>
-
-<p>The negative must be varnished, and the margin outside the actual subject
-required to be shown in the copper plate, must be masked by means of strips
-of tin-foil cut perfectly straight and laid in position squarely and symmetrically.
-The object is to make this margin appear in the transparency as perfectly
-clear glass.</p>
-
-<p>The masked negative is next placed in the carrier of the dark slide, film up;
-then a couple of thicknesses of blotting paper about the eighth of an inch
-square are laid on the extreme corners of the negative. Upon these pieces of
-blotting paper a sensitive wet collodion plate is placed face down. The little
-squares of blotting paper serve to prevent the sensitive plate from touching the
-negative. <span class="xxpn" id="p120">{120}</span></p>
-
-<p>The camera, with the lens out of focus, should be pointed to a large sheet of
-white paper; insert the dark slide, draw the shutter, uncap the lens, and the
-light reflected from the white sheet through the lens, through the negative upon
-the sensitive plate, will result, after development, in a transparent positive of
-the negative.</p>
-
-<p>The time of exposure will, of course, vary and can only be found by experiment.
-The operations of development, etc., are carried on as for a negative.</p>
-
-<p>This method of making transparencies in the camera yields the best possible
-results, as the rays of light are projected by the lens perfectly parallel, and the
-resulting picture is far crisper than it is possible to obtain by exposing in the
-ordinary manner.</p>
-
-<p>If the negative to be reproduced is already made, and is larger than
-required, mask the margin by means of the tin-foil, place it in the holder of
-an enlarging camera, film towards the lens if the negative was made without a
-mirror; but if the mirror was used and the negative is a reversed one, the film
-must be placed away from the lens.</p>
-
-<p>The camera is now adjusted so as to get the image the size required, then a
-sensitive wet collodion plate is used to receive that image and produce the
-transparency.</p>
-
-<p>The transparency for printing upon a copper plate must, when laid upon a
-piece of white paper, allow every detail, however minute, to be perfectly distinct
-by reflected light. If this is not so it will be impossible to get a good
-engraving on the copper plate.</p>
-
-<p>The transparency being secured, a plate of highly polished copper is cleaned
-with a little fine whiting and alcohol, then flooded with water. Take care
-that all grease has been removed (which will be detected by the water running
-in streaks); next wipe the plate carefully with a clean, soft cloth, and place it
-in the jaws of the whirler mentioned in the chapter on the apparatus for zinc
-printing. In the dark-room coat the copper plate with prepared bitumen (see
-chapter on engraving on zinc in half-tone), and set the whirler in motion.
-When the film of bitumen is dry, place it in contact with the transparency in
-a printing frame, and expose it to the light (sunlight, if possible).</p>
-
-<p>The time of exposure will depend very greatly upon the time of year and
-day, but, in direct sunlight, ten to fifteen minutes will be about the time.</p>
-
-<p>After exposure, the copper plate is removed from the frame, and placed in a
-dish containing turpentine. Keep it rocking until the image is developed by
-the unaltered bitumen being washed away, then remove the plate from the
-dish, <span class="xxpn" id="p121">{121}</span>
-and wash it well under the tap. When quite dry, coat the back and edges of
-the copper with ordinary black varnish laid on with a camel’s-hair brush, so as
-to prevent the mordant to be used from attacking the back.</p>
-
-<p>Alterations and additions may now be made by means of transfer ink thinned
-with turpentine, applied by a sable brush, or by means of an etching needle or
-scraper, remembering that the etching needle or scraper will make a black line
-and the transfer ink will cause a white mark, or exactly the reverse of a type
-block. The plate is now ready for etching in a</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Saturated solution of Perchloride of Iron</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Use a porcelain dish for the solution. Immerse the plate, and keep it rocking
-for about ten or fifteen minutes, then remove it, and wash it under the tap,
-rubbing it gently with cotton-wool. After drying it, warm it slightly, then
-roll up with a glazed leather roller, or a smooth India-rubber roller charged
-with the hard ink used during the clearing-up of the zinc block, viz.:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Beeswax</td>
- <td class="tdleft padr">&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Resin</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Shoemaker’s Wax</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Litho-printing Ink, black</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Melt together. When cool, mix with turpentine to the consistency of soft soap.</p>
-
-<p>The roller is charged with this ink, and the plate warmed and rolled up, so
-as to close up the high lights and half tones, leaving only the deepest portions
-bare. Immerse in the etching fluid again for about three minutes, rocking
-during the immersion, and finally wash the plate.</p>
-
-<p>Next remove the resist of bitumen, by means of turpentine, and take proofs
-in the press. If deeper etching is required, proceed as before.</p>
-
-<p>The following is equally satisfactory, and a little quicker:</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="mixture">
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Fuming Muriatic Acid (sp. gr. 1.190)</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">70</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">To this is added
- a boiling solution of</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Chlorate of Potash</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">parts.</td></tr>
-</table></div>
-
-<p class="pcontinue">This is diluted for use by
-adding 1 part to from 100 to 400 parts of water.</p>
-
-<p>The time of immersion in either of these mordants is ruled by the temperature
-of the room and of the liquids used. One or two careful trials will soon
-give the desired information.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p122"
- title="Chapter II. Half-tone Intaglios.">
-CHAPTER II. <span class="blksmaller">
-HALF-TONE INTAGLIOS.</span></h3></div>
-
-<p>We now come to quite a different class of work, namely, the production of
-half-tone intaglio plates. They may be produced in many ways, each way
-giving results quite unlike the others.</p>
-
-<p>The first process is based on the half-tone method given for typographic
-blocks, modified to suit intaglio.</p>
-
-<p>In this, as in fact with
-<span class="smmaj">ALL</span> methods, we must first of all produce a satisfactory
-transparency. That is best done by reproducing in an enlarging
-camera.</p>
-
-<p>Place the negative, with the subject masked with tin-foil, in the window,
-then focus upon the ground-glass screen of the camera the requisite size; then
-prepare a wet collodion plate, and, having fixed a grained screen* in front of
-the carrier, put the plate in its place, then expose to the light and develop as
-directed for wet collodion pictures; the result, however, will be a positive and
-not a negative, and instead of the grain being interspersed through the high
-lights, the shadows will be grained.</p>
-
-<div class="footnote" id="Footnote_6_6">
-
-<p class="pfn">* The
-grained screen is a copy from a proof from a fine ruled copper plate.
-See Chapter on “Half-tone Blocks on Zinc.”</p></div>
-
-<p>The transparency must be made in this manner—<i>i. e.</i>, from an ordinary
-negative with a screen in front of the sensitive plate, so that the shadows and
-half tones are grained or broken up. This would not be the case if the transparency
-was made from a negative grained for the production of a type block,
-as in such a negative the blacks are represented solid and the lights and half-tones
-grained should be made on large sized plates.</p>
-
-<p>The transparency made must fulfil all the conditions necessary for the production
-of type blocks—<i>i. e.</i>, the film must be perfectly free from veil or fog;
-it may be varnished or not.</p>
-
-<p>The mark put upon the negative from which the transparency is made, will
-cause the edges of the transparency to be quite clear. Coat a clean piece of
-polished copper with the bitumen solution, using the whirler as
-before; then <span class="xxpn" id="p123">{123}</span>
-place the transparency in the printing frame, film up, and place the bitumen
-coated copper plate in position, so that the image is quite in the centre of the
-plate: fasten the printing frame and expose to the light.</p>
-
-<p>The exposure will, of course, vary according to the strength of the light,
-and should always, if possible, be made either in direct sunlight or by electric
-arc light.</p>
-
-<p>The development is effected by immersion in turpentine, and with the washing
-and drying, has already been described.</p>
-
-<p>The image on the copper plate being satisfactory, it may be retouched, if
-necessary, then immersed in either of the etching fluids described in the last
-chapter.</p>
-
-<p>Rebiting, if necessary, may be done after rolling up with the resist ink there
-given, but care must be taken in this rebiting to guard against interfering with
-the grain of the plate.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p124"
- title="Chapter III. Half-tone Intaglios—(Continued).">
-CHAPTER III. <span class="blksmaller">
-HALF-TONE INTAGLIOS—(<i>Continued</i>).</span></h3></div>
-
-<p>The next process under consideration is that in which the grain is given to the
-copper plate by dusting it with fine powder of resin (colophony) or of asphalt.
-To do this a dusting box is required, which may be an ordinary aqua-tint box
-hung on centres for the purpose of revolving it when desired to cover large
-plates with the powder. The following figure will illustrate a box suitable
-for small work.</p>
-
-<div class="figleft imwth08" id="fig15">
-<img src="images/i124.jpg" width="252" height="259" alt="" />
-<div class="caption">Fig. 15.</div>
-</div>
-
-<p>The box should be eighteen inches high, twelve inches wide, and eight inches
-deep; it may be made of cardboard with the inside quite smooth. It should
-be closed all around except at A, where
-there is a small door four inches high; the
-bottom of the box is either studded with
-small nails or some coarse wire netting is
-stretched across, upon which the copper
-plates can rest, as near level as possible.
-To use this box, four ounces of resin or
-asphalt are powdered in a mortar until
-quite fine. The powder is placed inside
-the box, and the door closed; the box is
-now vigorously shaken, then placed on
-the table, the door opened, and a copper
-plate (previously cleaned and polished) is
-at once placed face up on the nails or wire
-netting. By the time the door is opened
-and the copper plate or plates are in position, the coarser particles of the resin
-will have subsided, leaving only the fine dust floating in the interior of the
-box; now close the door, and leave the copper plate within until it is judged
-that it is powdered sufficiently, which, of course, will be a matter for the
-operator to find out by practice.</p>
-
-<p>When the plate has been sufficiently powdered, it is carefully withdrawn
-and placed upon a hot iron plate and allowed to remain there until the
-resinous <span class="xxpn" id="p125">{125}</span>
-powder is just sufficiently melted to adhere to the copper plate, preserving
-as much as possible the separate existence of each atom of dust. Take care
-to stop the action of the heat before the resin is melted completely and made
-to run together and form a smooth surface.</p>
-
-<p>The heat having acted long enough, carefully withdraw the prepared copper
-from the hot plate and allow it to cool. Any desired quantity of these plates
-may be prepared and stored away for future use. When they are required
-the grain may be selected to suit each picture, as the operator can prepare at
-will (after practice) either a coarse or a fine grained ground.</p>
-
-<p>Instead of using a hot plate the resin may be melted over a gas flame, but
-the hot plate will be found the best.</p>
-
-<p>There is another method of laying this aquatint ground that is simple
-and novel, viz., by using the air brush. Those who are in possession of
-this instrument need no further instructions than to be reminded that ordinary
-bitumen dissolved in benzole, or a resinous-spirit varnish, is placed in the
-color reservoir, and then the brush will coat the clean copper plate with an
-aquatint as fine or as coarse as required, according to the distance between
-the plate and the “brush.” Another advantage with this method of laying
-the ground is, the ground need not be even, as in the dusting method, but
-the artist may lay the ground coarse in some places and fine in others,
-<i>verb sap</i>.</p>
-
-<p>The next step in this process will be to get a transparency of the subject.
-This may be made by any known process (at last, some one says we are
-getting away from the wet collodion) so long as it is clean, vigorous, and
-free from fog.</p>
-
-<p>The transparency being at hand, that portion of it required to be transferred
-to the copper plate is carefully surrounded by a mask of tinfoil, or
-of non-actinic paper, which will serve as a safe edge to the carbon tissue
-to be used in making the negative resist, as well as to keep the margin of
-the plate free from extraneous picture.</p>
-
-<p>This done, a piece of sensitive carbon tissue, a little smaller than the
-copper plate, which has been previously sensitized with bichromate of potash
-and dried, is placed upon the masked transparency and exposed to light until
-sufficiently printed; the tissue is then removed from the printing frame and
-placed in a dish of clean cold water; then one of the copper plates with aquatinted
-ground is also placed in the water, and the face of the tissue and the
-copper plate are brought in contact. After adjusting the tissue on the
-copper <span class="xxpn" id="p126">{126}</span>
-plate, the two are withdrawn from the water, laid upon a bench, and a squeegee
-passed over the back of the tissue. Thus the driving away of the water from
-between the two surfaces will cause the tissue to adhere to the copper plate.</p>
-
-<p>Now let the plate stand a few minutes, then immerse it in a dish of warm
-water at about 90°&nbsp;F. As soon as the tissue compound is melted, lift away
-the paper backing and throw it aside, then gently lave the copper plate with
-the warm water until all the soluble pigmented gelatine is dissolved; after that
-wash it under the tap, and place it in a strong solution of alum for fifteen minutes,
-and again wash and allow to dry.</p>
-
-<p>When the gelatine image on the copper plate is quite dry, the margin outside
-the picture is coated with bitumen or spirit varnish, then the plate is placed
-in the etching bath of perchloride of iron (see page
-<a href="#p121" title="go to p. 121">121</a>), in which it is allowed
-to remain until the high lights under the thickest portions of the gelatine image
-just change color; then remove it and wash it under the tap; next clean off the
-resist image, and after drying and cleaning up, try a proof. If necessary, ink
-up as directed in Chapter I., page
-<a href="#p121" title="go to p. 121">121,</a> and rebite.</p>
-
-<p>To succeed with this process it is only requisite to have a well-laid ground,
-a good, vigorous transparency, and the carbon tissue in good working order.</p>
-
-<p class="padtopb">N. B.—In order not to confuse the above directions by interpolating the
-working details of carbon printing, these will be given in a chapter further on,
-together with formulæ for making suitable
-tissue.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p127"
- title="Chapter IV. Half-tone Intaglios. Electrotyping Methods.">
- CHAPTER IV. <span class="blksmaller">
-HALF-TONE INTAGLIOS. ELECTROTYPING METHODS.</span></h3></div>
-
-<p>The preceding methods of obtaining intaglio plates have been by the etching
-process. We now try another method whereby the printing plate is obtained
-by depositing a film of copper upon the photograph, and from this
-copper electrotype the prints are to be made.</p>
-
-<p>There are many ways of proceeding to make these copper intaglios, the grain
-being obtained in many ways, but the foundation is the same in all, and consists
-of incorporating bichromated gelatine with grit of such a nature as to
-cause the image to be rough instead of smooth, or else the roughness is given
-to an ordinary or modified so-called carbon image developed upon a silvered
-copper plate.</p>
-
-<p>The silvered copper plates upon which the gelatine images are to be developed
-are prepared by dipping clean polished plates in a solution of cyanide of
-silver, made by adding cyanide of potassium solution to a solution of nitrate
-of silver until there is a slight permanent precipitate. The copper plate remains
-in this for three or four minutes; it is then removed, washed under the
-tap, and dried.</p>
-
-<p>The gelatine tissue compound is had by first of all making a jelly of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="gelatine tissue precursor">
-<tr>
- <td class="tdleft padr">Gelatine (soft)</td>
- <td class="tdleft padr">&#8199;8</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Sugar</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">25</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>Soak the gelatine until soft, then melt it at as low a temperature as possible,
-add the sugar and churn all for fifteen minutes; then add to one-half of the
-jelly one ounce of finely powdered graphite, and to the other half one ounce
-of a coarser powdered graphite. Churn these well together.</p>
-
-<p>Paper is coated with the above mixtures, floating it first upon that containing
-the coarser graphite, then after drying, coat again by floating the paper upon
-the gelatine containing the fine graphite, and again drying.</p>
-
-<p>The paper is then sensitized by being immersed in a three per cent. solution
-of bichromate of potash. Dry it in the dark. After exposure to light
-under <span class="xxpn" id="p128">{128}</span>
-a <i>negative</i>, it is developed upon the silvered copper plate, after which the electro
-is made.</p>
-
-<p>Another plan is to expose a piece of ordinary carbon tissue under a negative in
-the usual manner, then develop it upon the silvered copper plate, and sift over
-the wet gelatine image some finely powdered glass, sand, or emery which has
-been previously soaked in paraffine. The gelatine is then allowed to dry, when
-the grit is brushed away, leaving the gelatine image all marked and pitted.
-This pitted image is then black-leaded, and the electrotype is taken from it.</p>
-
-<p>Another method is to place the newly developed carbon print on the copper
-plate, inside the aqua-tint box, Chapter III. (having previously shaken up
-the powder); when it is well dusted over, allow it to dry, and then remove
-the powder by dissolving it out with either alcohol, turpentine, or benzole,
-after which the electrotype is made.</p>
-
-<div class="chapter">
-<h2 class="nobreak" title="Part IV. Photo-lithography in Line."
-id="p129">PART IV. <span class="blksmaller">
-PHOTO-LITHOGRAPHY IN LINE.</span></h2>
-
-<h3 class="nobreak" title="Chapter I.">CHAPTER I.</h3>
-</div>
-
-<p>This process is for making photographic reproductions of a subject in black
-lines on a white ground, half-tones and shadings being indicated by hatching,
-or stipple, but no washes of color are permissible. The object sought for from
-such a subject is to produce a transfer which can be laid down upon stone or
-zinc, and proofs printed therefrom in the ordinary lithographic press or
-machine.</p>
-
-<p>To gain this end there are three methods: the first, by printing upon paper
-prepared with bichromated gelatine, the lines of which, after exposure to light
-under a direct negative (<i>i.e.</i>, a negative taken without a mirror behind the
-lens), will retain ink, whilst the gelatine protected from light absorbs water,
-and rejects the ink. The result is a replica of the original in fatty ink, and
-may be transferred to stone or zinc, and printed from by the usual lithographic
-method.</p>
-
-<p>In the second method, a print is made upon zinc from a reversed negative
-(in the same manner as directed in Chapter V., Part I.) in bichromated albumen,
-which is rolled up in transfer ink, and from that a transfer is pulled on
-Scotch transfer paper, which may then be transferred to stone or zinc, and
-printed from at a litho. press or machine.</p>
-
-<p>In the third, and by far the best method, the print is made from a reversed
-negative on zinc, in bitumen, as directed in Chapter V., Part I., then rolled
-up in transfer ink, the transfer pulled on Scotch transfer paper, then transferred
-to stone or zinc, and printed from at a litho. press or machine.</p>
-
-<p>The defects inherent to the first method are, first of all, in the preparation
-of the gelatine paper; this is tedious and messy. Then there is always danger
-of breaking the lines in transferring, and also the difficulty of working exactly
-to scale. <span class="xxpn" id="p130">{130}</span></p>
-
-<p>The second method is quick, easy, and simple, the only drawback being a
-tendency of the lines to thicken. With this and the third method there is no
-difficulty in getting absolute scale.</p>
-
-<p>The third method is perfect, and presents no drawbacks.</p>
-
-<p>The two latter methods having been amply explained in Part I., it will not
-be necessary to redescribe them, except to explain that when the print is made
-on the zinc in albumen, it is gummed in, fanned dry, then damped off with a
-wet sponge, followed by a damp cloth, rolled up with transfer ink, and the
-transfer pulled upon good Scotch transfer paper.</p>
-
-<p>The same remarks apply to bitumen prints.</p>
-
-<p>For a transfer printed in bitumen, the image is developed in turpentine, and
-when this is completed, wash the plate thoroughly under the tap, then immerse
-it in the graining bath (Part I., Chapter I., page
-<a href="#p024" title="go to p. 24">24</a>), and keep the tray
-rocking for a few minutes; the effect of this will be to destroy the polished
-surface of the metal, substituting a pearly matt surface, which will show up
-the picture properly, and allow the operator to judge whether any of the fine
-details are wanting; if there are, it will be necessary, if the details are dissolved
-out, to repolish the zinc, first with pumice-stone, then with snake-stone, then
-with pumice powder, finishing with fine rouge; then coat with bitumen, whirl,
-and again expose to light, giving this time, longer exposure under the negative.</p>
-
-<p>But if the fine details are buried in undissolved bitumen, a further immersion
-in the turpentine bath will soon clear them; then again wash under the tap,
-immerse in the graining bath, again wash, then, with a sheet of clean blotting
-paper, remove the surplus water, and allow the surface to dry in a cold current;
-but beware of using heat, as it has a tendency to make the bitumen image
-refuse ink in rolling up.</p>
-
-<p>The zinc being dry, it is gummed in, fanned dry, then the gum is washed
-off, and the image rolled up with a leather roller charged with transfer ink.
-As soon as the bitumen has taken the transfer ink all over, a transfer is pulled
-upon Scotch transfer paper, which in turn is transferred to stone for printing
-from.</p>
-
-<p>In rolling up these prints upon zinc, care must be taken to keep the surface
-(whether the image is in albumen or bitumen) properly damp.</p>
-
-<p>The preparation of paper transfers will be treated upon in the next chapter.</p>
-
-<p>The negative from which these transfers are made, must have all the characteristics
-of a good negative for printing on zinc for etched blocks, viz., the
-lines <span class="xxpn" id="p131">{131}</span>
-must be represented by clear glass, and those portions of the negative representing
-the whites of the original, must be as near opaque as possible.</p>
-
-<p>The subjects to which photo-lithography is applicable, are those that are
-strictly in line, or stipple, or dots, or cross hatched, or chalk drawings; in fact,
-any subject that may be done by lithography, or in black and white; but no
-shading by color washes is permissible.</p>
-
-<p>Transferring to stone or zinc is done as follows:</p>
-
-<p>First of all, the transfer is trimmed to proper size; it is then placed in a
-damping book, made by placing wet sheets of brown or good printing paper
-alternately with dry sheets, then placing all under a weight for a few hours,
-until the whole of the book is evenly damp; the trimmed transfer is allowed
-to remain here until limp; it is then sponged on the back with a very little of
-oxalic acid (half an ounce), water eighty ounces; now lay the transfer carefully
-down on a perfectly clean and polished stone, backing the transfer with a piece
-of smooth paper. Having adjusted the pressure of the scraper on the stone,
-pull through twice, then reverse the stone in the press, and pull through twice
-more. Then remove the backing and lift the transfer from the stone, when
-the whole of the ink should be upon the stone, leaving the paper quite clean.
-Now, if the picture is quite satisfactory, wipe the stone first with a wet sponge,
-then with a damp cloth, then gum in and allow to dry, and, if possible, to stand
-with the gum on all night.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p132"
- title="Chapter II. Paper Transfers.">
-CHAPTER II. <span class="blksmaller">
-PAPER TRANSFERS.</span></h3></div>
-
-<p>Paper for photo-lithographic transfers may be made by coating bank post
-paper or a good hand-made writing paper, with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Gelatine (Nelson’s)</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Put the above into a wide-mouthed bottle or jar, and allow the gelatine to soak
-until soft; then place the vessel in a large saucepan containing cold water, and
-set on a fire, or over a gas-burner, and by the time the water in the saucepan
-is hot the gelatine will be dissolved. Then add slowly (stirring the gelatine
-with a glass rod) one drachm of a ten-grain solution of chrome alum. Now
-strain the gelatine solution through fine muslin into a clean dish, standing it in
-a larger dish containing hot water; float the bank post paper upon this solution
-(taking care to avoid air-bubbles) for two minutes, then lift it off slowly and
-hang it up to dry, pinning it by two corners to the edge of a shelf.</p>
-
-<p>When dry, the operation is repeated, but this time the paper is hung up to
-dry by the two opposite corners, so as to equalize the coat of gelatine.</p>
-
-<p>When dry a second time, it must be floated for two minutes upon</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">White of</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">eggs.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">13</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">(Shake up well, and filter into a cold dish.)</p>
-
-<p>Paper prepared as above will keep for any reasonable length of time.</p>
-
-<p>For use, it is drawn slowly through a solution composed of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;1&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">minims.</td></tr>
-</table></div></div>
-
-<p>This being done, the paper is again hung up to dry, this time in a dark room.</p>
-
-<p>When dry, the paper should be laid face down, upon a polished litho. stone,
-and be pulled through the press three or four times, so as to get the surface as
-smooth as possible, and insure absolute contact. <span class="xxpn" id="p133">{133}</span></p>
-
-<p>This must be done in a yellow light, or in a room lighted by gas or oil light.</p>
-
-<p>The paper is now placed in contact with the negative, in a printing-frame,
-and exposed to light; the exposure for such paper should be from five to fifteen
-minutes.</p>
-
-<p>Note well that these paper transfers are printed from negatives taken direct
-in the camera, without the intervention of the mirror, therefore negatives suitable
-for printing paper transfers will not do for printing upon zinc, or <i>vice
-versa.</i></p>
-
-<p>The progress may be watched by undoing one side of the back of the frame,
-and examining the image in the dark room; but in damp weather this should
-not be done too often, as the paper may expand or contract, and blur the
-image.</p>
-
-<p>The exposure to light under the negative being complete, the print is
-removed from the frame in the dark room, and is next coated with a thin film
-of ink as follows:</p>
-
-<p>A smooth litho. stone is carefully coated with a fatty ink by means of a
-leather roller, extreme care being necessary to insure an even coat of ink over
-the stone; this being attained, the exposed print is laid face down (the room
-being lit by yellow light or gaslight) upon the inked stone, then a piece of
-backing paper laid upon it, and pulled through the press, with a good nip upon
-it; pull it through twice, then reverse the stone on the press, and again pull
-through twice, which will leave a fine, thin film of ink upon it. Now take the
-inked print, and place it in a tray of clean, cold water, allow it to remain
-therein for five minutes, then lay the print upon a piece of glass, and rub it
-gently with a pad of cotton-wool—previously wetted in the water. This will
-remove the ink from those portions of the paper that were protected from the
-action of light by the opaque portions of the negative, representing the whites
-of the original.</p>
-
-<p>The application of the pad of cotton-wool is continued until the whole of the
-picture is cleared from superfluous ink, and the lines composing the image are
-evenly coated with ink. The ink adheres only to those portions of the paper
-which the light has acted upon, through the negative.</p>
-
-<p>Now wash the transfer under the tap, then hang it up to dry. When dry
-it is ready for transferring to stone or zinc.</p>
-
-<p>To transfer to stone or zinc, place the transfer first of all in the damping
-book, and when limp place it upon a clean, cold, polished stone, and pull it
-through the press. <span class="xxpn" id="p134">{134}</span></p>
-
-<p>When transferred, the image is treated in exactly the same manner as an
-ordinary transfer on stone or zinc.</p>
-
-<p>The enamelled double transfer paper sold for double transfer carbon work
-may be used for photo-litho. transfers by floating it upon</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Albumen</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Saturated Solution of Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;3</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">drops.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">and then dried.</p>
-
-<p>Paper thus prepared must be kept in a dry air-tight case, and just before
-using is laid face down upon a smooth litho. stone, and pulled through the
-litho. press. After this, it is placed in contact with the negative in the printing
-frame, and exposed to light until the details are visible. Although the
-progress of the action of light can be seen, the frame must not be opened too
-often, or the paper is apt to expand and blur the image. After exposure the
-print is inked up, developed, and treated exactly as explained above.</p>
-
-<p>The ink suitable for inking up the stone, previous to laying upon it the exposed
-print, is composed of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Best Chalk Litho. Printing Ink</td>
- <td class="tdleft padr">3</td>
- <td class="tdleft">parts.</td></tr>
-<tr>
- <td class="tdleft padr">Mutton Fat</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">part.</td></tr>
-</table></div></div>
-
-<p>Put the ink and fat into a small iron or earthenware pot, and place it over a
-Bunsen burner, or a paraffine stove, or on the hot plate of a kitchen stove
-(<i>but not over an open fire</i>); allow the heat to melt the two ingredients, stir
-so as to incorporate them thoroughly; take great care not to allow it to catch
-fire; if it does, at once extinguish the flame, as the firing would be apt to spoil
-the ink. When thoroughly melted and incorporated, pour into a tin, or pot, for
-use when cool; the time occupied in making this ink will not exceed twenty
-minutes. The mutton fat is obtained by dropping solid kidney suet (shredded)
-into a pan of clean boiling water, then allowing to cool, when the fat is taken
-off the surface of the water, freed from damp and stored for use.</p>
-
-<p>Another formula for the preparation of paper, to be inked up, after printing
-in the same manner as the above transfers, is to coat paper twice with the following
-preparation, drying between each coat: arrowroot, 1 ounce; wet this
-thoroughly with 5 ounces of cold water, stirring well with a spatula, adding
-more cold water, if necessary, to moisten the lot; then pour over it 20 ounces
-of boiling water, stirring all the time; if, when the 20 ounces are
-added, <span class="xxpn" id="p135">{135}</span>
-the arrowroot has not thickened, add more boiling water until it does do so;
-now add <sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>
-an ounce of powdered bichromate of potash and stir until dissolved;
-then strain through muslin into a warm dish and float the paper upon it
-whilst hot, and dry at a temperature of 70°&nbsp;F.</p>
-
-<p>If the bichromate of potash be omitted, the paper may be prepared in quantity
-and stored away for future use, being made sensitive by floating for five
-minutes upon</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">25</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>Paper for either gelatine or arrowroot transfers, after keeping so long after
-preparation as to be useless, should not be thrown away, but should be again
-floated upon bichromated gelatine or arrowroot, and after drying will give
-finer results than new paper.</p>
-
-<p>Prof. Husnik’s photo lithographic transfer paper is obtainable in England
-and in America. He recommends the following chromate bath:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bichromate of Ammonium</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">15</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">&#8199;4</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Keep well corked in a dark place.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p136"
- title="Chapter III. Paper Transfers—(Continued).">
-CHAPTER III. <span class="blksmaller">
-PAPER TRANSFERS—(<i>Continued</i>).</span></h3></div>
-
-<p>Prepare a solution of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution for paper transfer">
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Sugar</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>Soak the gelatine in the water (cold) until quite soft, then melt it by the
-application of heat (nothing is better for this sort of work than a <i>Bain Marie</i>,
-a domestic utensil with a porcelain pan enclosed in one of tin); then add the
-sugar and stir well, continuing the application of heat until a temperature of
-150°&nbsp;F. has been reached; now strain the gelatine through muslin, into a clean
-dish placed in a larger dish containing boiling water, the heat from which
-will keep the solution of gelatine in a properly liquid state during the operation
-of coating the paper.</p>
-
-<p>The best for these transfers is a good hand-made writing paper, or good bank-post.</p>
-
-<p>Cut the paper into suitable sizes, leaving a little extra margin at one end,
-and float it upon the hot gelatine solution as above; be careful in laying the
-paper upon the gelatine, that air bells are avoided; when the sheet is laid upon
-the surface, raise it rapidly, and throw it at once over a cylinder of cardboard
-or of wood, and at once commence to revolve this cylinder rapidly, first in one
-direction, and as the limit of the length of paper is reached, revolve it in the
-other, which motion will alternately bring first one end uppermost and then
-the other. By this means an even coating of gelatine upon the paper is
-secured, which is not possible when the paper is hung up by clips directly it is
-taken from the surface of the hot gelatine. The cylinder is kept revolving
-until the gelatine has set, when it may be hung up to dry upon clips, or laid
-face up, over a line upon a piece of cardboard; during the operation of revolving
-the cylinder, any air bells formed in the gelatine coating may be
-removed by blowing or pricking them.</p>
-
-<p>This, to my mind, is a most elegant method of coating small sheets (up to
-thirty inches long) with a coat of gelatine, for which I willingly give
-the <span class="xxpn" id="p137">{137}</span>
-Royal Engineers the credit, it having been demonstrated to me by Ex-sergeant
-Dalton, of that corps.</p>
-
-<p>Paper coated in this manner, when dry, is ready for sensitizing; but if coated
-in the ordinary manner, it should, when dry, be coated a second time and hung
-up to dry in the opposite way that it was the first time.</p>
-
-<p>Paper coated with gelatine solution as above, may be stocked, as the coating
-does not deteriorate with time; but the operator must be careful not to allow
-the solution of gelatine to get below 125° during coating, else the surface will
-be sticky. The temperature of the drying room must not exceed 70°, in fact,
-60° will be best.</p>
-
-<p>Paper so coated is sensitized by immersion for three minutes in</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">50</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">In hot weather this solution must be kept cool with ice.</p>
-
-<p>When the time of immersion has expired the paper is removed, and laid
-face down upon a sheet of glass free from scratches—which sheet of glass has
-been well polished with finely powdered talc (or French chalk)—now squeegee
-the back of the paper vigorously, to remove the superfluous solution and bring
-the surface of the paper into absolute contact with the glass plate. The sheet of
-glass is now placed in a rack, in the dark room, until the paper is quite dry,
-when it may be readily stripped off the glass, and is ready for printing the
-transfer. The operation of drying should be done in a current of air at a temperature
-of about 60°, and the paper must be quite dry before attempting to
-strip it from the glass.</p>
-
-<p>The exposure under the negative is the same as described in the previous
-chapter.</p>
-
-<p>When sufficiently exposed, the print is removed from the frame in the dark
-room, and at once immersed in cold water, where it is allowed to stay for five
-minutes, when it is withdrawn and laid upon a piece of plate glass, or a zinc
-plate, the face being uppermost; then the loose end of the paper (provision for
-which must be made in cutting the paper) is tucked under the plate, so as to
-hold the transfer in position in the subsequent operations.</p>
-
-<p>Now take a glue roller (the same as used for inking up the albumen image
-on zinc, described in Part I., Chapter IV.), and having spread a little of the
-ink described in the last chapter (chalk, litho. ink, and mutton fat) upon the
-slab, charge the roller carefully with a thin coating of ink, and then,
-having <span class="xxpn" id="p138">{138}</span>
-removed any moisture from the face of the transfer with a soft sponge, apply
-the inked glue roller, rolling one way only—<i>i.e.</i>, from the body (presuming
-that the edge of paper tucked under the slab is next the body of the operator);
-continue rolling until the whole of the lines forming the picture are coated with
-ink, and the whites quite clean and free from ink. If the roller should get
-wet from water oozing from under the transfer, wipe it with a damp cloth and
-then roll it a few times on the inking slab, and continue rolling the transfer.
-Be careful that the portion of the transfer representing the whites of the
-picture has absorbed its full modicum of water before beginning to roll up, and
-also that there is not too much ink upon the roller. When the transfer is successfully
-inked up, it is hung up to dry, and when dry is trimmed to size,
-placed in a damping book, and transferred to stone.</p>
-
-<p>The exposed transfer, after wetting, and being placed upon the plate of glass,
-or zinc, may be developed in another way. First remove the superfluous water
-from the surface with a soft damp sponge, then rub it gently all over with a
-pad of cotton-wool dipped in a thin mixture of ink thinned with turpentine
-and well mixed with a palette knife (this ink should be a little thicker than
-ordinary copying ink); all the image must be covered with the ink. The turpentine
-is then allowed to evaporate, when by rolling with the glue roller from
-the body, the ink will clear away from the whites, leaving the lines sharp and
-distinct. Do not use too much pressure, else the ink may be removed from
-the lines, in which case cover the whole picture with a fresh coat of the thin
-ink, and again roll off. The subsequent operations are the same as for the
-other paper transfers.</p>
-
-<p>The ink for this method is made by melting over a Bunsen burner, or
-paraffine stove,</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Chalk Printing Ink</td>
- <td class="tdleft padr">4</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Beeswax</td>
- <td class="tdleft padr">&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Stearine</td>
- <td class="tdleft padr">&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Resin</td>
- <td class="tdleft padr">&#8199;<sup>3</sup>&#xfeff;&#8260;&#xfeff;<sub>4</sub></td>
- <td class="tdleft">ounce.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">When these are melted and well stirred together, set the mixture on fire and
-allow to burn for three minutes, then extinguish by putting the cover on the
-pot or pan, then pour it into a tin. When cold it is ready for use.</p>
-
-<p>In handling the sensitized gelatine paper for transfers, every care must be
-exercised to keep the paper from being exposed to the action of light, before
-and after exposure in the printing frame, else there will be great difficulty in
-getting clean transfers.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p139"
- title="Chapter IV. Toovey’s Negative Transfer Process.">
-CHAPTER IV. <span class="blksmaller">
-TOOVEY’S NEGATIVE TRANSFER PROCESS.</span></h3></div>
-
-<p>A good smooth paper is floated for five minutes upon finest picked</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Gum Arabic</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">15</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-</table></div></div>
-
-<p>This is dried in the dark, then exposed to light in a printing frame under a
-direct negative. It is then laid, face down, upon a polished zinc or stone, if a
-line subject, or on a grained zinc or stone, if a half-tone subject; upon the back
-of the print several sheets of damp paper are laid, and then the whole is subjected
-to very heavy pressure in a hydraulic press, so that the water in the
-damp paper may be forced through the print and dissolve the gum in the unexposed
-parts of the sensitive gum coating (which is still soluble). The dissolved
-gum attaches itself to the stone, whilst the exposed parts being rendered
-insoluble by the action of light, the damp has no effect upon it, and the stone
-is protected in those parts.</p>
-
-<p>When the stone has been under pressure for a sufficient length of time, to
-allow the small traces of gum in the deepest shadows to attach themselves to
-the stone, the pressure is removed, the stone withdrawn, and the paper carrying
-the photographic print is carefully lifted up, leaving the bare negative image
-on a gummed ground. The stone is well dried, and covered all over with a
-greasy ink applied by a roller or otherwise. The ink is thus brought into contact
-with all parts of the stone or zinc unprotected by the gum.</p>
-
-<p>The image is then washed out with turpentine, and the gum removed by a
-damp sponge, after which the stone or zinc is rolled up in the ordinary manner
-with a leather roller, and is printed from in the ordinary manner.</p>
-
-<p>Of course, it will not be expected that the best results are obtainable by so
-simple a process. Perhaps in no other branch of work does an outlay of
-thought and time “pay” so well as in the practice of these interesting photo-printing
-methods.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p140"
- title="Chapter V. Photo-litho. Transfers.">
-CHAPTER V. <span class="blksmaller">
-PHOTO-LITHO. TRANSFERS.</span></h3></div>
-
-<h4 title="To Develop Photo-litho. Transfers.">TO DEVELOP PHOTO-LITHO. TRANSFERS.</h4>
-
-<div class="divp"><h5 class="hinline" title="To develop photo-litho.
-transfers on paper"><i>To develop photo-litho.
-transfers on paper</i></h5>
-there are two methods. The first
-and oldest is, after exposure, to coat a smooth litho. stone with a thin layer of
-transfer ink, by means of a leather roller, then to lay the exposed print face
-down upon this inked stone, and pull it through the press. Of course, this
-must be done in a dark room, or by gas or oil light, as daylight would spoil
-the transfer.</div>
-
-<p>Now the inked and exposed transfer is placed in water at 80°&nbsp;F., and
-allowed to remain for three or four minutes, when it is taken from the water
-and placed upon a plate of glass, and the superfluous ink is removed by means
-of a sponge dipped in the hot water. If the negative has been sufficiently
-opaque, and the exposure right, the image will quickly develop, the lines
-retaining the ink, while that upon the whites will come away.</p>
-
-<p>Hot water is used where the coating is of gelatine only; if gum arabic,
-or albumen has been used, then, after inking up on the stone, the transfer must
-be developed in cold water, and cotton-wool used to remove the ink from the
-whites, rubbing very carefully with very little pressure.</p>
-
-<p>Paper prepared with a thick coat of gelatine may be developed in another
-way; after removing it from the printing-frame, the transfer is inked up on
-the stone, then placed in a dish of cold water and left there for five or ten
-minutes; then removed and placed upon a thick glass slab, the end tucked
-under so that when placed on the bench the slab will press the paper and keep
-it in position. Now, with a sheet of clean blotting-paper, remove the water
-from the transfer, using pressure with the hands from the end tucked under
-the slab; then, with a glue roller, roll from the tucked under end until the
-image is developed. Instead of inking the transfer up when dry, the transfer
-may be placed in the cold water directly it is taken from the printing-frame,
-and allowed to remain for ten or fifteen minutes, during which time the image
-will swell, by the whites absorbing water. Now place upon the glass slab
-(one end being tucked under), and remove the superfluous water first with
-a <span class="xxpn" id="p141">{141}</span>
-sponge, then with a damp cloth; now dip a sponge in transfer ink thinned to
-the consistency of cream by turpentine, and dab all over the damp transfer,
-then allow it to stand until the turpentine has evaporated. Next take the
-glue roller and roll the transfer until the whites are clear; only roll one
-way—<i>i.e.</i>, from the end tucked under the slab.</p>
-
-<p>The transfers being developed, they are rinsed with clean water, and hung
-up to dry in a current of cool air.
-If dried at too high a temperature,
-the transfers will be inferior, and difficult
-to handle.</p>
-
-<div class="figright imwth06" id="fig16">
-<img src="images/i141.jpg" width="312" height="214" alt="" />
-<div class="caption">Fig. 16.</div>
-</div>
-
-<p>Instead of using a slab of glass,
-and tucking the end of the transfer
-underneath, a proper developing-board
-may be used as follows: A is
-a clamped board 18 inches by 12
-inches, by 1 inch thick; B is another
-4 inches by 12 inches; these are
-hinged together at C, the hinges
-being let into the boards underneath. Now, if the transfer be laid upon the
-board A, the end placed in the aperture C, then the pressure of the roller will
-cause the piece B to clamp the paper quite tight.</p>
-
-<p>A few little differences in manipulation are required by the various transfer
-papers found on sale in the market. For this reason I add the instructions
-given by Prof. Husnik for his transfer paper.</p>
-
-<div class="divp"><h5 class="hinline" title="Making the paper
-sensitive."><i>Making the paper sensitive.</i></h5>—Pour
-the solution in a shallow glass or porcelain
-dish (such as photographers use), take hold of the paper on two opposite ends,
-dip one end (prepared side <i>upward</i>) in the solution, and draw the paper through
-so that the whole surface is covered evenly with the solution; drain off and
-hang it up for drying in a <i>dark</i> room. Pins may be used for this purpose.
-Never <i>reverse</i> the paper in hanging it up. Wet only as much of the paper as
-you intend using at every one occasion. In hot summer weather the so prepared
-paper must be used within a few hours. In cold and damp weather it
-keeps good for three days. After the paper has passed through the bath the
-<i>prepared side</i> of it must not be brought in contact with anything whatever, as
-the least touch will create a spot in the picture. For pouring back the solution
-into the bottle use a glass funnel. It is very advisable to run the
-sensitive <span class="xxpn" id="p142">{142}</span>
-paper on a polished stone or metal plate through a lithograph press to give a
-smooth surface.</div>
-
-<div class="divp">
-<h5 class="hinline" title="The Development."><i>The development</i></h5> of the picture can begin after the mentioned time and is to
-be accomplished with a fine, solid, and very soft sponge, rubbing in circle-form
-with it over all parts of the picture until all the ink is washed out of the lights,
-the lines becoming clear and distinct and the shade properly open. The water
-must be changed several times, passing always with the sponge delicately over
-all parts of the picture to remove all uncleanliness from it. But never go over
-the picture with a dry sponge. After washing the picture clean it is laid
-between damp printing paper and slightly pressed with the hands to remove
-the superfluous water. Was the exposure of the picture too <i>long</i> it will be very
-difficult, yea, impossible to develop it. Too <i>short</i> an exposure will lose the
-fine lines. The proper time of exposure will easily be learned.</div>
-
-<div class="divp">
-<h5 class="hinline" title="For very fine reproductions."><i>For very fine reproductions</i></h5>
-the paper should be dried and inked in the following
-manner:</div>
-
-<p>Take a pane of glass, coat it with a fatty substance, as tallow or wax dissolved
-in benzine; wipe the glass clean, so as to leave only a trace of fat on; lay the
-paper in the solution about one minute, drain off and then lay the paper face
-down on the glass, removing all air bubbles by rubbing over the back with a
-rubber straight edge, or better, a squeegee. When dry, the paper will leave
-the glass easily and will have a glass-like surface.</p>
-
-<div class="divp">
-<h5 class="hinline" title="The Inking."><i>The inking.</i></h5>—Take common lithographic transfer ink, mix with it one-fourth
-part of the photo-lithographic ink and coat a smooth stone with an even tint,
-taking care not to make it too thick (a smooth lithograph or composition roller
-will answer). Lay the printed picture face down and run it through the press
-with a good pressure; the picture will be covered with an even tint, showing
-the picture through it.</div>
-
-<p>The development is the same as above described. This later method gives
-excellent results.</p>
-
-<div class="divp">
-<h5 class="hinline" title="Transferring."><i>Transferring.</i></h5>—When
-all the water is removed from the picture, and while
-damp, lay it on the stone and make the transfer with the same care as other
-transfers are made, starting with a very light pressure; and if the paper sticks
-to the stone, increase the pressure. It is advisable to wash the stone with pure
-turpentine, and dry it before transferring.</div>
-
-<div class="chapter">
-<h2 class="nobreak" title="Part V. Photo-lithography in Half-tone." id="p143">
-PART V. <span class="blksmaller">
-PHOTO-LITHOGRAPHY IN HALF-TONE.</span></h2>
-
-<h3 class="nobreak" title="Chapter I.">CHAPTER I.</h3></div>
-
-<p>This process, like photo-engraving, has been the subject of many applications
-to the Patent Office, but the first notable progress was made by Messrs.
-Bullock, in 1865. They seem to have gone into the subject thoroughly, as
-the elaborate and practical specifications prove, but although the patentees
-issued some fine specimens of their work, and advertised the sale of prepared
-paper, nothing came of it.</p>
-
-<p>Messrs. Bullock’s method comprises the printing from grained stone tile, or
-a stone upon which has been laid a transfer, from a stipple plate, or a plate
-engraved in lines or dots—upon sensitive transfer paper in stiff ink.</p>
-
-<p>The sensitive paper, with such imprint upon it, is exposed to light under a
-negative, the specks of ink forming a medium for breaking up the half-tones.</p>
-
-<p>Suitable grain may be obtained from machine stippled plates, as well as
-from grained stone.</p>
-
-<p>Half-tone photo-lithography may also be made by making, from a proof
-pulled from a machine stipple, or a ruled plate, or a grained stone, a wet, collodion
-negative, which, being stripped from its glass support (by any of the
-means mentioned in the chapter on stripped films) is placed between the ordinary
-half-tone negative and the sensitive surface—zinc, coated with bichromated
-albumen, or with bitumen, or either of the transfer papers treated of in Part
-IV.—the result will be a grained transfer.</p>
-
-<p>Grained zinc, coated with bichromated albumen, or with bitumen, and
-exposed under a very thin half-tone negative, will also yield transfers suitable
-for a good many subjects, but the most successful methods are modifications of
-the collographic printing processes.</p>
-
-<p>Transfers made by any of the methods mentioned in the following chapters
-may be transferred to polished zinc, and then etched in relief, as directed in
-Part I.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p144"
- title="Chapter II. Ink Photos.">
-CHAPTER II. <span class="blksmaller">
-INK PHOTOS.</span></h3></div>
-
-<p>The various methods named in the last chapter for breaking up and transferring
-to stone the delicate half tints of a photograph from nature, are in a
-great measure rather crude and do not give the fine results yielded by the following
-modification of the collotype process, nor are they so certain and simple
-in their working.</p>
-
-<p>The production of ink photos is as follows: A plate of flat copper is grained
-by means of graining sand and a piece of litho. stone, the sand being put through
-a fine sieve (about 120 holes to the inch). The copper plate being, first of all,
-well polished and without scratches, is placed upon a flat board, the graining
-sand is then sieved over it, and moistened, then with a light, firm motion of
-the wrist, the whole of the surface is evenly ground. The operation of graining
-is very difficult to describe, except to say that the stone muller is shuffled all
-over the plate until the polished surface of the copper is replaced by an even
-matt. Renew the sand when necessary. Do not try to get through the operation
-rapidly by taking large circles, else scratches are sure to result.</p>
-
-<p>The copper plate being grained, it is well washed, back and front, so as to
-free it from all grit, then coated whilst wet with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Stale Beer (not lager)</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Silicate of Soda (syrupy)</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Tannin</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">grain.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Shake well, then filter; coat the plate twice and stand it on a rack to drain and
-dry. When dry swill the plate under the tap and again dry. These plates may
-be prepared in advance, as they improve by keeping.</p>
-
-<p>Now prepare the following solutions:</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="mixture">
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Best Cologne Glue</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">When dissolved add</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Bichromate of Potash, in powder</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft" id="p145">grains.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Stir until dissolved, then add</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Nitrate of Silver</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Dissolved in Water</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Stir well, then add</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Chloride of Calcium (crystals)</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Dissolved in Water</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Stir up well, then add</p></td></tr>
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td class="tdleft padr">Acetic Acid</td>
- <td class="tdleft padr">&#8199;&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">drachm.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">Again stir.</p></td></tr>
-</table></div>
-
-<p>Warm the coated copper plates by letting them lie upon the slab of the
-drying oven. The drying oven is described in the chapter on collotype
-printing, and for this process the slab should be at about a temperature of
-150°&nbsp;F. Now strain the above mixture through muslin into an invalid’s cup
-with a long spout, and holding the warm copper plate horizontally on the palm
-of the left hand, proceed to pour over it as much of the gelatine mixture as will
-well cover it. Do not have a very thick film, else the grain will be too coarse;
-nor too thin, or there will be no grain at all. Practice will soon enable the
-operator to apportion the proper quantity to each plate. As a rough estimate,
-about one fluidounce of the mixture for a plate 12 × 10 will be required.</p>
-
-<p>The plate being coated, it is placed on the slab of the drying oven and left
-there until dry. That will take from one and a half to two hours. The exact
-temperature at which to dry these films cannot be arbitrarily stated, as so much
-will depend upon the picture which is to be printed; therefore, a few experiments
-will be necessary before settling down to an exact form of working. A good
-plan that answers admirably is to raise the water in the tank of the drying
-oven to boiling point before coating the plate, then coat the plate, lay it on
-the slab, let the water in the tank boil for a few minutes then turn out the gas
-and let the plate dry.</p>
-
-<p>The plate being dry it is exposed under a good ordinary (reversed) negative
-until the whole of the details are well out. Time the exposure by means of
-an actinometer.</p>
-
-<p>After exposure under the negative, remove the plate from the printing frame
-and in the dark room cover it with litho. transfer ink by means of a leather
-roller, taking care that the whole of the surface is well coated with the ink.
-Now place it in clean cold water for three or four hours, then with a
-soft <span class="xxpn" id="p146">{146}</span>
-sponge remove as much of the ink as will come away. This operation will
-take time, as every care must be had not to scratch the film.</p>
-
-<p>Now rinse the plate under the tap and allow it to dry.</p>
-
-<p>When dry soak it in cold water for half an hour, then place it on the press
-(an ordinary letter press), and with a sponge and soft cloth remove the superfluous
-water from the film; then roll up with a leather roller charged with
-litho. transfer ink as thick as can be worked. When the image is properly
-inked up pull a transfer upon good Scotch transfer paper.</p>
-
-<p>Perhaps the first two or three pulls will not be satisfactory; therefore, it will
-be best to pull a few before using the transfer paper, damping and wiping
-between each pull just in the same way that is done in printing from a lithographic
-stone.</p>
-
-<p>A good transfer being obtained, it should be given to a lithographer to put
-it down upon a grained stone, an operation which requires great skill and experience.
-The student’s interest will be best consulted by not attempting to
-give a description of how to transfer to a grained stone.</p>
-
-<p>Another formula for a sensitive coating for the copper plate is</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">6</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Soak the gelatine till soft; then melt, and add one drachm of bichromate of
-potash in powder; stir until dissolved; add twenty grains of good fresh dextrine
-and let the mixture cool to about 120°&nbsp;F.; then add one drachm of liquor
-ammonia and six ounces of alcohol. The subsequent operation of coating, etc.,
-is the same as above.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p147"
- title="Chapter III. Husband’s Papyrotint Process.">
-CHAPTER III. <span class="blksmaller">
-HUSBAND’S PAPYROTINT PROCESS.</span></h3></div>
-
-<p>This is a process for the production of photo-lithography in half-tone, direct
-from the negative, without the intervention of a collotype plate from which to
-pull the transfer, and is a distinct step in advance.</p>
-
-<p>This process has been named papyrotint, being a modification of Captain
-Abney’s improved method of photo-lithography, named papyrotype. It is
-specially adapted to the reproduction of subjects in half-tone, such as architectural
-drawings in monochrome, or subjects from nature, and it is inexpensive.
-Its advantages over other methods of half-tone photo-lithography are, that a
-transfer can be taken in greasy ink, for transfer to stone or zinc <i>direct</i> from
-any negative, however large, without the aid of a medium, the grain or reticulation
-being obtained simply by a chemical change. The transfer paper being
-in direct contact with the negative, the resulting prints are sharper than by
-those processes where interposed media are used; whilst the same negative will
-answer either for a silver print, platinotype, or a transfer for zinc or stone. The
-advantage of being able to use a non-reversed negative is very great, now that
-gelatine plates have so largely superseded those made with collodion.</p>
-
-<p>The method of manipulation is as follows: Any good surface paper is floated
-twice on a bath composed of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Gelatine (Nelson’s Flake)</td>
- <td class="tdleft padr">&#8199;8</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;1&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Chloride of Sodium (Common Salt)</td>
- <td class="tdleft padr">&#8199;2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">50</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p>Great care should be taken that the solution is not overheated, and that the
-paper is coated without bubbles. It is then dried in a temperature of 60°&nbsp;F.
-The paper will take about ten hours to dry, and in this state will keep
-for years. When required for use, it should be sensitized by floating on, or
-immersing in, a bath of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Chloride of Sodium</td>
- <td class="tdleft padr">&#8199;&#8199;&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Ferridcyanide of Potassium</td>
- <td class="tdleft padr">100</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;30</td>
- <td class="tdleft" id="p148">ounces.</td></tr>
-</table></div></div>
-
-<p>This need not be done in a dark-room, as the solution is not sensitive to
-light.</p>
-
-<p>The paper, after sensitizing, is dried in a temperature of 70°, and in a
-dark room. When dry, it is exposed under any half-tone negative, in
-the ordinary printing frame. It is preferable to print in sunlight, and, for
-negatives of medium density, an exposure of three minutes is required; but
-the exposure will vary according to the density of the negative. The correct
-time of exposure can best be judged by looking at the print in the frame.
-When the image appears on the transfer paper of a dark fawn color, on a
-yellow ground, the transfer is sufficiently printed. It is put into a bath of
-cold water for about ten minutes, until the soluble gelatine has taken up its full
-quantity of water; then taken out, placed upon a flat piece of stone, glass, or
-zinc plate, and the surface dried with blotting paper.</p>
-
-<p>The action of the light has been to render the parts to which it has penetrated
-through the negative partly insoluble, and at the same time granulated.
-A hard transfer ink is now used, composed of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="ink mixture">
-<tr>
- <td class="tdleft padr">White Virgin Wax</td>
- <td class="tdleft padr"><sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Stearine</td>
- <td class="tdleft padr"><sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Common Resin</td>
- <td class="tdleft padr"><sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">ounce.</td></tr>
-</table></div></div>
-
-<p>These are melted together in a crucible over a small gas-jet, and to them are
-added four ounces of chalk printing ink, and the mixture reduced to the consistency
-of cream with spirits of turpentine. A soft sponge is saturated with
-this mixture and rubbed gently over the exposed paper (in this stage the nature
-of the grain can be best seen). An ordinary letter-press roller, charged with a
-little ink from the inking slab, is then passed over the transfer, causing the ink
-to adhere firmly to the parts affected by the light, and removing it from the
-parts unacted upon. It will be found that with practice, rolling slowly and
-carefully as a letter-press printer would his form, the ink will be removed by
-the roller according to the action that has taken place by light, leaving the
-shadows fully charged with ink, and the high lights almost clear, the result
-being a grained transfer in greasy ink. The transfer is next put into a weak
-bath of tannin and bichromate of potash for a few minutes, and when taken
-out the surplus solution should be carefully dried off between clean sheets of
-blotting paper. The transfer is hung up to dry, and when thoroughly dry,
-the whole of the still sensitive surface should be exposed to light for about two
-minutes. A weak solution of oxalic acid should be used for damping
-the <span class="xxpn" id="p149">{149}</span>
-transfer (about 1 in 100), and this should be applied to the back of the transfer
-with a soft sponge. After it has been damped about four times, it should be
-carefully put between clean sheets of blotting paper, and the surplus moisture
-removed. A cold polished stone is then set on the press, and when everything
-is ready the transfer is placed on the stone and pulled through twice. The
-stone or scraper is then reversed, and the transfer is again twice pulled through.
-A moderate pressure and a hard backing sheet should be used, care being taken
-not to increase the pressure after the first pull through. The transfer is taken
-from the stone without damping, when it will be found that the ink has left
-the paper clean. Gum up the stone in the usual way, but, if possible, let the
-transfer remain a few hours before rolling up. Do not wash it out with
-turpentine, and use middle varnish to thin down the ink.</p>
-
-<p>It should have been mentioned that varying degrees of fineness of grain can
-be given to the transfer by adding a little more ferridcyanide of potassium in
-the sensitizing solution, and drying the transfer paper at a higher temperature,
-or by heating the paper a little before exposure, or by adding a little hot water
-to the cold water bath, after the transfer has been fully exposed; the higher
-the temperature of the water, the coarser the grain will be. The finer grain
-is best suited to negatives from Nature, when a considerable amount of detail
-has to be shown.</p>
-
-<p>The coarse grain is best for subjects in monochrome, or large negatives from
-Nature, of architecture, etc., where the detail is not so small. Even from the
-finer grain, several hundred copies can be pulled, as many as 1200 having
-been pulled from a single transfer. It would have produced a great many
-more if required.</p>
-
-<div class="chapter">
-<h2 class="nobreak" title="Part VI. Collographic Printing."
-id="p151">PART VI. <span class="blksmaller">
-COLLOGRAPHIC PRINTING.</span></h2>
-
-<h3 class="nobreak" title="Chapter I. Half-tone Photographic Negatives.">
-CHAPTER I. <span class="blksmaller">
-HALF-TONE PHOTOGRAPHIC NEGATIVES.</span></h3></div>
-
-<p>In all the processes and methods treated of up to Part III., the photographic
-negative has been what may properly be termed, a black and white negative,
-the lines being rendered clear, and the portions representing the whites of the
-original being as near black as possible. The extremes of clearness and opacity
-in these negatives are obtained by having the nitrate of silver bath kept and
-worked in a very acid state; then the opacity is obtained by intensifying with
-a solution of mercury followed by ammonia.</p>
-
-<p>Now for the methods to be treated of in this part. An entirely different
-class of negative is required in which the half-tones are fully preserved, both
-in the shadows, and in the lights. These half-tone negatives may be made
-either by the wet collodion process, or upon ordinary gelatine dry plates. For
-producing them by the wet collodion process, directions are given on
-page <a href="#p011" title="go to p. 11">11.</a></p>
-
-<p>In the processes treated in Part II. the aim has been to get the photographic
-half-tone broken up in such a manner that the picture could be reproduced by
-the same means as an ordinary wood block, but in collographic printing the
-half-tones are not (visibly) broken up, the gelatine holding the ink in exact
-proportion to its exposure to light, thereby giving a print with the smooth
-gradations of an ordinary photograph.</p>
-
-<p>The collographic methods are called “heliotype” and collotype. They are
-analogous in principle, but differ in detail; the heliotype is printed from a film
-of gelatine, which, after being dried upon a plate of glass, is stripped off,
-exposed to light under a reversed negative, then mounted upon a plate of
-pewter to support it during the operation of printing from. The collotype
-printing surface is the film of gelatine upon the glass or metal plate upon
-which it was dried. Note also the different printing
-methods.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p152"
- title="Chapter II. The Heliotype Process.">
-CHAPTER II. <span class="blksmaller">
-THE HELIOTYPE PROCESS.</span></h3></div>
-
-<p>A heliotype print is made in an Albion or other type-printing press, from
-a film or skin of bichromated gelatine, which, having been dried upon a plate
-glass (finely ground and waxed), is stripped off, then exposed to light in an
-ordinary printing-frame, under a reversed negative, then removed from the
-frame, laid face down upon a piece of black velvet, and the back of the skin
-exposed to light for a short time. The skin is next mounted upon a pewter
-plate, coated with a thin film of India-rubber, and placed upon the bed of the
-press, where the skin is covered with water from a sponge, and is allowed to
-soak for twenty or thirty minutes. It is then inked up, first with one roller,
-and then with another of a slightly different composition; the margin of the
-skin is then covered with a mask, with a suitable opening cut in it, then the
-paper that is to receive the image is put into position upon the mask. The
-picture is then printed.</p>
-
-<p>The above is a rough outline of the process; now for the working details.</p>
-
-<p>First of all, it will be necessary to understand that the gelatine skin from
-which the picture is printed must be of such a size as to allow a margin outside
-the actual picture of at least two inches all around, so that the rollers used in
-inking up will not overlap the margin, and strip the skin away from the
-pewter plate upon which it is mounted. For pictures 10 by 12, and under, a
-convenient size for the heliotype skin will be 21 inches by 15 inches, so the
-present chapter will treat entirely of skins 22 by 16, and the sizes of rollers,
-etc., given, as well as formulas for quantities of gelatine, etc., will be those most
-suitable for that size of skin; so if larger skins are adopted, the quantities here
-given must be modified accordingly.</p>
-
-<p>The first consideration will be the apparatus and materials necessary. The
-first thing that commands attention is the press—an Albion or other typographic
-hand press—(the pressure necessary to print from a heliotype skin must
-be vertical, not scraping, therefore a lithographic press will not do). The
-press must have the bed fitted with several thicknesses of Kamptulican sufficient
-to <i>nearly</i> bring a sheet of thick zinc type high—“nearly” is said,
-because <span class="xxpn" id="p153">{153}</span>
-due allowance must be made for the pewter plate (one-eighth of an inch in
-thickness) upon which the heliotype skin is mounted. Inside the tympan
-place a piece of good blanket, and also provide a loose blanket to lay over the
-paper when placed in position for receiving the impression.</p>
-
-<p>The press must be fastened down to the floor, as plenty of pressure will be
-required in printing; a bench will be required close to the press, upon which
-either one large inking slab or two small ones can be placed, as well as the
-stock of printing papers, and a dish of water. A couple of good sponges are
-also required, as well as a supply of thick plate paper, to blot off the superfluous
-water.</p>
-
-<div class="keeptogether">
-<h4 title="The Rollers.">THE ROLLERS.</h4>
-
-<p>The quality of the print from a heliotype skin depends greatly upon having
-good rollers at hand for inking the image; therefore, the preparation of the
-rollers (two) must be made with every care. Get the usual printing office pattern,
-with handles in the centre. The stocks of these rollers are to be coated with
-India-rubber sponge, upon which is cast a mixture of gelatine, etc.</p></div>
-
-<p>First of all, procure two 12-inch rollers with handles complete, and get the
-stocks coated with India-rubber sponge a quarter of an inch thick; then, with
-strong twine tie down about a quarter of an inch from each end, trimming off
-the edges outside the string, so as to make them nice and round; now place
-one of the stocks in position upon the base socket of a 15-inch seamless roller
-mould, then carefully smear the inside of the mould with a rag saturated with
-whale oil (taking care that the whole of the surface of the mould is smeared
-with the oil); now place the mould in position over the stock, put the loose
-socket in position at the top, when it is ready for receiving the composition for
-the inking roller, made as follows—</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Scotch Glue</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">pound.</td></tr>
-<tr>
- <td class="tdleft padr">Gelatine</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">pound.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Soak all night in sufficient cold water to cover it. In the morning squeeze out
-the superfluous water, and in a suitable size glue kettle, “Baine Marie,” or a jar
-placed in a pan of water, melt over a fire or Bunsen burner, then add 1 pound of
-green treacle, mix, and add 2 ounces of castor oil, 1 ounce of glycerine; stir
-well until all are thoroughly mixed, then pour into a warm jug, and from the
-jug pour into the mould as gently as possible; when the mould is full, take a
-piece of wood, and tap the outside of the mould all round, from bottom to top.
-That will cause any air bubbles that may be imprisoned in the mixture to
-rise <span class="xxpn" id="p154">{154}</span>
-to the surface; then, if the mixture in setting should shrink, pour in more
-until the mould is quite full.</p>
-
-<p>Now allow to stand for 12 or 18 hours, then remove the mould from the
-block, the socket from the top of the mould, then gently push the roller out.
-If due precautions have been taken, it ought to come out quite smooth. If
-it does not, the composition must be melted off in hot water, and the roller
-recast.</p>
-
-<p>Composition for the clearing roller—Scotch glue, 1 pound; gelatine, 2
-pounds; green treacle,
-<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>
-pound; castor oil, 2 ounces; glycerine, 1 ounce.</p>
-
-<p>The glue and gelatine are soaked as before, then melted and mixed with the
-other ingredients. The stock (covered with India-rubber sponge) is placed
-inside the greased mould, and the roller cast exactly as before.</p>
-
-<p>The rollers being pushed out of the mould, trim the ends square with the
-ends of the stock, then dip the ends of each roller in hot water placed in a
-saucer to a depth of half an inch, until the composition is slightly softened.
-In this condition the sharp edges are rounded off with a damp cloth wound
-round the fingers.</p>
-
-<p>The object of thus rounding the edges is to prevent the roller marking the
-picture when rolling up the image.</p>
-
-<p>These rollers are not fit for use directly after casting, but should be placed
-on the handles, and washed with turpentine on a slab, then allowed to hang for
-two or three days, and occasionally washed over with a rag dipped in alcohol.</p>
-
-<p>When in use the inking roller should never be washed, but if the ink upon
-it requires cleaning off, it should be done by rolling it upon a clean piece of
-hard paper. When put away after a job, the roller should be coated with fatty
-ink. Clear it for work next time by rolling it on the paper.</p>
-
-<p>The clearing roller will require keeping free from a superfluity of ink by
-washing.</p>
-
-<p>Instead of making the roller composition, and casting rollers, some of the
-high class composition sold for type printing may be used, or the rollers may
-be obtained ready cast, which will, perhaps, be found far more economical in
-the long run.</p>
-
-<div class="keeptogether">
-<h4 title="Preparation And Care Of The Rollers.">PREPARATION AND CARE OF THE ROLLERS.</h4>
-
-<p>Leather rollers when new should first of all be warmed in front of a brisk
-fire, and when warm rubbed with a piece of Russian tallow until the leather
-will not absorb any more. Then allow the roller to stand twelve
-hours <span class="xxpn" id="p155">{155}</span>
-and repeat the operation; then take some middle varnish, smear some of it
-along the roller, and on a clean slab roll vigorously, and repeat the operation
-two or three times, scrape the roller with the grain, then roll up in varnish,
-allow to stand all night, scrape again, roll up again next day, scrape, then roll
-up with collotype ink, scrape and roll up, repeating this until the roller takes
-the ink evenly. After each time of using, scrape the roller before putting
-away, and if, after using, the roller is likely to be some time before being
-wanted again, after scraping smear it with Russian tallow, and wrap it up in
-paper, scraping it before rolling it up in the ink again.</p></div>
-
-<p>Glue rollers should be hung up after use in a cold place, and before being
-put away should be coated with fatty ink, and just before using should be
-rolled clean upon a piece of rather fluffy paper; washing glue rollers in
-turpentine is not to be recommended, as it tends to harden them, and deprives
-them of their feeding quality. Glue rollers can be bought ready cast, and it is
-advisable to so buy them; any dealer in typographic material will supply them
-of a suitable quality, if the purpose for which they are required be stated at the
-time of ordering. The “durable” composition being very good for collographic
-printing, it may be purchased and used for the rollers, for printing from a
-heliotype skin, instead of the mixture given previously. For roller No. 2,
-add two ounces of gelatine previously soaked in cold water, and as much water
-squeezed out as is possible, then add this to the “durable” composition, and
-stir until the gelatine is melted and well incorporated with the composition.</p>
-
-<p>These rollers may be cast upon the bare stock, without the India-rubber
-sponge, if preferred, but the India-rubber sponge makes the roller much lighter
-for use, which is a great consideration when long numbers are printed straight
-away.</p>
-
-<p>These remarks are applicable to the rollers used in the work described in the
-previous chapters. Too much care cannot be given to the rollers. The skilled
-printer who has feeling for his work will soon learn to regard his rollers as the
-magic wands which produce his results. And well he may.</p>
-
-<p>The ink used for heliotype printing is the best chalk ink as purchased in
-tins, brought to working consistency by mixing with lard, the two ingredients
-being well mulled on the slab. Varnish must not be used, lard being the best.
-Cocoanut and olive oil are also good. <span class="xxpn" id="p156">{156}</span></p>
-
-<div class="keeptogether">
-<h4 title="Heliotype Skin">HELIOTYPE SKIN</h4>
-
-<p>is composed of a mixture of gelatine, glycerine, chrome alum, bichromate of
-potash, and water, dried upon a slab of thick plate glass. The surface of the
-plate glass must be very finely ground with emery powder (great care being
-taken that there are no scratches or holes, or they will spoil the skin), then
-thoroughly cleaned, and waxed with a solution of beeswax in benzole, a good
-plan being to first of all smear the glass with the wax, and then polish as much
-off as possible with an old linen duster (clean), then sprinkle with clean benzole,
-and with a fresh duster polish the plate thoroughly, noting well that wax
-marks will spoil the skin.</p></div>
-
-<p>This waxing need not be done every time a skin is made, but at intervals of
-every three or four skins.</p>
-
-<p>The waxed glass requires levelling, so that the gelatinous mixture will set of
-an even thickness; therefore, a levelling stand must be provided, as well as a
-good and true spirit level.</p>
-
-<p>The gelatinous mixture is dried in an oven (see Drying Oven in chapter on
-Collotype), at a temperature not exceeding 80°&nbsp;F., the time occupied being
-from thirty to forty hours.</p>
-
-<div class="keeptogether">
-<h4 title="The Pewter Plate.">THE PEWTER PLATE.</h4>
-
-<p>The skin after exposure to light under the negative, etc., is mounted by
-means of a squeegee upon a plate of pewter 21 by 15 by
-<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>8</sub>
-of an inch in thickness,
-and well polished. This plate is cleaned with benzole and coated with a
-solution of India-rubber in benzole (well filtered) and dried.</p></div>
-
-<div class="keeptogether">
-<h4 title="The Mask.">THE MASK.</h4>
-
-<p>To prevent the margin of paper upon which the ink picture is printed, being
-dirtied, it is necessary, after rolling up, to lay a mask over the skin, this mask
-having an opening in the centre the size of the picture. Paper suitable for
-this purpose is made by coating bank-post paper with a mixture of one part
-of gold size, and two parts boiled oil; this mixture is laid on the paper evenly
-with a sponge, then hung on a line to dry; when dry it is ready for use.</p></div>
-
-<div class="keeptogether">
-<h4 title="The Heliotype Skin.">THE HELIOTYPE SKIN.</h4>
-
-<p>To prepare a skin 22 by 16, weigh out two ounces of a good gelatine, and
-soak it in ten ounces of cold water until soft, then place it in the
-porcelain <span class="xxpn" id="p157">{157}</span>
-vessel of a “Bain Marie,” the outer vessel being duly provided with the
-requisite quantity of cold water; now place it over the fire or Bunsen burner,
-and stir until the gelatine is just melted, then add two drachms of glycerine;
-stir well, so as to mix thoroughly, and raise the temperature to 125°&nbsp;F.; add
-two ounces of solution No. 1, and two drachms of solution No. 2; stir well,
-then remove from the fire or Bunsen, and strain through muslin into a jug or
-beaker; now tie over the jug or beaker a clean piece of muslin, when the mixture
-is ready for pouring upon the ground side of thick plate glass, waxed,
-properly levelled, and slightly warmed. Begin by pouring in the centre of the
-plate, and gradually enlarge the circle until all the gelatinous mixture is out of
-the jug or beaker, then with a strip of clean card coax
-the gelatine to the edges.</p></div>
-
-<p>Now examine the film for air bubbles, which, if present, must be removed,
-either by pricking with a quill toothpick, or by coaxing to the edge with a
-piece of card.</p>
-
-<p>As soon as the mixture has thoroughly set (which it soon does), remove it
-to the drying box.</p>
-
-<p>Of course, the requisite quantity of gelatine for more than one skin may be
-melted at once, but it will be better only to strain into the pourer, from the
-“Bain Marie,” sufficient for one plate at a time, remembering that the quantity
-now given is for one plate only; therefore, if two, three, four, or more plates
-are to be dried at once, the quantities given above must be increased accordingly.</p>
-
-<p>The stock solutions named above are compounded as follows:</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solutions">
-<tr>
- <th colspan="3"><i>No. 1.</i></th></tr>
-<tr>
- <td class="tdleft padr">Bichromate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <th colspan="3"><i>No. 2.</i></th></tr>
-<tr>
- <td class="tdleft padr">Chrome Alum</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">20</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div>
-</div>
-
-<p>The temperature of the drying box must not exceed 80°&nbsp;F., and the time
-occupied will be from thirty to forty hours, during the whole of which time
-the temperature must be steadily maintained, but not exceeded.</p>
-
-<p>When the skin is dry, with the point of a penknife separate the edges from
-the glass, and then lift the skin away, when it is ready for exposure to light
-under the negative. If it is desired to keep the skins a few days before using,
-they may be stored between sheets of dry brown paper in a drawer, or in a tin
-tube. <span class="xxpn" id="p158">{158}</span></p>
-
-<p>It will be just as well to remark here that the dry heliotype skins are sensitive
-to light; therefore, the drying oven must be in a room illuminated by yellow
-light, or by artificial light, and the skins must not be exposed to daylight until
-they are in the printing frame.</p>
-
-<div class="keeptogether">
-<h4 title="Printing The Picture.">PRINTING THE PICTURE.</h4>
-
-<p>The heliotype skin is now ready for exposure under the negative, which is
-done in a printing frame 24 by 18 inches, provided with
-a plate glass front.</p></div>
-
-<p>The negative must be reversed (<i>i. e.</i>, instead of being taken direct in the
-usual way, a reversing mirror is used). The margin of the negative must be
-protected by a mask, with an opening cut the size and shape of the intended
-picture, the outside edges of the mask being sufficient to cover the rest of the
-skin.</p>
-
-<p>To print, the back of the negative is cleaned, then laid with the film uppermost,
-in the centre of the plate glass front of the printing frame; the mask is
-then laid in position, the opening in the centre being adjusted so that exactly the
-amount of picture required will be printed upon the skin. The rest of the
-skin is protected from the action of light by the opaque margin of the mask.
-Now lay the skin, with the matt surface (<i>i. e.</i>, the side that was in contact with
-the ground side of the glass plate during the process of drying) next the film of
-the negative; upon this lay a piece of dry black velvet, then a sheet of thick
-felt, then the back of the printing frame, fasten up, turn it over and see that
-the front of the glass is clean; then the frame is ready for exposure to light.</p>
-
-<div class="keeptogether">
-<h4 title="Exposure To Light">EXPOSURE TO LIGHT</h4>
-
-<p class="pcontinue">should be made in a good diffused light, and its duration timed by means of
-an actinometer (see page
-<a href="#p107" title="go to p. 107">107</a>).</p></div>
-
-<p>As the time of exposure to light will vary according to the quality of the
-negative, no precise rule can be made, the best way being to get a small negative
-as near the same density as the other, cut off a piece of the skin, and
-placing it in a frame, expose to light at the same time as the big frame, and
-occasionally examine the progress of the small strip of skin in the dark room.
-A very good idea of the exposure of the big one can thus be had. A heliotype
-skin is properly printed as soon as the details in the half-tones show themselves.
-Of course, it should be understood that the small negative must be
-exposed to light at the same time and place as the big
-one. <span class="xxpn" id="p159">{159}</span></p>
-
-<div class="keeptogether">
-<h4 title="Sunning The Back Of The Skin.">SUNNING THE BACK OF THE SKIN.</h4>
-
-<p>The exposure to light under the negative being completed, remove the skin
-from the printing frame, and lay it with the side that has just been in contact
-with the film of the negative, upon a piece of black velvet, covering the margin
-of the skin outside the picture with strips of brown paper—these strips not quite
-touching the picture; now cut off a strip of the skin, say a quarter inch wide
-by one inch long, and double it lengthways, then cut a hole in a piece of brown
-paper and place the doubled piece of skin under it. Now remove the skin to
-diffused light, and as soon as the shape of the hole can be seen upon the undermost
-half of the small strip, the sunning of the skin has gone far enough, and
-it is ready for mounting upon the pewter plate.</p></div>
-
-<p>The test here given for timing the sunning of the exposed skin is suitable,
-when a good ordinary negative has been used, but if a negative somewhat flat,
-or thin, has been used, then less sunning will be required, and if a very intense
-negative, the time of sunning must be increased, the object of the sunning
-being to reduce the relief caused by deep shadows.</p>
-
-<div class="keeptogether">
-<h4 title="Mounting On The Pewter Plate.">MOUNTING ON THE PEWTER PLATE.</h4>
-
-<p>The pewter plate upon which the exposed and sunned heliotype skin is
-mounted for printing from, must be well polished, free from scratches or other
-marks, the size being 21 by 15 by
-<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>8</sub>
-of an inch in thickness. This plate is
-polished with a soft duster, then coated with a solution of India-rubber in
-benzole (about the consistency of sweet oil), the solution being poured on, and
-flowed to the corners and edges; then the plate is placed upon a levelling stand,
-and the India-rubber allowed to dry.</p></div>
-
-<p>This India-rubber solution is made by dissolving India-rubber solution, as
-sold in tins at any India-rubber warehouse, in benzole or benzoline.</p>
-
-<p>When the solution is made it must be filtered through paper, or strained
-through five or six thicknesses of fine muslin, as the presence of any grit between
-the surface of the pewter and the skin would at once ruin the picture.</p>
-
-<p>The India-rubber film being dry, place the pewter plate in a tray of clean
-water, the water being about a quarter of an inch deep; now trim the skin
-with a sharp pair of scissors to a little smaller than the pewter
-(20&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub> by
-14&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>&#xfeff;)&#xfeff;,
-then lay the skin, face up, upon the surface of water, and at once lift the
-pewter plate from the water, keeping the skin in position by grasping the two
-top corners with the two forefingers. Now lay the pewter on the bench,
-and <span class="xxpn" id="p160">{160}</span>
-with a nice, soft squeegee bring the skin into contact with the India-rubber film.
-This mounting must be done rapidly, as if the skin gets a chance of absorbing
-water it will frill, and be spoilt. The back merely requires moistening, and
-the squeegee, in expelling the water, brings it into contact with the India-rubber
-film. Now, with the squeegee, remove all the water from the plate, and then
-brush round the edges with some India-rubber solution, so as to reduce the
-chance of water, to be used subsequently, from getting under the skin.</p>
-
-<div class="keeptogether">
-<h4 title="Printing From The Skin.">PRINTING FROM THE SKIN.</h4>
-
-<p>Now place the pewter on the bed of the press, and with a clean sponge cover
-the picture with clean, cold water, in sufficient quantity to form a pool about
-one-eighth of an inch deep, care being taken that the water does not extend as
-far as the edges of the skin.</p></div>
-
-<p>The water is allowed to remain on the skin for five minutes; it is then
-soaked up, and a fresh supply added, and this operation is repeated at intervals
-for twenty or thirty minutes, the object being to partly remove the bichromate,
-and also to allow the gelatine that has not been rendered insoluble by the action
-of light, to absorb sufficient water to enable it to repel the ink from the roller.</p>
-
-<p>When it is judged that the image has been sufficiently soaked, with the
-sponge remove as much water as possible, then lay a clean sheet of paper upon
-the skin; upon the paper lay the loose blanket, lower the tympan, run the bed
-of the press under the platen, then pull over the lever, and subject to as much
-pressure as the press will give, allowing the pressure to “dwell” for a minute
-or two.</p>
-
-<p>This is to “smash” down the highest relief in the skin, which, unless so
-smashed down, would interfere with the roller feeding the ink in the deepest
-shadows.</p>
-
-<p>The skin is now ready for inking up with No. 1 roller, charged with the
-best litho. ink mixed with a little lard, just sufficient, and no more, to make
-the stiff ink distribute on the slab, the ink and the lard being thoroughly incorporated,
-either with a stiff palette knife or with a muller. The ink and lard
-being thus well mixed upon the slab, gather up the compound and place it in
-one corner of the slab.</p>
-
-<p>For No. 2 roller take a portion of the above mixture and add to it a little
-more lard, and mix well, then place this in one corner of the other inking slab.</p>
-
-<p>With the palette knife touch the roller No. 1 at short intervals with little
-dabs of the first ink, then roll it vigorously on the slab up and down, and
-then <span class="xxpn" id="p161">{161}</span>
-across and sideways, until the ink is evenly distributed over the roller and the
-slab; now with the roller proceed to ink up the image. Use plenty of pressure,
-and turn the roller first one way, then the other, until the image shows itself
-vigorous and strong.</p>
-
-<p>Now take No. 2 roller charged (in the same way as No. 1) with No. 2 ink
-well distributed (but do not use quite so much as with No. 1), and with a light
-pressure go over the inked image; this inking will fill up the light half-tones
-and clean up the image generally.</p>
-
-<p>Before pulling an impression take a sheet of mask paper (which must be a
-little larger than the pewter plate), and in the centre cut a clean, sharp opening
-the size the picture must be. This mask, with the oiled side down, is adjusted
-in position on the skin; then turn back the edge furthest from the operator,
-and upon the extreme edge of the pewter place a few small dabs of stiff ink,
-return the margin of the mask over these dabs of ink, and rub down; these
-dabs of ink serve to keep the mask in position, when turned back for each
-inking up. If the margin of the mask paper projects over the pewter plate,
-and outside the bed of the press, it must be turned down, else it will tear when
-the bed of the press is run in.</p>
-
-<p>The mask being laid in position to protect the margin of the print, lay a
-piece of matt enamel paper on the inked up and masked image, back this first
-with a sheet or two of clean blotting paper, then with a loose blanket; lower the
-tympan, and run the bed of the press under the platen and pull over the lever.
-The pressure requisite to pull an impression from a heliotype skin requires the
-full strength of an ordinary man to pull over the lever.</p>
-
-<p>Now examine the print, and if it is flat and dirty, the skin has not been
-soaked sufficiently before inking up, so remove the ink left by the paper by
-washing it over with a rag soaked in turpentine, then wash with a wet sponge,
-blot off the surplus and with the sponge again put a pool of water over the
-image, and allow it to soak for about five minutes; again wipe it off with a
-sponge, smash down and ink up again.</p>
-
-<p>If the image is black and white without half-tones, the fault may lie in the
-negative, which perhaps is too hard; or if that is all right, then the skin has
-not been sufficiently exposed in the printing frame, in which case it may be at
-once thrown away, as no amount of coaxing will make it yield a good print.
-Or it may be that the skin is too damp, in which case rub it gently with the
-water sponge, on which a few drops of alcohol have been sprinkled; then blot
-off, ink up again, and pull another
-proof. <span class="xxpn" id="p162">{162}</span></p>
-
-<p>If the back of the skin is “sunned” too much, the print will suffer by being
-dirty and flat, and will require sponging over with a little of the ten per cent.
-mixture of ammonia in water; then blot off, and again ink up; take care and
-keep the ammonia sponges away from the other sponges.</p>
-
-<p>If the deep shadows show a white margin and are difficult to ink up, the skin
-has been exposed under the negative for too long a time; and if “smashing”
-down does not remedy the defect, the only chance of saving it will be to allow
-the skin to get thoroughly dry, and then (say the next day) to soak it up again
-for an hour.</p>
-
-<p>Spots on the margin of the print may be removed by carefully painting them
-over with a camel’s-hair brush charged with dilute cyanide of potassium, carefully
-washing afterward to prevent spreading.</p>
-
-<p>Each time the image is inked up, the mask must be laid back, so as not to
-interfere with the roller; then after inking up, it is again laid in position, so
-as to protect the margin of the paper upon which the print is made.</p>
-
-<p>It must be borne in mind that the first print from the skin will not be the
-best it is capable of giving, therefore, before any of the above-named dodges are
-resorted to, the image should be inked up and proofs pulled four or five times;
-as a generul rule perfection will not be attained until about ten or twelve prints
-are made, using each time a good paper, as a soft spongy one will not pick up
-the ink on the skin.</p>
-
-<p>Of course, a plain black ink will not suit every class of subject, therefore,
-when the operator requires a different tint or color, it must be made by a judicious
-blending of stiff ink of the proper colors mixed with lard as given above.
-When a distinct change of color is required, it is not a good plan to wash No.
-1 roller, but have a separate No. 1 roller for each color. No. 2 roller may be
-washed for such a purpose.</p>
-
-<p>If it is desired to print two tints, the darkest tint is applied with the No. 1
-roller, the lightest with the No. 2
-roller.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p163"
- title="Chapter III. the Collotype Process.">
-CHAPTER III. <span class="blksmaller">
-THE COLLOTYPE PROCESS.</span></h3></div>
-
-<p>This process, roughly described, consists in carefully grinding with fine
-emery, a plate of thick glass, then coating it with a mixture of white of egg, or
-of stale beer and silicate of soda. After the plate is dried it is rinsed in water,
-and dried again, then warmed, and coated with a thin film of bichromated
-gelatine. This coating is then dried in a suitable oven, after which the plate
-is exposed to light under a reversed negative, followed by a short exposure of
-the back of the film to light, then washed in cold water until the whole of the
-bichromate is removed from the film, when the plate is allowed to dry. It is
-next soaked in cold water, then in a mixture of glycerine and water, after which
-it is placed upon the press, and the printing proceeded with.</p>
-
-<p>As in lithographic printing, the size of the paper upon which the picture is
-printed determines the size of the stone upon which the transfer is made, so as to
-give a good margin, not only large enough to prevent the paper being marked
-by the edge of the stone, but also to allow plenty of room for working the roller;
-so in collographic printing, the glass plate upon which the picture is to be made
-must be sufficiently large to allow a margin of <i>at least</i> four inches all round the
-outside of the picture. This is not only requisite for the reasons that hold good
-in litho. printing, but for the additional one of giving plenty of room for the
-manipulation of the mask used to protect the margin of the print.</p>
-
-<p>Collographic plates should also be sufficiently large to prevent their edges
-from cutting the composition rollers used for inking the image; for instance,
-a roller nine inches long should never be used upon a plate less than twelve
-inches wide.</p>
-
-<p>Collographic films are made upon good patent plate-glass half an inch thick,
-free from scratches, with the edges nicely bevelled to avoid cutting the rollers;
-this bevelling the plates is absolutely necessary for use upon the machine, but
-is not so important for the hand press.</p>
-
-<p>To prepare plates for use they are first ground with fine emery powder. To
-do this place one plate upon a smooth board or a couple of bearers across the
-sink, sprinkle with fine emery powder (sifted through book muslin), then
-with <span class="xxpn" id="p164">{164}</span>
-water. Now, with another plate on the top, proceed to grind with a circular
-motion, continuing the grinding until the emery is worn smooth; then renew
-the supply of emery, sprinkle with water and again grind until the emery is
-smooth; now work well with water, squeegee dry, and examine the surface;
-if it is evenly ground the plates are ready for the next stage. If they are not
-ground all over, cover them again with emery and water, and continue to grind
-until the surfaces are of an even matt all over.</p>
-
-<p>The plates being ground, they are well rinsed under the tap, and both sides
-are well rubbed with a rag to free them from all particles of grit, etc., then
-flood them with a mixture of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <td class="tdleft padr">Liquor Ammonia</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Alcohol</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">ounce.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">rub this well in with a clean rag, and again well wash with clean water, then
-allow to drain and flood with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="mixture">
-<tr>
- <th colspan="3"><h4 title="The Preliminary Coating Of">THE
- PRELIMINARY COATING OF</h4></th></tr>
-<tr>
- <td class="tdleft padr">Stale Beer</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Silicate of Soda (Waterglass)</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">ounces.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">made up an hour or two before using, and filtered.</p>
-
-<p>The wet plate is covered with this two or three times, and then placed on a
-rack to dry. When all the plates in the batch are coated the rack should be
-removed to the drying oven and the plates dried <i>in sitû</i>, not lying down.</p>
-
-<p>Be as careful as possible to prevent any of the beer and silicate mixture from
-getting on the back of the plate, as it interferes with the running of the image
-afterward.</p>
-
-<p>Plates may be prepared with the preliminary coating in quantity, as the
-coating hardens and improves by being kept.</p>
-
-<p>When the coating on the plates is quite dry rinse them under the tap and
-again dry them, this time quite spontaneously. Lastly, they are placed upon
-the slab of the drying oven to get sufficiently warm before being coated with
-the sensitive mixture.</p>
-
-<p>The sensitive mixture must be made exactly as follows, as everything depends
-upon the time and temperatures named: First of all, take thirty ounces of pure
-water and add ten drops of a saturated solution of chrome alum; shake up well
-and allow to stand ten minutes; if the water is very slightly opalescent, it
-is <span class="xxpn" id="p165">{165}</span>
-quite satisfactory, but if there is any tinge of green then too much chrome
-alum has been used, and it must be thrown away and another lot made.</p>
-
-<p>Then add two and one-half ounces of fine gelatine and allow it to soak until
-soft, then place it in the “Baine Maire” and melt the gelatine, stirring all the
-time. Raise the temperature to 125°&nbsp;F. and keep it thus for fifteen minutes;
-next add 150 grains of bichromate of potassium in fine powder, stirring until
-dissolved, and raise the temperature to 150°&nbsp;F. Strain the mixture through
-muslin into a porcelain jar and allow it to cool, keeping it in jelly at least
-twelve hours before using it.</p>
-
-<p>This sensitive mixture does not work well if used to coat plates with directly
-it is made; therefore, it must be made up some time in advance. It keeps
-well, in fact improves, with keeping, up to about seven days. In remelting for
-use, only melt just sufficient for the plates to be coated, as it does not improve
-it to melt it too often.</p>
-
-<p>Plates coated with the above mixture are dried at a temperature of from
-100° to 120°&nbsp;F. in from two hours to three hours, and have a splendid grain.</p>
-
-<p>Here is another formula the mixture from which does not keep, but must be
-made and used directly. It is the formula most frequently used by the writer.
-Plates prepared with it can be dried, at lower temperatures, in from twenty to
-fifty minutes. It is also the best formula when copper plates are used instead
-of glass, of which mention will be made at the end of the chapter.</p>
-
-<p>Soak two and one-half ounces of gelatine in fifteen ounces of water until
-quite soft, then place all in the “Baine Maire” and melt at as low a temperature
-as possible; when melted add 100 grains of bichromate of potash and 50
-grains of bichromate of ammonia both in fine powder, stirring until dissolved;
-now put in the thermometer, and raise the temperature to 140°&nbsp;F. and keep it
-there for ten minutes; then allow to cool to 125°&nbsp;F. and add the following
-mixture, stirring vigorously the while: fifteen ounces of alcohol and five ounces
-of a saturated solution of borax in alcohol. Mix the two before pouring them
-into the hot gelatine. With some gelatines the addition of this mixture will
-cause a slight coagulation of the gelatine, and it will stick to the stirring rod;
-therefore, the solution must be stirred until the coagulated gelatine is redissolved;
-then strain it through muslin into the pourer and at once use it by
-pouring it over the warm plates.</p>
-
-<p>One of the best vessels to use as a pourer is an invalid’s cup with a spout
-at the side.</p>
-
-<p>The above quantity of mixture is sufficient for sixteen plates 16 × 13
-inches; <span class="xxpn" id="p166">{166}</span>
-therefore, if only four are to be coated, which is the quantity that the drying
-oven to be described will take, the above quantities must be divided by four.</p>
-
-<p>Now if the first formula be used, take sufficient of the jelly, melt it and
-strain it through muslin; then take one of the plates from the drying oven—which
-plate should be just warm enough to be comfortably held on the palm
-of the hand—carefully brush it over with a dusting-brush, so as to remove any
-particles of dust that may have adhered and balancing the plate on the palm of
-the hand, pour over it sufficient of the warm gelatine to just cover it. A 16 × 13
-plate will take a little less than two ounces of the gelatine mixture. Take care
-not to spill any. Next place the plate upon the hot slab, and coat the rest in
-the same way. When all are done close the door of the oven and do not open
-it again until the plates are dry.</p>
-
-<p>With the second formula the <i>modus operandi</i> is the same, except, of course,
-that instead of melting the already made jelly, the mixture made as above
-directed is used directly after mixing. The plates being dry they are ready
-for exposure, which need not necessarily take place at once, as if stored away
-in the dark and away from damp they will keep two or three weeks.</p>
-
-<p>The exposure to light is made in a box-pattern frame, the negative having
-a mask in front of it to protect the margin of the plate from the light.</p>
-
-<p>The negative used must be reversed—<i>i. e.</i>, the image must be in its right
-position on the negative when viewed through the film, not as ordinary negatives
-are—through the glass; therefore, a mirror must be used in making the
-negative, or a skin negative may be used; or, if neither is practicable, the
-negative must be reproduced by one of the methods already given.</p>
-
-<p>The exposure to light in the printing frame will vary according to the density
-of the negative, and the strength of the light, and should be continued until
-the image can be seen well defined upon the gelatine film when examined in
-the dark-room, by opening one-half of the back of the frame.</p>
-
-<p>The exposure being complete, lay the printing frame face down upon a table
-in the light, remove the back and packing, and expose the back of the film to
-the light for a short time, without in any way disturbing the position of the
-collotype plate or the negative.</p>
-
-<p>This exposure of the back of the image to the light has a twofold advantage,
-one being that it helps to weld the sensitized gelatine film to the surface
-of the plate, and so enables it to stand the wear and tear of printing; the
-other, that it reduces the relief of the picture, and so gives the inking roller
-a better chance of feeding the deep
-shadows. <span class="xxpn" id="p167">{167}</span></p>
-
-<p>The duration of the exposure of the back of the film to the light will vary
-very much with the subject in hand; if it be one with slight contrasts, a much
-shorter time will be required than where the picture contains a lot of very
-heavy shadows.</p>
-
-<p>The next step will be to remove the plate from the printing frame, and
-immerse it in clean cold water for five or six hours, or for such a time as
-suffices to remove the whole of the bichromate from the film. The plate is
-then placed in the rack to dry spontaneously, and should be allowed to stand
-for at least twelve hours afterward before printing from, so as to give the film
-a proper chance to become thoroughly hard.</p>
-
-<p>We now have a collotype plate which has undergone the following operations,
-viz.:</p>
-
-<div class="figright imwth06" id="fig17">
-<img src="images/i167.jpg" width="312" height="405" alt="" />
-<div class="caption">Fig. 17.</div>
-</div>
-
-<p>A plate of thick glass ground with fine emery until of
-an even matt surface. Then it is washed and coated with the
-preliminary coating of beer and silicate of soda and dried.
-Then rinsed in cold water and again dried. Next placed on
-the warm slab of the drying oven until just warm enough to
-hold on the palm of hand. Then coated with the sensitive
-mixture, either No. 1 or No. 2, and placed in the oven until
-dried. Then exposed to the light under a reversed negative
-in a printing frame until the details of the image are well
-out. Then the back of the plate is exposed to the light for
-a short time. Then it is placed in clean cold water until
-the bichromate is removed. At last the plate is dried, after
-which it is ready for the printer.</p>
-
-<p>Now, before proceeding further, it will be as well to
-touch upon various points of procedure, and also to describe
-what may be reckoned the most important piece of a collotype
-plant, viz., the drying oven. Figure 17 gives a drawing
-of the oven as it stands on the table for use, the <span
-class="xxpn" id="p168">{168}</span> dimensions being from
-the top to the bottom of the frame 5 feet by 3 feet 4 inches
-wide by 3 feet deep. The top A, and the back, are covered
-with matched boards well seasoned; the sides and front, B,
-B, B, B, are made of frames 2 inches by 1 inch, covered with
-canvas sufficiently close to exclude light, but still open
-enough to let out the heat slowly. The door C is also a frame
-covered with canvas, 24 inches square, sliding upward in
-grooves, and balanced by means of weights. D is the jacket
-of iron upon which a copper tank rests, the jacket serving
-to carry the tank and to protect the wood-work from the gas
-flame used to warm the water in the tank. E is a sliding door
-in the jacket for the purpose of lighting the gas burner.
-F&nbsp;F are the projecting ends of a levelling arrangement
-forming the base of the oven, these ends being fitted with
-good, strong screws working upon iron plates let into the top
-of a strong table upon which the oven is placed. The distance
-between the two lower rails or styles is 6 inches, which is
-also the height of the iron jacket. D&nbsp;G is a tube let
-into the jacket to carry off the products of combustion from
-the gas. H is a tube with a screw nozzle, for filling the
-tank.</p>
-
-<div class="imctr01" id="fig18"><div id="fig19"><div id="fig20">
-<img src="images/i168.jpg" width="600" height="338" alt="" />
-<div class="caption"><table summary="caption" class="tabwth100">
-<tr>
- <td>Fig. 18.</td>
- <td>Fig. 19.</td></tr>
-<tr>
- <td>&#160;</td>
- <td>Fig. 20.</td></tr></table>
-</div></div></div></div>
-
-<p>Figure 18 is the base of the oven, <i>A&nbsp;A&nbsp;A</i> being the three points where the
-levelling screws are placed; this base is formed of good 4 by 3 inch quartering,
-the other dimensions being as marked. This base stands on the table, the oven
-on the top, without any fastenings. <span class="xxpn" id="p169">{169}</span></p>
-
-<p>Figure 19, the jacket of sheet iron well wired, with a tube at one corner, for
-carrying off the products of the combustion of the gas, and a hole at the other
-corner to carry the projecting tube from the tank, by which it is filled.</p>
-
-<p>Figure 20, the copper tank, the outside dimensions of which are 37 by 31
-inches, the flange fitting on top of the jacket; the depth of the tank in the
-centre is 3 inches; the inlet pipe is 1 inch bore, and 6 inches long, the bend
-being taken high enough to be about 2 inches above the top of the tank.</p>
-
-<p>The base is placed upon the table, then the iron jacket on the top of the
-base; then the copper tank is fitted into the top of the jacket; upon the top of
-the tank is placed a slab of marble or slate
-37&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub> by
-31&#x202f;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub>
-inches, cemented by
-means of plaster-of-Paris. The wooden top of the oven is fitted into position,
-the canvas being nailed on last. But, before doing this, it will be as well to
-fix the bearers as at C&nbsp;C&nbsp;C, Fig. 21, with corresponding ones on the other side,
-so that slats may be placed across for the
-purpose of holding heliotype plates, and for
-drying transfer paper, etc. The interstices
-between the edges of the slab and woodwork
-should be made good, either by means of
-wooden laths or cement.</p>
-
-<div class="figright imwth08" id="fig21">
-<img src="images/i169.jpg" width="252" height="303" alt="" />
-<div class="caption">Fig. 21.</div>
-</div>
-
-<p>The oven being erected, the first thing to
-do will be to fill the copper tank with water;
-then level the slab by means of the screws,
-or if the bottom ends of the base are shod
-with sheet iron, wedges may be used to level
-with. The drying oven must be kept in a
-room at a uniform temperature of about
-60°&nbsp;F.</p>
-
-<p>In using the oven after the plates are dry
-(after rinsing), place a piece of clean, dry,
-brown paper upon the slab, then place on this paper four plates 16 by 13
-inches—which are the size and quantity for which the dimensions of the oven
-have been calculated; then place a thermometer between the plates, and close
-the oven. After the water has been brought to boil, the plates will be ready
-for coating; but, if the thermometer registers over 120°, turn off the gas, coat
-the plates, again close the door, and let the plates dry.</p>
-
-<p>One of the first things the student must do is to familiarize himself with the
-oven. Note the time taken to bring the water to boil; the temperature of
-the <span class="xxpn" id="p170">{170}</span>
-slab, and the time taken for the temperature to fall after turning off the gas.
-A day spent at this will teach far more than it is possible to do by writing.</p>
-
-<p>Do not try to improve the oven by having the door to open any other way
-than by sliding. If made to open in or out, a draught of air is created which
-will cause mischief. Petroleum, instead of gas, may be used for heating the
-water.</p>
-
-<p>Instead of using glass plates for carrying the collotype film, copper or brass
-plates may be used. They should be grained with fine sifted graining sand
-and a stone muller, then washed with plenty of fresh water, and coated with</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution">
-<tr>
- <td class="tdleft padr">Stale Beer</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Silicate of Soda (syrup)</td>
- <td class="tdleft padr">2</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Tannin</td>
- <td class="tdleft padr">1</td>
- <td class="tdleft">grain.</td></tr>
-</table></div></div>
-
-<p>Prepare the mixture three or four hours before using, and filter it carefully.
-The subsequent operations are the same as with glass, except that the sunning
-of the back of the film must be dispensed with, and the second formula for
-the bichromated gelatine mixture must be used, as the first one gives too high
-a relief for copper.</p>
-
-<p>Plates that have been used are cleaned again for further trial, by immersing
-them in a pickle of American potash or concentrated lye, then well washing,
-regrinding, washing, and finally coating with the beer and water-glass substratum,
-exactly as before mentioned.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p171"
- title="Chapter IV. Printing from the Collotype Plate.">
-CHAPTER IV. <span class="blksmaller">
-PRINTING FROM THE COLLOTYPE PLATE.</span></h3></div>
-
-<p>Collotype plates are usually printed from, upon a typographic press, but
-the best press is one with a cylinder, like the lithographic machines. Such
-presses give a more even pressure, and at the same time will enable more impressions
-to be made in a given time.</p>
-
-<p>In the chapter on heliotype printing, a description is given for preparing the
-tympan for printing from the heliotype skin, and that description holds good
-for collotype plates; but we shall require a slate slab, the full size of the bed of
-the press, and a little under half an inch in thickness, upon which to fix the
-collotype plate by means of plaster of Paris.</p>
-
-<p>The press being ready, take the dried plate, and soak it for half an hour in
-clean cold water. After that wipe it with a clean soft rag, and scrape any
-gelatine from the back that may have found its way there; spread as evenly as
-possible some fine plaster of Paris over the slate slab on the bed of the press,
-then damp with sufficient water to make the plaster the consistency of cream,
-and lay the damp collotype plate in the centre, and press it well down, working
-it a little so as to get it level and well bedded in; allow the plaster to form a
-ridge all round the edges outside the plate, levelling these ridges by running
-the finger over the moist plaster, so that they do not project above the face of
-the plate. Now cover the collotype plate with a mixture of</p>
-
-<div class="tablebox"><div class="nowrap">
-<table summary="solution">
-<tr>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td class="tdleft padr">Ox-gall</td>
- <td colspan="2" class="tdleft">&#8199;a little.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">Allow this fifteen minutes to permeate the film, taking care that it covers the
-whole of the surface evenly.</p>
-
-<p>Whilst the plate is thus soaking up, get the inking slab clean, and the two
-rollers ready, viz.: An ordinary lithographic roller, for inking up the heavier
-portion of the image, and a composition roller for inking the half-tones and
-clearing the image; then mix the ink to the desired shade by taking some stiff
-ink from the tin, and mixing to the proper consistency with a little olive oil.
-The ink must not be made thin, but just sufficiently softened to work up
-with <span class="xxpn" id="p172">{172}</span>
-the palette knife. The ink used must be very finely ground by machinery
-with a minimum of olive oil. This, in hand grinding, is difficult to do, and
-the presence of too much varnish in the ink is prejudicial to the production of
-bright collotype prints.</p>
-
-<p>The ink being mixed, a little is taken up on the point of a palette knife and
-smeared along the face of the leather roller and then worked vigorously upon
-the inking slab, until the ink is thoroughly distributed upon both roller and
-slab. Do not attempt to thin the ink so as to lessen the labor of distributing
-the ink, as that will only render the collotype print flat and weak. The ink
-must be stiff and spare. Now remove the soaking fluid with a very soft sponge,
-and blot off with fine plate paper, then proceed to roll up with the leather roller,
-until the image just shows nicely on the plate. Do not attempt to get it to
-take sufficient ink to look black. Next take the composition roller, and a little
-ink thinned with lard to about half the consistency of that used with the leather
-roller, and touch it here and there with the palette knife holding this thinner
-ink, and roll up on another slab until the ink on the slab and roller are quite
-even; now apply the composition roller to the image inked up by the leather
-roller, and roll with a light pressure and quick motion. This will complete
-the inking up of the image. Now take a piece of the mask paper mentioned
-for heliotype printing, and having cut out a suitable aperture, place it in position
-upon the plate, then put a piece of paper in position upon the mask; upon
-this paper fix a large sheet of smooth waste paper, then loose the blanket, lower
-the tympan, run the bed of the press under the platen, and after adjusting the
-pressure, pull over the lever, run out the bed, and examine the proof. From
-that deduce whether the ink is too thin, or too thick, or not enough, or too
-much. Damp with a sponge dipped in water, then blot off or remove the
-surface water with a damp soft rag, then ink up again, and repeat until a suitable
-print is the result.</p>
-
-<p>Some collotype blocks require the ink far thinner than others, therefore it
-will be the aim of the printer to try various degrees of ink with each plate until
-the best result is attained. The best prints are got, as a rule, from a roller that
-seems to have very little ink upon it, but the ink thoroughly well distributed
-over both slab and roller.</p>
-
-<p>To print from a collotype plate it is necessary that those portions of the film
-which have not been exposed to the light—and from them in proportion as the
-gradation of tone progresses to the shadows—must be charged with moisture to
-enable them to resist the greasy ink; if plain water be used for this it
-would <span class="xxpn" id="p173">{173}</span>
-be troublesome to get sufficient in the film to resist the ink, and at the same time
-enable the roller to feed the image without slipping. Therefore glycerine is
-used, mixed with water, and with various hygroscopic substances, to which the
-term “etching fluids” has been given. This term is a misnomer, and quite out
-of place, “damping fluids” being the best.</p>
-
-<p>In addition to the damping fluid previously given, a few others are here
-appended, each having their advantages under certain conditions:</p>
-
-<div class="tablebox">
-<table class="tabwth100" summary="damping fluids">
-<tr>
- <td class="padr">&#160;&#160;</td>
- <td colspan="3" class="tdleft">Glycerine alone or with water.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">or,</p></td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Hyposulphite of Soda</td>
- <td class="tdleft padr">&#8199;&#8199;<sup>1</sup>&#xfeff;&#8260;&#xfeff;<sub>2</sub></td>
- <td class="tdleft">drachm.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">or,</p></td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Nitrate of Potash</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">drachm.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">or,</p></td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Ammonia</td>
- <td class="tdleft padr">10</td>
- <td class="tdleft">drops.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">or,</p></td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Common Salt</td>
- <td class="tdleft padr">30</td>
- <td class="tdleft">grains.</td></tr>
-<tr>
- <td colspan="4"><p class="pcontinue">or,</p></td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Glycerine</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Water</td>
- <td class="tdleft padr">&#8199;5</td>
- <td class="tdleft">ounces.</td></tr>
-<tr>
- <td>&#160;&#160;</td>
- <td class="tdleft padr">Chloride of Lime</td>
- <td class="tdleft padr">&#8199;1</td>
- <td class="tdleft">drachm.</td></tr>
-</table></div>
-
-<p class="pcontinue">The last one must only be used when it is desired to take away a tint, and if
-used too often, will be very likely to destroy the image altogether.</p>
-
-<p>During the printing from a collotype block, the number of impressions that
-may be pulled without redamping, will vary very much with each block.
-Sometimes as many as eight or ten may be pulled, but the average will not
-exceed two. As soon as there is a tendency to flatness, take a sponge containing
-a little of the damping fluid, and go over the film with it, then wipe it
-off <span class="xxpn" id="p174">{174}</span>
-with another sponge, or a piece of damp cloth (soft), then blot it off with a
-piece of good blotting paper, and ink up again. In fact, as a rule, it is best to
-damp for each print.</p>
-
-<p>Good printing paper must be used for collotype prints, and for very fine
-work a fine neat enamel paper will be best. Coarse hand-made papers, however
-much admired, must soon break up the delicate image.</p>
-
-<div class="figleft imwth06" id="fig22">
-<img src="images/i174.jpg" width="312" height="183" alt="" />
-<div class="caption">Fig. 22.</div>
-</div>
-
-<p>I will describe another drying oven, the heating
-arrangement of which is the same as the other, but the
-superstructure is much smaller. It will require more care
-during the time the coated plates are drying to keep the
-temperature down, but it has the advantage of allowing a
-thermometer being inserted in the lid in such a manner as to
-allow the temperature of the interior being seen at a glance.
-Still another advantage is, it takes up much less room. It
-measures inside 18 inches wide by 32 inches long, and 9
-inches deep to the top of the slab. The thickness of the
-slate slab and of the copper tank should be the same as in
-the larger oven; the lid at the top should be made solid and
-have an orifice in the centre through which the thermometer
-is pushed. The sides of the oven should be covered with one
-or two thicknesses of good red flannel.</p>
-
-<p>The only thing that calls for particular attention in these ovens is the copper
-tank, which should (especially the top) be made of good, stout sheet copper,
-otherwise the water on being heated has a tendency to make the copper bulge,
-and elevate the slab. By that means the care which should be taken in levelling
-the slab will be lost, as this elevation will put it all out. Before putting the
-superstructure in position, the slab must be cemented to the top of the copper
-tank by means of plaster-of-Paris; this is important, as a much more even
-heat is thus obtained.</p>
-
-<p>Now, whichever oven is decided upon, it must be erected in a room free from
-draught, where it can be kept at a temperature of 70°&nbsp;F., as the quality of the
-collotype plate is much influenced by the temperature of the room in which it
-is prepared. So, too, is the oven in which it is dried, especially if below 60°,
-for then it is very difficult to get good results, as the plate chills when taken
-from the oven, and the film is almost sure to prove rotten during the
-printing. <span class="xxpn" id="p175">{175}</span></p>
-
-<p>In the summer time, if the room gets too hot, the gelatine solution is apt to
-get frothy, and then dry hard and glossy, instead of with a nice half-mat
-surface. It is then best to prepare the plates only in the early morning.</p>
-
-<p>The temperature at which to dry the collotype plates will vary according to
-the subject to be printed upon them, as some subjects will require a finer grain
-than others. But a few intelligent experiments will soon enable the operator
-to judge of the temperature required; 75°&nbsp;F. is the lowest, and 120°&nbsp;F. the
-highest temperature giving good, bright blacks.</p>
-
-<p>One of the great secrets in collotype is to give a double coating to the plate.
-I find it really a great advantage so to do. I found this out quite by accident.
-One day, when I went to use some plates, I found that they had not been
-properly levelled, and that the coating was thin at one end, and thick at the
-other. This happened to three out of a batch of four, the other one being all
-right; so, in a fit of laziness, or hurry, or something, I decided on recoating
-the three, and did so. When I came to print from the three twice coated and
-the one once coated, I was agreeably surprised at the difference; the pictures
-on those twice coated were much more vigorous. Since then I have tried the
-experiment exactly, and always get the same uniformly excellent results. The
-second coating is applied as soon as the first is dry; but this second coat cannot
-be applied so well if the plate be held on the hand, therefore a levelling stand
-should be used, and the gelatine poured on the centre and coated over the
-surface by means of a glass rod.</p>
-
-<p>The proper quantity of gelatine solution requisite for a plate 16 by 13 inches
-is 2 ounces for each coat. Note well that all of it is left on the surface of the
-plate, not some on the table.</p>
-
-<p>When once the coated plates have been placed in the oven, and the lid is
-closed down, they must not be disturbed until they are dry; this will be in two
-or three hours, according to the thickness of the coating of gelatine. If
-removed before they are dry, there is danger of marking the film.</p>
-
-<p>After the second coating of gelatine is dried, the plate will be all the better
-if kept a few hours before being printed upon, care being taken to store it in
-the dark, or somewhere free from damp and gas fumes.</p>
-
-<p>By the bye, the oven must be placed in a room illuminated by yellow
-light—<i>i. e.</i>,
-daylight filtered through yellow glass, cloth, or paper; or else the room
-must be lighted by gas or oil light.</p>
-
-<p>The negative to be printed from should have all the parts that are
-intended <span class="xxpn" id="p176">{176}</span>
-to be quite white in the finished print, stopped out with India ink or Gihon’s
-opaque, and the limit of the picture should be masked by very thin tinfoil, cut
-quite straight and gummed upon the film side of the negative. The rest of the
-margin of the plate must be protected by a brown paper mask.</p>
-
-<p>The best printing frames for collotype printing are of the box (or “deep”)
-pattern, with plate glass fronts. They should be about two inches deep, and
-the bars behind quite plain—<i>i. e.</i>, without either screws or springs. The back
-board should also be dispensed with, the pressure being got by means of
-wedges. The advantage of these frames is that the picture can be examined
-without undoing the back, and without risk of shifting the plates.</p>
-
-<p>After printing, the plate should be placed in a zinc vessel like a plate box
-fitted with a siphon, so that the water can be kept constantly changed, until
-the bichromate is removed; then the plate is drained, and, after being wiped
-with a soft cloth, is put away to dry.</p>
-
-<p>Now then, beginners, do not be in a hurry to try your first plate on the
-press directly it is free from the bichromate, as no plate will give a good result
-until it has been dried down. Before putting it on the press, soak it for half
-an hour in water, then half an hour in glycerine and water in equal parts, and,
-finally, wipe it, and proceed to ink up the press.</p>
-
-<p>The safest plan is the one mentioned, viz., bedding up slate with plaster-of-Paris.
-Another plan is to place on the iron bed of the press a piece of thin
-felt, then a slab of glass, upon which are placed two thicknesses of wet blotting-paper;
-upon these place the collotype plate (the back of which is free from any
-gelatine that may have run over after coating); then, if a chase be placed on
-the press, the plate may be blocked in position by means of a few pieces of
-furniture tightened by means of quoins.</p>
-
-<p>In the above only glass slabs are treated of; but brass plates, about one-eighth
-of an inch thick, will be found safer, and more economical than glass,
-and yield results just as good. They may be fixed upon a block of hard wood
-by means of a screw (countersunk) at each corner. If an ordinary type press
-is not at hand, brass plates may be printed from upon a litho. press.</p>
-
-<p>Whether the plate will require damping each time will depend greatly upon
-each individual plate and the subject. With some, damping must be done
-each time; with others, once only for four, six, up to a dozen pulls; but, of
-course, the temperature of the room in which the printing is conducted will be
-an important factor in determining this point. When the print is flat, and the
-whites degraded, then damp the plate before again inking
-up. <span class="xxpn" id="p177">{177}</span></p>
-
-<p>To insure even prints, care must be taken to keep the roller well charged
-with ink. Much more could be written on this subject, but practice will be
-the best guide.</p>
-
-<p>A word as to bedding the glass slab on. With a properly prepared leather
-litho. roller, charged with ink mixed with a little olive oil and varnish,
-brought to a working consistency with a muller on a smooth slab (be sure
-that the ink on the roller is evenly distributed), after wiping the plate carefully
-with a soft, damp cloth, proceed to ink up the image slowly and carefully;
-then, when all the ink possible has adhered to the image, take the glue roller
-and apply it three or four times, which will clear the image wonderfully.
-Now put the mask in position—either a cut-out, or four narrow strips of bank-post
-coated with gold size and oil, and then dried—then put a piece of mat
-enamel paper in position, then a piece of common printing paper on top, then
-a piece of blanket; lower the tympan, run in the bed, and press, and, if the
-pressure is not too much, the prints will be just as good; but, if too much
-pressure be used, the paper will be creased and spoiled, and the collotype image
-is in danger of being cut.</p>
-
-<div class="chapter">
-<h3 class="nobreak" id="p178"
- title="Chapter V. The New Home Printing Process.">
-CHAPTER V. <span class="blksmaller">
-THE NEW HOME PRINTING PROCESS.</span></h3></div>
-
-<p>There is a method of making reproductions from photographs without any
-photographing process further than that required to supply the print. Any
-good photograph with a matt surface may be traced over with the ink supplied
-for the purpose by the inventor of the process, or with the ordinary lithographic
-autographic ink, which comes in sticks like India-ink, and then the
-superfluous portions faded away (or not) as directed on a preceding page. From
-that or from a crayon sketch, music, a written letter, plans, or circulars, in fact,
-from anything written with the proper ink with a pen or printed, reproductions
-may be made. The principal appliances
-needed are the “Universal Copying
-Machine” and its accessories.</p>
-
-<div class="figleft imwth07" id="fig23">
-<img src="images/i178.jpg" width="288" height="194" alt="" />
-<div class="caption">Fig. 23.</div>
-</div>
-
-<p>Where the results desired need not be of as high a grade
-as those made by the Collotype processes, or where there
-is not time to make a zinc etching, this method will serve
-a good purpose and produce satisfactory results. The zinc
-plates used for etching will serve to hold the transfers. The
-methods for cleaning the plates, already given, will serve
-here also. The machine should be securely fastened to a table
-and <i>the bearings must be kept well oiled</i>.</p>
-
-<p>Write, draw, or trace the original with a steel pen and the ink, on well
-calendered paper, not too thick. For drawing, a fine pen is the best. Then lay
-it, written side up, in a shallow dish, cover the paper with the transfer solution,
-leave it from four to five minutes. If the writing is several days old,
-leave it longer—about ten minutes. Lay it between blotting paper and dry
-gently by rubbing with the hand or a cloth. Then lay it, written side down,
-upon the polished plate, pass it from four to six times under the iron roller,
-having first placed a pasteboard over it. To prevent slipping, it is well to
-cover the original with a sheet of blotting paper before putting the
-pasteboard <span class="xxpn" id="p179">{179}</span>
-over it. If you are not sure your press is screwed up evenly, run the plate
-through two or three times, then turn it end for end and pass it through as
-many times the other way.</p>
-
-<div class="imctr01">
-<img src="images/i179fp.jpg" width="600" height="700" alt="" />
-</div>
-
-<p>Place upon the small distributing roller as much printer’s ink as will go
-upon the point of a knife, then holding the handle with the left hand, press it
-upon the inking roller, and turn the crank, moving the distributing roller
-from side to side, until the ink is evenly distributed.</p>
-
-<p>See that the rollers are an equal distance apart at each end, so as to print
-evenly. The original is now carefully removed.</p>
-
-<p>After washing the plate gently with a sponge and water and drying it, also
-gently, with a clean cloth, rub the whole printed or written side of the plate,
-by means of a cloth or sponge, with mixture No. 1, not pouring the mixture
-directly upon the writing, but upon an unprinted place upon the surface and
-rubbing over the whole plate. Wash off immediately with sponge and water,
-and dry gently; then pour about twenty drops of No. 2 upon the plate, not
-directly upon the print, and rub over the whole surface, so that there is a thin
-coating of it over the whole surface. This prevents the ink from sticking to
-the part of the plate not covered with writing or print. If there is too much,
-the paper of the copies will be yellow, and the negative may be injured.</p>
-
-<p>Now lay the plate upon the pasteboard and pass it under the inking roller
-(the pressure does not need to be strong); it falls before the iron roller; place
-a sheet of clean paper upon the negative, lay a pasteboard over it, and pass it
-under the roller. For the first impression it is well to pass it under several
-times, until the negative comes out clearly and distinctly. From time to time,
-after every ten or twelve impressions, apply No. 2; if the paper used for
-printing is very coarse or porous, it may be necessary to apply No. 2 oftener.</p>
-
-<p>As soon as the impressions become faint, apply a little more ink in the
-manner described. After applying fresh ink, apply No. 2. Only when too
-much ink is put on or unevenly distributed, or when the plate is not covered
-with the thin coating of No. 2, or not properly cleaned, can the negative or
-plate become soiled. If this should happen from any of these causes, remove
-the spots carefully by means of a cloth wet with preparation No. 2.</p>
-
-<p>If the ink hardens on the rollers remove it with lye or washing soda.</p>
-
-<p>If you wish to interrupt the work, the plate must be washed with a wet
-sponge, to remove the preparation, and then dried with a cloth. On using
-again, apply No. 2, as before. If the plate has not been used for several days,
-apply both No. 1 and No. 2. Do not use woollen cloths.</p>
-
-<p>The mixtures No. 1 and No. 2 are supplied with the
-press. <span class="xxpn" id="p180">{180}</span></p>
-
-<p>Thus it will be seen that photographs may be reproduced by many processes
-and in quantities to accommodate all sorts of demands. As an averment of
-what the future holds, our book is brought to a close by the following quotation
-from a recent issue of a daily newspaper:</p>
-
-<p>“Some time ago the <i>Evening Post</i> gave an account of a new process by which
-books were being reproduced in this country directly from photographic plates,
-and it was said that the field for such business would probably grow in proportion
-to the ease and certainty with which this kind of work could be done.
-Under this process the most important work issued so far has been seventeen
-volumes of the <i>Encyclopædia Britannica</i>, this production being sold at half
-the price asked for an American reprint already in the market, and at one-third
-of the price of the imported book. In order to make this reproduction, the
-sheets of the English volume are carefully photographed, and the glass negative
-placed over a thick sheet of specially prepared gelatine and exposed to the
-sun. Wherever the dark film upon the glass negative prevents the light from
-reaching the surface of the gelatine, this substance remains insoluble in water.
-Wherever the light penetrates, the gelatine undergoes a chemical change which
-makes it soluble. After an exposure to the sun or electric light for some
-minutes, the gelatine sheet is washed with water and the result is a plate in
-relief, every black line upon the glass negative being in high relief, and everything
-else washing away under the sponge.</p>
-
-<p>“Until the last few years, it had been very difficult to get this relief sufficient
-to print from, but by improvements in the process effected by a number
-of different inventors, this result has been obtained. The gelatine sheet having
-been hardened, an electrotype is made from it which is put into the printing
-press. Owing to chance, the gelatine sheet itself was used one day for printing
-from directly, and it was found that a larger number of good copies could be
-made from the gelatine direct than from the hardest electrotype. The only
-drawback to the use of the gelatine plate itself in the printing press is its
-liability to crack, for no reason that has as yet been discovered. If some
-way is found of making the gelatine plate durable, it would be used entirely
-in place of an electrotype, as it costs almost nothing and can be made quicker
-than an electrotype.”</p>
-
-<p>The way has been “found” and zinc etching is doing the work.</p>
-
-<p>Finally, the essays of John Burnet, “On the Education of the Eye,” “On
-Composition,” and “On Light and Shade,” copies of which are hard to get for
-$100, have recently been reproduced by one of the processes given in this book,
-full size, and is sold at $4.00. There is a great future ahead
-for all process work.</p>
-
-<ul class="chapter"><li>
-<h2 class="nobreak" title="Index." id="p181">INDEX.</h2>
-<ul id="ulindex">
-<li>Acid, lateral action of the, <a href="#p080" title="go to p. 80.">80</a></li>
-
-<li>Acids, on the use of, <a href="#p100" title="go to p. 100">100</a></li>
-
-<li>Actinometer, to make an, <a href="#p107" title="go to p. 107">107</a></li>
-
-<li>Air brush, grain with the, <a href="#p100" title="go to p. 100">100</a></li>
-
-<li>Albumen, coating the zinc plate with sensitive,
- <a href="#p041" title="go to p. 41">41</a>
-<ul>
-<li>― etching in half tone, <a href="#p069" title="go to p. 69">69</a></li>
-<li>― printing on the zinc in, <a href="#p045" title="go to p. 45">45</a></li></ul></li>
-
-<li>Albumenized zinc plate, inking the, <a href="#p046" title="go to p. 46">46</a></li>
-
-<li>Albumenizing the glass plate, <a href="#p021" title="go to p. 21">21</a></li>
-
-<li>Alcohol lamp, the, <a href="#p098" title="go to p. 98">98</a></li>
-
-<li>All sources, hints from, <a href="#p094" title="go to p. 94">94</a></li>
-
-<li>Apparatus etching, <a href="#p097" title="go to p. 97">97</a>
-<ul>
-<li>― for printing upon zinc, <a href="#p039" title="go to p. 39">39</a></li></ul></li>
-
-<li>Appliances for making negatives, <a href="#p009" title="go to p. 9">9</a></li>
-
-<li>As to the drawing, <a href="#p094" title="go to p. 94">94</a></li>
-
-<li>Austrian method, etching on, <a href="#p084" title="go to p. 84">84</a>
-<ul>
-<li>― middle etching, <a href="#p087" title="go to p. 87">87</a></li></ul></li>
-
-<li>Bath, the nitrate of silver, <a href="#p012" title="go to p. 12">12</a>, <a href="#p016" title="go to p. 16">16</a>, <a href="#p027" title="go to p. 27">27</a></li>
-
-<li>Beer, preliminary coating of, <a href="#p164" title="go to p. 164">164</a>, <a href="#p170" title="go to p. 170">170</a></li>
-
-<li>Bitumen, printing on zinc in, <a href="#p048" title="go to p. 48">48</a>
-<ul>
-<li>― etching in half tone, <a href="#p070" title="go to p. 70">70</a></li>
-<li>― image on zinc, developing the, <a href="#p050" title="go to p. 50">50</a></li>
-<li>― solution, to make the, <a href="#p048" title="go to p. 48">48</a></li></ul></li>
-
-<li>Black process, Colas’s, <a href="#p109" title="go to p. 109">109</a></li>
-
-<li>Blackening in with a sponge, <a href="#p078" title="go to p. 78">78</a></li>
-
-<li>Block, printing from the half tone, <a href="#p072" title="go to p. 72">72</a></li>
-
-<li>Board, the developing, <a href="#p141" title="go to p. 141">141</a></li>
-
-<li>Box, the best drying, <a href="#p099" title="go to p. 99">99</a></li>
-
-<li>Bridge, the calibre, <a href="#p093" title="go to p. 93">93</a></li>
-
-<li>Calibre-bridge, the, <a href="#p093" title="go to p. 93">93</a></li>
-
-<li>Camera, the enlarging, <a href="#p067" title="go to p. 67">67</a></li>
-
-<li>Carbon printing, <a href="#p106" title="go to p. 106">106</a>
-<ul>
-<li>― tissue for reproductions, <a href="#p032" title="go to p. 32">32</a></li></ul></li>
-
-<li>Chiseling illustrated, <a href="#p090" title="go to p. 90">90</a></li>
-
-<li>Clean etching, <a href="#p091" title="go to p. 91">91</a></li>
-
-<li>Clearing solution, the, <a href="#p018" title="go to p. 18">18</a>
-<ul>
-<li>― the glass, <a href="#p021" title="go to p. 21">21</a></li></ul></li>
-
-<li>Coating the zinc plate with sensitive albumen, <a href="#p041" title="go to p. 41">41</a></li>
-
-<li>Colas’s black process, <a href="#p109" title="go to p. 109">109</a></li>
-
-<li>Collodion process, the wet, <a href="#p011" title="go to p. 11">11</a>
-<ul>
-<li>― film, protecting the, <a href="#p020" title="go to p. 20">20</a></li>
-<li>― ― stripping, <a href="#p034" title="go to p. 34">34</a></li></ul></li>
-
-<li>Collotype process, the, <a href="#p163" title="go to p. 163">163</a>
-<ul>
-<li>― ― sensitizing solution for, <a href="#p164" title="go to p. 164">164</a></li>
-<li>― film, exposure at the back of the, <a href="#p166" title="go to p. 166">166</a></li>
-<li>― ― exposure of the, <a href="#p165" title="go to p. 165">165</a></li>
-<li>― operations, the, <a href="#p167" title="go to p. 167">167</a></li>
-<li>― plate, printing from the, <a href="#p171" title="go to p. 171">171</a></li>
-<li>― ― the finished, <a href="#p067" title="go to p. 67">67</a></li>
-<li>― process, drying oven for the, <a href="#p167" title="go to p. 167">167</a>, <a href="#p174" title="go to p. 174">174</a></li></ul></li>
-
-<li>Copper, mordants for, <a href="#p112" title="go to p. 112">112</a>
-<ul>
-<li>― photo-engraving on, <a href="#p119" title="go to p. 119">119</a></li>
-<li>― ― in line, <a href="#p119" title="go to p. 119">119</a></li>
-<li>― relief, mordants for, <a href="#p113" title="go to p. 113">113</a></li>
-<li>― solution, etching with sulphate of, <a href="#p103" title="go to p. 103">103</a></li></ul></li>
-
-<li>Damping fluids for collotype printing, <a href="#p173" title="go to p. 173">173</a></li>
-
-<li>Dark-room, the, <a href="#p025" title="go to p. 25">25</a></li>
-
-<li>Deep etching, <a href="#p089" title="go to p. 89">89</a></li>
-
-<li>Developer for wet plates, <a href="#p024" title="go to p. 24">24</a>
-<ul>
-<li>― for gelatine dry plates, <a href="#p030" title="go to p. 30">30</a></li></ul></li>
-
-<li>Developing the albumen image on the zinc plate, <a href="#p042" title="go to p. 42">42</a>
-<ul>
-<li>― the bitumen image on the zinc plate, <a href="#p050" title="go to p. 50">50</a></li>
-<li>― the paper transfer, <a href="#p138" title="go to p. 138">138</a></li></ul></li>
-
-<li>Developing-board, the, <a href="#p141" title="go to p. 141">141</a></li>
-
-<li>Difference in processes, the, <a href="#p117" title="go to p. 117">117</a></li>
-
-<li>Direct transfers to zinc, <a href="#p051" title="go to p. 51">51</a></li>
-
-<li>Drawing, transfer of the, <a href="#p083" title="go to p. 83">83</a>
-<ul>
-<li>― as to the, <a href="#p094" title="go to p. 94">94</a></li>
-<li>― treatment of the, <a href="#p073" title="go to p. 73">73</a></li></ul></li>
-
-<li>Drawings, Colas’s process for reproducing, <a href="#p109" title="go to p. 109">109</a>
-<ul>
-<li>― for photo-engraving, <a href="#p051" title="go to p. 51">51</a>, <a href="#p073" title="go to p. 73">73</a></li>
-<li>― the reversal of, <a href="#p096" title="go to p. 96">96</a></li></ul></li>
-
-<li>Dry plates in photo-engraving, <a href="#p029" title="go to p. 29">29</a></li>
-
-<li>Drying-box, the best, <a href="#p099" title="go to p. 99">99</a></li>
-
-<li>Drying oven for the collotype process, <a href="#p167" title="go to p. 167">167</a>, <a href="#p174" title="go to p. 174">174</a>
-<ul>
-<li>― the zinc plate, <a href="#p042" title="go to p. 42">42</a></li></ul></li>
-
-<li id="p182">Dusting-box, the,
-<a href="#p124" title="go to p. 124">124</a></li>
-
-<li>Dusting sieve, <a href="#p098" title="go to p. 98">98</a>
-<ul>
-<li>― the transfers, <a href="#p054" title="go to p. 54">54</a></li></ul></li>
-
-<li>Electrotype methods for half-tone intaglios, <a href="#p127" title="go to p. 127">127</a></li>
-
-<li>Engraving, photo-, in half tone, <a href="#p063" title="go to p. 63">63</a></li>
-
-<li>Enlarging camera, the, <a href="#p068" title="go to p. 68">68</a></li>
-
-<li>Etching apparatus, <a href="#p097" title="go to p. 97">97</a>
-<ul>
-<li>― clean, <a href="#p091" title="go to p. 91">91</a></li>
-<li>― cleaning the, with a scraper, <a href="#p088" title="go to p. 88">88</a></li>
-<li>― deep, <a href="#p089" title="go to p. 89">89</a></li>
-<li>― ― illustrated, <a href="#p090" title="go to p. 90">90</a></li>
-<li>― finishing and mounting the, <a href="#p092" title="go to p. 92">92</a></li>
-<li>― fluids for collotype prints, <a href="#p173" title="go to p. 173">173</a></li>
-<li>― galvanic process of, <a href="#p101" title="go to p. 101">101</a></li>
-<li>― in half-tone (albumen), <a href="#p069" title="go to p. 69">69</a></li>
-<li>― ― ― (bitumen), <a href="#p070" title="go to p. 70">70</a></li>
-<li>― in relief, high, <a href="#p104" title="go to p. 104">104</a></li>
-<li>― intermediate treatment, <a href="#p079" title="go to p. 79">79</a></li>
-<li>― line transfers, <a href="#p055" title="go to p. 55">55</a></li>
-<li>― manipulations of the process of, <a href="#p093" title="go to p. 93">93</a></li>
-<li>― middle, Austrian method, <a href="#p087" title="go to p. 87">87</a></li>
-<li>― ― and deep, illustrated, <a href="#p088" title="go to p. 88">88</a></li>
-<li>― mordants for, <a href="#p109" title="go to p. 109">109</a></li>
-<li>― ― for electric, <a href="#p113" title="go to p. 113">113</a></li>
-<li>― ― for relief, <a href="#p113" title="go to p. 113">113</a></li>
-<li>― ― for tint, <a href="#p113" title="go to p. 113">113</a></li>
-<li>― ― for zinc, <a href="#p115" title="go to p. 115">115</a></li>
-<li>― on copper, <a href="#p121" title="go to p. 121">121</a></li>
-<li>― order of the manipulations, <a href="#p086" title="go to p. 86">86</a></li>
-<li>― round, <a href="#p088" title="go to p. 88">88</a></li>
-<li>― the Austrian method, <a href="#p084" title="go to p. 84">84</a></li>
-<li>― ― illustrated, <a href="#p088" title="go to p. 88">88</a></li>
-<li>― the first zinc, <a href="#p057" title="go to p. 57">57</a></li>
-<li>― the French method of, <a href="#p076" title="go to p. 76">76</a>, <a href="#p080" title="go to p. 80">80</a></li>
-<li>― the second zinc, <a href="#p058" title="go to p. 58">58</a></li>
-<li>― with sulphate of copper solution, <a href="#p103" title="go to p. 103">103</a></li>
-<li>― zincographic, <a href="#p115" title="go to p. 115">115</a></li></ul></li>
-
-<li>Exposed zinc, inking the, <a href="#p044" title="go to p. 44">44</a></li>
-
-<li>Exposure and timing, <a href="#p043" title="go to p. 43">43</a>
-<ul>
-<li>― of the collotype film, <a href="#p166" title="go to p. 166">166</a></li>
-<li>― ― ― ― ― at the back, <a href="#p166" title="go to p. 166">166</a></li></ul></li>
-
-<li>Fading out the photograph, <a href="#p096" title="go to p. 96">96</a></li>
-
-<li>Faults in strengthening, <a href="#p078" title="go to p. 78">78</a></li>
-
-<li>Finishing and mounting the etching, <a href="#p092" title="go to p. 92">92</a></li>
-
-<li>Fixing, solution, the, <a href="#p018" title="go to p. 18">18</a></li>
-
-<li>Fluids, damping, for collotype printing, <a href="#p173" title="go to p. 173">173</a>
-<ul>
-<li>― etching, for collotype printing, <a href="#p173" title="go to p. 173">173</a></li></ul></li>
-
-<li>French method of etching, <a href="#p076" title="go to p. 76">76</a>, <a href="#p080" title="go to p. 80">80</a></li>
-
-<li>Further treatment of the transfers, <a href="#p016" title="go to p. 16">16</a></li>
-
-<li>Galvanic process for etching, <a href="#p102" title="go to p. 102">102</a></li>
-
-<li>Gelatine dry plates in photo-engraving, <a href="#p029" title="go to p. 29">29</a></li>
-
-<li>Gillotage (Gillot’s process), <a href="#p101" title="go to p. 101">101</a></li>
-
-<li>Glass, albumenizing the, <a href="#p022" title="go to p. 22">22</a>
-<ul>
-<li>― plate, the, <a href="#p021" title="go to p. 21">21</a></li>
-<li>― silvering the, for mirrors, <a href="#p036" title="go to p. 36">36</a></li></ul></li>
-
-<li>Grain on a negative, to produce, <a href="#p100" title="go to p. 100">100</a></li>
-
-<li>Grained negatives, making, <a href="#p065" title="go to p. 65">65</a>
-<ul><li>― ― transparencies for, <a href="#p066" title="go to p. 66">66</a></li></ul></li>
-
-<li>Graining the zinc plate, <a href="#p040" title="go to p. 40">40</a></li>
-
-<li>Half-tone photo-engraving, <a href="#p063" title="go to p. 63">63</a>
-<ul>
-<li>― ― etching in (albumen), <a href="#p069" title="go to p. 69">69</a></li>
-<li>― ― ― ― (bitumen), <a href="#p070" title="go to p. 70">70</a></li>
-<li>― ― block, printing from the, <a href="#p072" title="go to p. 72">72</a></li>
-<li>― ― intaglios, <a href="#p122" title="go to p. 122">122</a>, <a href="#p124" title="go to p. 124">124</a></li>
-<li>― photo-lithography in, <a href="#p143" title="go to p. 143">143</a></li></ul></li>
-
-<li>Heliotype process, the, <a href="#p152" title="go to p. 152">152</a>
-<ul>
-<li>― skin, the, <a href="#p160" title="go to p. 160">160</a></li>
-<li>― ― printing the, <a href="#p158" title="go to p. 158">158</a></li>
-<li>― ― mounting on pewter, <a href="#p159" title="go to p. 159">159</a></li></ul></li>
-
-<li>High etching in relief, <a href="#p104" title="go to p. 104">104</a>
-<ul>
-<li>― ― dusting-box for, <a href="#p124" title="go to p. 124">124</a></li>
-<li>― ― electrotype method for, <a href="#p127" title="go to p. 127">127</a></li></ul></li>
-
-<li>Hints from all sources, <a href="#p094" title="go to p. 94">94</a></li>
-
-<li>Husband’s papyrotint process, <a href="#p147" title="go to p. 147">147</a></li>
-
-<li>Ink for transfers, hard, <a href="#p055" title="go to p. 55">55</a></li>
-
-<li>Inking the exposed zinc, <a href="#p044" title="go to p. 44">44</a>
-<ul>
-<li>― transfers, <a href="#p054" title="go to p. 54">54</a></li></ul></li>
-
-<li>Ink-photos, <a href="#p144" title="go to p. 144">144</a></li>
-
-<li>Intaglios, half-tone, <a href="#p122" title="go to p. 122">122</a>, <a href="#p124" title="go to p. 124">124</a>
-<ul>
-<li>― dusting-box for, <a href="#p124" title="go to p. 124">124</a></li>
-<li>― electrotype methods for, <a href="#p127" title="go to p. 127">127</a></li></ul></li>
-
-<li>Intensifier, the, <a href="#p018" title="go to p. 18">18</a></li>
-
-<li>Lamp, the alcohol, <a href="#p099" title="go to p. 99">99</a></li>
-
-<li>Lateral action of the acid, <a href="#p080" title="go to p. 80">80</a></li>
-
-<li>Line, photo-engraving in, <a href="#p009" title="go to p. 9">9</a>
-<ul>
-<li>― ― on copper in, <a href="#p119" title="go to p. 119">119</a></li>
-<li>― photo-lithography in, <a href="#p128" title="go to p. 128">128</a></li></ul></li>
-
-<li>Line transfers, etching, <a href="#p056" title="go to p. 56">56</a>
-<ul>
-<li>― ― ink for, <a href="#p056" title="go to p. 56">56</a></li></ul></li>
-
-<li>Making grained negatives, <a href="#p065" title="go to p. 65">65</a></li>
-
-<li>Manipulations in etching, order of the, <a href="#p086" title="go to p. 86">86</a></li>
-
-<li>Manipulations of the etching process, <a href="#p093" title="go to p. 93">93</a></li>
-
-<li>Manipulations, photographic, <a href="#p024" title="go to p. 24">24</a></li>
-
-<li>Mask, the, <a href="#p156" title="go to p. 156">156</a></li>
-
-<li>Middle etching, Austrian method, <a href="#p087" title="go to p. 87">87</a>
-<ul>
-<li>― ― French method, <a href="#p080" title="go to p. 80">80</a></li></ul></li>
-
-<li>Mirror, the reversing, <a href="#p010" title="go to p. 10">10</a>, <a href="#p035" title="go to p. 35">35</a></li>
-
-<li>Mordants for copper, <a href="#p112" title="go to p. 112">112</a>
-<ul>
-<li>― for etching, <a href="#p109" title="go to p. 109">109</a></li></ul></li>
-
-<li>Mounting and finishing the etching, <a href="#p092" title="go to p. 92">92</a>
-<ul>
-<li>― the cliché, before, <a href="#p079" title="go to p. 79">79</a></li>
-<li>― the zinc etching, <a href="#p061" title="go to p. 61">61</a></li></ul></li>
-
-<li>Negative printing, <a href="#p096" title="go to p. 96">96</a>
-<ul>
-<li>― ― to produce grain on a, <a href="#p100" title="go to p. 100">100</a></li>
-<li>― transfer process, Toovey’s, <a href="#p139" title="go to p. 139">139</a></li>
-<li>― washing, <a href="#p019" title="go to p. 19">19</a>, <a href="#p028" title="go to p. 28">28</a></li></ul></li>
-
-<li>Negatives, appliances for making, <a href="#p009" title="go to p. 9">9</a>
-<ul>
-<li>― making grained, <a href="#p065" title="go to p. 65">65</a></li>
-<li>― screen for grained, <a href="#p065" title="go to p. 65">65</a></li>
-<li>― the reproduction of, <a href="#p031" title="go to p. 31">31</a></li>
-<li>― transparencies for grained, <a href="#p066" title="go to p. 66">66</a></li></ul></li>
-
-<li>Nitrate of silver bath, the, <a href="#p012" title="go to p. 12">12</a>, <a href="#p016" title="go to p. 16">16</a></li>
-
-<li>Oven for the collotype process, drying, <a href="#p167" title="go to p. 167">167</a>, <a href="#p174" title="go to p. 174">174</a>
-<ul>
-<li>― using the, <a href="#p168" title="go to p. 168">168</a></li></ul></li>
-
-<li>Paper transfers, <a href="#p132" title="go to p. 132">132</a>, <a href="#p136" title="go to p. 136">136</a>
-<ul>
-<li>― ― developing the, <a href="#p138" title="go to p. 138">138</a></li>
-<li>― ― ― ― sensitizing solution for, <a href="#p137" title="go to p. 137">137</a></li></ul></li>
-
-<li>Papyrotint process, Husband’s, <a href="#p147" title="go to p. 147">147</a></li>
-
-<li>Pewter plate, mounting on the, <a href="#p159" title="go to p. 159">159</a>
-<ul>
-<li>― ― the, <a href="#p156" title="go to p. 156">156</a></li></ul></li>
-
-<li>Photo-engraving, half tone, <a href="#p063" title="go to p. 63">63</a></li>
-
-<li>Photo-engraving in line, <a href="#p009" title="go to p. 9">9</a></li>
-
-<li>Photograph, fading out the, <a href="#p096" title="go to p. 96">96</a></li>
-
-<li>Photographic manipulations, <a href="#p024" title="go to p. 24">24</a>
-<ul>
-<li>― negatives, appliances for making, <a href="#p009" title="go to p. 9">9</a></li></ul></li>
-
-<li>Photo-inks, <a href="#p144" title="go to p. 144">144</a></li>
-
-<li>Photo-lithographic transfers, to develop, <a href="#p140" title="go to p. 140">140</a></li>
-
-<li>Photo-lithography in half-tone, <a href="#p143" title="go to p. 143">143</a>
-<ul>
-<li>― in line, <a href="#p129" title="go to p. 129">129</a></li></ul></li>
-
-<li>Plate, graining the zinc, <a href="#p040" title="go to p. 40">40</a>
-<ul>
-<li>― the glass, <a href="#p021" title="go to p. 21">21</a></li>
-<li>― the pewter, <a href="#p156" title="go to p. 156">156</a></li></ul></li>
-
-<li>Polishing the zinc, <a href="#p039" title="go to p. 39">39</a></li>
-
-<li>Pomatum wax, how to make, <a href="#p081" title="go to p. 81">81</a></li>
-
-<li>Positives for negative reproduction, <a href="#p031" title="go to p. 31">31</a></li>
-
-<li>Preparation of the rollers, <a href="#p154" title="go to p. 154">154</a></li>
-
-<li>Preparing the printing press, <a href="#p176" title="go to p. 176">176</a></li>
-
-<li>Printing, carbon, <a href="#p106" title="go to p. 106">106</a>
-<ul>
-<li>― collographic, <a href="#p172" title="go to p. 172">172</a></li>
-<li>― ― damping fluids for, <a href="#p173" title="go to p. 173">173</a></li>
-<li>― ― etching fluids for, <a href="#p173" title="go to p. 173">173</a></li></ul></li>
-
-<li>Printing frame, the, <a href="#p043" title="go to p. 43">43</a></li>
-
-<li>Printing from the collotype plate, <a href="#p171" title="go to p. 171">171</a>
-<ul>
-<li>― from the half-tone block, <a href="#p072" title="go to p. 72">72</a></li>
-<li>― press, preparing etchings for, <a href="#p102" title="go to p. 102">102</a></li>
-<li>― ― preparing the, <a href="#p176" title="go to p. 176">176</a></li>
-<li>― process, the new home, <a href="#p178" title="go to p. 178">178</a></li>
-<li>― the heliotype skin, <a href="#p160" title="go to p. 160">160</a></li>
-<li>― upon zinc, apparatus for, <a href="#p039" title="go to p. 39">39</a></li>
-<li>― ― ― in albumen, <a href="#p045" title="go to p. 45">45</a></li>
-<li>― ― ― in bitumen, <a href="#p048" title="go to p. 48">48</a></li></ul></li>
-
-<li>Processes, the difference in, <a href="#p117" title="go to p. 117">117</a></li>
-
-<li>Process, the collotype, <a href="#p163" title="go to p. 163">163</a>
-<ul>
-<li>― the heliotype, <a href="#p152" title="go to p. 152">152</a></li>
-<li>― the wet collodion, <a href="#p011" title="go to p. 11">11</a></li></ul></li>
-
-<li>Protecting the collodion film, <a href="#p020" title="go to p. 20">20</a></li>
-
-<li>Relief, high etching in, <a href="#p104" title="go to p. 104">104</a></li>
-
-<li>Reproduction of drawings, Colas’s process, <a href="#p109" title="go to p. 109">109</a></li>
-
-<li>Reproduction of negatives, the, <a href="#p031" title="go to p. 31">31</a>
-<ul>
-<li>― with carbon positive, <a href="#p032" title="go to p. 32">32</a></li></ul></li>
-
-<li>Retrospective, half-tone photo-engraving, <a href="#p063" title="go to p. 63">63</a></li>
-
-<li>Reversal of the drawings, <a href="#p096" title="go to p. 96">96</a></li>
-
-<li>Reversing mirror, the, <a href="#p010" title="go to p. 10">10</a>, <a href="#p035" title="go to p. 35">35</a></li>
-
-<li>Rollers, the, <a href="#p153" title="go to p. 153">153</a>
-<ul>
-<li>― preparation of the, <a href="#p154" title="go to p. 154">154</a></li></ul></li>
-
-<li>Room, the dark-, <a href="#p025" title="go to p. 25">25</a></li>
-
-<li>Round etching, <a href="#p090" title="go to p. 90">90</a></li>
-
-<li>Running of a workshop, <a href="#p104" title="go to p. 104">104</a></li>
-
-<li>Screen for grained negatives, the, <a href="#p065" title="go to p. 65">65</a></li>
-
-<li>Sensitometer, to make a, <a href="#p107" title="go to p. 107">107</a></li>
-
-<li>Sensitizing solution, a good, <a href="#p105" title="go to p. 105">105</a></li>
-
-<li>Sensitizing solution for paper transfers, <a href="#p132" title="go to p. 132">132</a>
-<ul>
-<li>― ― for the collotype process, <a href="#p165" title="go to p. 165">165</a></li></ul></li>
-
-<li>Sieve, dusting, <a href="#p098" title="go to p. 98">98</a></li>
-
-<li>Silver bath, the nitrate of, <a href="#p012" title="go to p. 12">12</a>, <a href="#p016" title="go to p. 16">16</a></li>
-
-<li>Silvering the glass (for mirrors), <a href="#p026" title="go to p. 26">26</a></li>
-
-<li>Skin, the heliotype, <a href="#p156" title="go to p. 156">156</a>
-<ul>
-<li>― mounting on pewter, <a href="#p159" title="go to p. 159">159</a></li>
-<li>― printing from the heliotype, <a href="#p160" title="go to p. 160">160</a></li>
-<li>― printing the heliotype, <a href="#p158" title="go to p. 158">158</a></li></ul></li>
-
-<li>Solution, clearing the, <a href="#p018" title="go to p. 18">18</a>
-<ul>
-<li>― developing the, <a href="#p017" title="go to p. 17">17</a></li>
-<li>― fixing the, <a href="#p018" title="go to p. 18">18</a></li>
-<li>― intensifying the, <a href="#p018" title="go to p. 18">18</a></li></ul></li>
-
-<li>Sources, hints from all, <a href="#p094" title="go to p. 94">94</a></li>
-
-<li>Stereotyping, zinc etching by, <a href="#p102" title="go to p. 102">102</a></li>
-
-<li>Strengthening, faults in, <a href="#p078" title="go to p. 78">78</a>
-<ul>
-<li>― French process, <a href="#p082" title="go to p. 82">82</a></li></ul></li>
-
-<li>Stripping collodion films, <a href="#p034" title="go to p. 34">34</a></li>
-
-<li>Sulphate of copper solution, etching with, <a href="#p103" title="go to p. 103">103</a></li>
-
-<li id="p184">Table, the washing, <a href="#p098" title="go to p. 98">98</a></li>
-
-<li>Timing and exposure, <a href="#p043" title="go to p. 43">43</a></li>
-
-<li>Toovey’s negative transfer process, <a href="#p139" title="go to p. 139">139</a></li>
-
-<li>Transfer process, Toovey’s negative, <a href="#p139" title="go to p. 139">139</a>
-<ul>
-<li>― and treatment of the drawing, <a href="#p073" title="go to p. 73">73</a></li>
-<li>― of the drawing, <a href="#p073" title="go to p. 73">73</a>, <a href="#p083" title="go to p. 83">83</a></li>
-<li>― paper, <a href="#p132" title="go to p. 132">132</a>, <a href="#p136" title="go to p. 136">136</a></li></ul></li>
-
-<li>Transfers, developing the, <a href="#p138" title="go to p. 138">138</a>
-<ul>
-<li>― dusting the, <a href="#p054" title="go to p. 54">54</a></li>
-<li>― etching line, <a href="#p055" title="go to p. 55">55</a></li>
-<li>― further treatment of the, <a href="#p076" title="go to p. 76">76</a></li>
-<li>― ink for line, <a href="#p056" title="go to p. 56">56</a></li>
-<li>― inking the, <a href="#p054" title="go to p. 54">54</a></li>
-<li>― photo-litho, <a href="#p140" title="go to p. 140">140</a></li>
-<li>― to develop, <a href="#p140" title="go to p. 140">140</a></li></ul></li>
-
-<li>Transfers to zinc, direct, <a href="#p051" title="go to p. 51">51</a></li>
-
-<li>Transparencies for grained negatives, <a href="#p066" title="go to p. 66">66</a></li>
-
-<li>Transparencies, how to make, <a href="#p030" title="go to p. 30">30</a></li>
-
-<li>Transparent positive, making the, <a href="#p120" title="go to p. 120">120</a>
-<ul>
-<li>― ― sensitizing the, <a href="#p137" title="go to p. 137">137</a></li></ul></li>
-
-<li>Treatment before mounting, <a href="#p078" title="go to p. 78">78</a></li>
-
-<li>Washing, Austrian process for, <a href="#p085" title="go to p. 85">85</a>
-<ul>
-<li>― French process for, <a href="#p083" title="go to p. 83">83</a></li></ul></li>
-
-<li>Washing table, the, <a href="#p098" title="go to p. 98">98</a>
-<ul>
-<li>― the negative, <a href="#p019" title="go to p. 19">19</a></li></ul></li>
-
-<li>Wax pomatum, how to make, <a href="#p081" title="go to p. 81">81</a></li>
-
-<li>Whirler, the, <a href="#p042" title="go to p. 42">42</a></li>
-
-<li>Work-shop, running of the, <a href="#p104" title="go to p. 104">104</a></li>
-
-<li>Wrinkles and dodges, <a href="#p105" title="go to p. 105">105</a></li>
-
-<li>Zinc, apparatus for printing upon, <a href="#p039" title="go to p. 39">39</a>
-<ul>
-<li>― ― direct transfers to, <a href="#p051" title="go to p. 51">51</a></li>
-<li>― etching the first, <a href="#p057" title="go to p. 57">57</a></li>
-<li>― ― by galvanic means, <a href="#p102" title="go to p. 102">102</a></li>
-<li>― ― by stereotyping, <a href="#p102" title="go to p. 102">102</a></li>
-<li>― ― mounting the, <a href="#p061" title="go to p. 61">61</a></li>
-<li>― ― the second, <a href="#p058" title="go to p. 58">58</a></li>
-<li>― ― the manipulations of, <a href="#p093" title="go to p. 93">93</a></li>
-<li>― in albumen, printing on the, <a href="#p045" title="go to p. 45">45</a></li>
-<li>― in bitumen, printing on the, <a href="#p048" title="go to p. 48">48</a></li>
-<li>― inking the exposed, <a href="#p044" title="go to p. 44">44</a></li>
-<li>― plate, developing the albumen image on the, <a href="#p047" title="go to p. 47">47</a></li>
-<li>― ― ― the bitumen image on the, <a href="#p050" title="go to p. 50">50</a></li>
-<li>― ― ― inking the, <a href="#p054" title="go to p. 54">54</a></li>
-<li>― ― graining the, <a href="#p040" title="go to p. 40">40</a></li>
-<li>― ― coating with sensitive albumen, <a href="#p041" title="go to p. 41">41</a></li>
-<li>― ― drying the, <a href="#p042" title="go to p. 42">42</a></li>
-<li>― ― whirling the, <a href="#p042" title="go to p. 42">42</a></li>
-<li>― ― inking the albumenized, <a href="#p046" title="go to p. 46">46</a></li>
-<li>― ― the, to coat with bitumen, <a href="#p049" title="go to p. 49">49</a></li>
-<li>― polishing the, <a href="#p039" title="go to p. 39">39</a></li>
-<li>― preparing on the press, <a href="#p102" title="go to p. 102">102</a></li></ul></li>
-
-<li>Zincographic etching, <a href="#p115" title="go to p. 115">115</a>
-<ul>
-<li>― printing press, the, <a href="#p062" title="go to p. 62">62</a></li></ul>
-</li></ul></li></ul><!--ul index-->
-
-<div class="imgpage">
-<h2 class="nobreak" title="Advertisements." id="p185">
-<span class="smmaj">ADVERTISEMENTS</span></h2>
-
-<div class="imctr01">
-<img src="images/i185.jpg" width="598" height="700"
-alt="[Advertisement:
-
-E. &amp; H. T. ANTHONY &amp; CO.
-
-No. 591 Broadway, New York.
-
-MANUFACTURERS AND IMPORTERS OF Photographic Instruments and Supplies
-
-SOLE PROPRIETORS OF THE SATCHEL DETECTIVE, SCHMID DETECTIVE, CLIMAX
-DETECTIVE, CAMERAS FAIRY, NOVEL, AND “THE PHANTOM CAMERA,” the Champion
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-" /></div>
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-<div class="imctr02">
-<img src="images/i186.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-Fred’k W. Devoe. James F. Drummond. J. Seaver Page.
-
-F. W. Devoe &amp; Co. Cor. Fulton and William Streets, New
-York.
-
-Manufacturers of ARTISTS’ MATERIALS, DRAWING INSTRUMENTS,
-FINE BRUSHES, READY MIXED PAINTS AND VARNISHES.
-
-Fine Dry Colors for Lithographers. White and Tinted
-Hand-made Papers, Ingres, Crayon and Torchon, Gelatine
-Paper, Magnifying and Diminishing Glasses, Grained Papers
-for Process Drawing, Crayons, India Ink, Roulettes, etc.,
-“Imperishable” Paste for Mounting Photographs.
-
-SUPPLIES FOR OIL PAINTING, WATER COLOR PAINTING, SKETCHING,
-PORCELAIN AND CHINA PAINTING, PASTEL PAINTING, MINIATURE
-PAINTING, CRAYON AND LEAD PENCIL DRAWING, ETCHING, CHROMO
-PHOTOGRAPHY, TAPESTRY PAINTING, TEXTILE DESIGNING, MODELING
-IN WAX AND CLAY, LUSTRE PAINTING, PEN AND INK DRAWING,
-REPOUSSÉ WORK, FRESCO AND SCENE PAINTING, MAKING WAX FLOWERS
-AND FRUIT, ETC. ETC.
-
-COFFIN, DEVOE &amp; CO., Chicago, Ill.
-
-F. W. DEVOE &amp; CO., Fulton St. cor. William, New York.
-
-Catalogues of our various departments to dealers, on
-application.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i187.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-THE Huber Rotary Zincographic Press.
-
-This press was designed and is now in successful operation
-for printing from zinc plates the kind of work hitherto
-produced from stone in the lithographic press; and by reason
-of its continuous rotation many more impressions per hour
-can be produced than by the stone method. Colors are printed
-by it in perfect register and with no loss of brilliancy or
-change of the color. The advantages of the use of zinc plates
-are fully set forth in our circular No. 1, “Zincography”
-which will be mailed to lithographers on receipt of their
-address.
-
-To purchasers of the zincographic press, we give full
-instructions in zincography, and the chemical nature of the
-various preparations, etc., without extra charge.
-
-Harris &amp; Jones, Sole Selling Agents, No. 31 Pearl Street,
-Providence, R. I.]
-
-[Advertisement:
-
-A. M. Collins Mfg. Co. No. 527 Arch Street PHILADELPHIA.
-
-Makers of all kinds of Cards required by Photographers.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i188.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-ALLEN BROTHERS, DETROIT, MICH., Are Sole Agents for this
-Continent, for The Best Lenses in the World As well as the
-Cheapest, THE SUTER LENS.
-
-Price Lists and Testimonials Sent on Application.
-
-A complete supply in stock of every requisite for
-PHOTOGRAPHY, PHOTO-ENGRAVING, PHOTO-ETCHING, and
-PHOTO-LITHOGRAPHY.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i189.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-CARBUTT’S DRY PLATES
-FOR ALL KINDS OF
-Photo-Mechanical Reproduction.
-
-STRIPPING PLATES for Photo-Gelatine Printing, Sensitometer 22, kept in
-stock, and made to order more or less sensitive when desired.
-
-STRIPPING PLATES, giving great contrast, for the Zinc-Etching Process,
-Sensitometer 14 to 16.
-
-PROCESS PLATE B, 14 to 16, capable of giving clear glass lines and great
-density in ground, for Photo-Engravers.
-
-FOR COPYING COLORS
-
-CARBUTT’S ORTHOCHROMATIC PLATES will be found the greatest improvement
-in Dry Plate making. They are kept in stock of Normal Sensitometer 22, but
-made to order more or less sensitive as may be required. They are used extensively
-by F. E. Ives, Philadelphia, and the Photo-Gravure Co., New York.
-
-“If I may venture the prediction, I think the history of photography for the next decade will
-be the history of orthochromatic work. Surely next to the production of the colors themselves,
-there is nothing to be desired so much as the rendering of the true values of these colors. I place
-the orthochromatic negative as the highest point yet attained in negative making, and as constituting
-the outcome to-day of that germ which was brought into being nearly one hundred years
-ago.”—Extract from Ernest Edwards’ article on “The Art of Making Photo-Gravures.”
-
-“With reference to the Orthochromatic Plates. The Photo-Gravure Co. is greatly pleased with
-its success in the use of your plates of this description. They enable us to obtain results which
-otherwise would be impossible, and to do work that otherwise we should have to decline, placing
-a great power in the hands of an intelligent operator....”—Ernest Edwards, for Photo-Gravure
-Co., Brooklyn, February 13, 1888.
-
-CARBUTT’S DRY PLATES can be obtained of all Dealers in Photo Materials,
-or direct from the
-KEYSTONE DRY PLATE WORKS,
-Wayne Junction,
-John Carbutt, Proprietor. PHILADELPHIA, PA.
-
-SEND FOR PRICE LIST]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i190.png" width="528" height="697"
-alt="
-[Advertisement:
-
-THE LATEST NOVELTY OUT.
-
-The New Magic Vignetter, (Illustration: Patented May 31st,
-1887.) For producing the Popular Black Background or Ebony
-Photographs.
-
-Endorsed and in use by the Leading Photographers of the
-United States.
-
-No more trouble or expense than making plain photographs.
-
-It is easily attached to any camera by fastening it on the
-inside of the diaphragm of the box (as shown in the cut).
-
-The opening can be adjusted to the proper size by simply
-turning the thumb-screw. Focus and expose as usual. Every one
-guaranteed.
-
-PRICE, EACH, $8.00.
-
-For sale by all dealers in Photographic Goods.
-
-Sample photographs of work done with it furnished on
-application to
-
-H. A. HYATT, Sole Agent, Dealer in Photo Supplies of Every
-Description. N. E. Cor. Eighth and Locust Streets, ST. LOUIS,
-MO.]
-
-[Advertisement:
-
-THE AIR BRUSH.
-
-(Illustration: Medals: American Institute 1884, Franklin
-Institute 1885, Franklin Institute 1887.)
-
-The Brush applies dilute liquid pigment by a jet of air. To
-photographers producing large work, its use is especially
-recommended in place of crayon, and for water colors.
-With equal skill on the part of the artist, the work is
-accomplished with far more elegance, and with wonderful
-saving of time. The Brush will be sent upon trial.
-
-The Air Brush has been found one of the most useful helpers
-in Process Engraving that has ever been discovered. See
-instructions given in this book.
-
-For full description, terms, and any particulars desired,
-address, AIR BRUSH MANUFACTURING CO.
-
-69 Nassau Street, ROCKFORD, ILL.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i191.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-VIOLET Lightning Flash Compound, (BRUTUM FULMEN.)
-
-Pictures Made in the Darkness.
-
-Do not waste DRY PLATES trying to make NEGATIVES AT NIGHT
-WITH CHEAP, FROUZY MIXTURES.
-
-Use the best. Sure Pop. No Animal Charcoal. No Chlorate of
-Potash. No Acid. VIOLET LIGHTNING FLASH, the most powerful
-light under the sun.
-
-Price, Per Bottle, 75 Cents.
-
-Write for particulars and catalogue of all Photographic
-Materials. BUCHANAN, BROMLEY &amp; CO., Manufacturers,
-PHILADELPHIA.]
-
-[Advertisement:
-
-THE GUNDLACH PHOTOGRAPHIC LENSES MANUFACTURED BY THE GUNDLACH
-OPTICAL CO., ROCHESTER, N. Y.
-
-ARE THE BEST IN THE WORLD FOR ALL KINDS OF Photo-Mechanical
-Work.
-
-Send for Descriptive Price List.
-
-For sale by dealers in Photo. Goods.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i192.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-THE UNIVERSAL COPYING MACHINE
-
-COPIES PRINT, WRITING, TYPE-WRITING, WOOD-CUTS, LITHOGRAPHS,
-CRAYON DRAWINGS, PRINTED OR WRITTEN MUSIC, ETC.
-
-The original is written with our copying ink or with our
-ribbon, and then, by a simple and sure process, transferred
-to a plate, from which any number of copies can be taken.
-Print is transferred to the plate without spoiling the
-original, and then copied like writing.
-
-A great number of copies can be made from one original. As
-printer’s ink is used, all impressions are alike clear and
-legible, and can be of any color desired.
-
-The negitive can be kept for years, or it can be removed in a
-minute, and the plate used over and over again.
-
-This process has been awarded medals at recent exhibitions in
-different European cities, and is patented in Great Britain,
-Germany, France, Belgium and the United States.
-
-It is simple, cleanly, not liable to get out of order; can be
-used in any climate, and is not affected by the weather.
-
-Its importance to men of business, teachers in day and Sunday
-schools, photographers, musicians, and others, is obvious.
-
-The samples sent out are printed by ourselves, and on the
-Universal Copying Machine.
-
-Price of machine with outfit, plate 9 × 13-1/2 inches,
-legal-cap size, $20.00. Price, with process to copy print,
-etc., $5.00 extra. Ribbons for different type-writers, $1.00
-each.
-
-Larger machines can be furnished, if desired; but this is a
-very convenient size.
-
-Samples of work sent free of charge.
-
-UNIVERSAL COPYING MACHINE CO., J. R. PALEN, Treasurer. No.
-1343 Arch Street, Philadelphia.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i193.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-THE FAVORITE Photo Supply House AT LOUISVILLE, KY. W. D.
-Gatchel, Agt.
-
-WE CARRY IN STOCK A VERY LARGE SUPPLY OF
-
-The Choicest Apparatus, Best Dry Plates, Pure Photo.
-Chemicals, Best Albumen Paper, Collins’ Card Stock, Picture
-Frames, and Mats.
-
-ALL OF WHICH ARE SOLD AT A REASONABLE PROFIT.
-
-Our trade is constantly growing, without noise or
-advertising. Our customers tell of their satisfaction to
-their friends, and that is how it is done. We have goods for
-all, and invite your orders.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i194.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-Boston Photogravure Company.
-
-27 Boylston St. Boston.
-
-Gelatine Printing (Phototype), Photo-engraving,
-Photo-lithography, Photographing on Wood.
-
-Our Phototypes can be seen in the finest Art Books ever
-issued in this country.
-
-Whoever uses Photographs in quantity can save a large per
-cent. by our Gelatine Printing.
-
-Permanent ink in any color on any kind of paper.
-
-REPRESENTED IN NEW YORK BY Brandon Moses, 52 Beaver St.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i195.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-WILSON-HOOD-CHEYNEY CO. LIMITED.
-
-JOHN G. HOOD, CHAIRMAN.
-
-WM. D. H. WILSON, TREASURER.
-
-JOS. P. CHEYNEY, SECRETARY.
-
-Sole U. S. Agts for the ROSS LENS
-
-Which has no equal for producing Negatives for
-Photo-Engraving, Etching, and Lithography.
-
-DEALERS IN PHOTO. SUPPLIES.
-
-No. 910 ARCH STREET, PHILADELPHIA.]
-
-[Advertisement: A. WILD,
-
-GENERAL AGENT FOR Prof. J. Husniks PHOTO-LITHOGRAPHIC
-TRANSFER PAPER
-
-134 SENECA ST BUFFALO N-Y.
-
-Send for Estimates and further Information
-
-THE BEST PROCESS IN THE WORLD FOR REPRODUCTIONS OF ALL KINDS
-OF LINE DRAWING, STEEL PRINTS AND LITHOGRAPHS. FURNISHES
-TRANSFER PRINTS TO LITHOGRAPHERS OF ALL CLASSES OF LINE WORK,
-ALSO FROM WASH DRAWINGS AND PHOTOGRAPHS AT THE LOWEST PRICES.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i196.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-FUCHS &amp; LANG NEW YORK AND CHICAGO.
-
-MANUFACTURERS OF ALL MATERIALS FOR THE ZINC ETCHING PROCESS.
-
-PRACTICAL INSTRUCTOR OF Photo-Engraving and Zinc Etching
-PROCESSES.
-
-COMPRISING A FULL EXPLANATION OF DRAWING, PHOTOGRAPHY,
-WASH-OUT, SWELLED-GELATINE, AND ZINC-ETCHING PROCESSES.
-
-BY ALEX. F. W. LESLIE.
-
-PUBLISHED BY FUCHS &amp; LANG, 29 Warren St., New York.
-79 Dearborn St., Chicago. Factory: 97–101 N. Third St.,
-Brooklyn, E. D., N. Y.
-
-SECOND ENLARGED AND REVISED EDITION.
-
-PRICE, $1.00.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i197.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-THE INLAND PRINTER IS THE UNIVERSALLY RECOGNIZED
-
-Leading Trade Journal in the Printing Industry.
-
-No. 183 MONROE STREET, CHICAGO.
-
-As an Advertising Medium to Reach the Trade it has no Equal.
-AS A TECHNICAL INSTRUCTIVE JOURNAL It is Indispensable alike
-to Employer and Employe.
-
-Containing each month from 30 to 40 pages of Reading Matter.
-
-Its Pages teem with Articles of Interest; It Advocates no
-Crotchets; Supports no Cliques; Is Fearless in Attacking
-Abuses, and Seeks the Greatest Good to the Greatest Number.
-
-Subscription, $2.00 per Year. Single Copy, 20 Cents.
-
-NO FREE SAMPLE COPIES SENT.
-
-To stimulate interest in the Best Printers’ Journal
-published, we make this offer: Any one sending us five yearly
-subscriptions, we will place his name on our subscription
-list for one year; to any one sending us ten yearly
-subscriptions, we will present a bound copy of either Vol.
-II., III., or IV., and pro rata.
-
-The Inland Printer Co., Publishers, Chicago.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i198.png" width="528" height="697"
-alt="
-[Advertisement:
-
-The Photo-Gravure Company
-
-No 853 Broadway New York
-
-SOME OPINIONS OF THE PRESS.
-
-New York Evening Post.
-
-“As a work of pure illustration it is unique.
-
-“Unequalled by any similar collection produced on this
-side of the Atlantic. For the Photo-Gravures not even this
-qualification need be made.
-
-“Several of these are gems of their kind, and will surprise
-even photographers who are not fully conversant with the
-recent advance in that branch of engraving, in which the
-Photo Gravure Co. stands unsurpassed now, when it is a
-question of dealing with negatives from nature.”
-
-Philadelphia Sunday-School Times.
-
-“The pictures like those of The Art Review, are the work
-of the Photo-Gravure Company, which has here produced a
-distinctly American art work unexcelled in the present
-season.”
-
-New York Mail and Express.
-
-“Reproduced by the Photo-Gravure Company in a most admirable
-manner. They are not to be described, however, for there is a
-charm about them, interfused in their soft lights and tender
-shadows, which evades words.”
-
-Philadelphia Times.
-
-“One of unusual beauty.
-
-“The execution of nearly all of them is admirable.”
-
-The Nation.
-
-“Our publishers have hardly begun to realize the resources
-which this process offers for the decoration of books, with a
-very slight enhancement of the cost.”
-
-New York Independent.
-
-“These illustrations are reproduced in deliciously soft tones
-by the Photo-Gravure Company, of New York.”
-
-The Evening Transcript, Boston.
-
-“A volume of unusual beauty.
-
-“Most of the illustrations are perfect gems.”
-
-The Public Ledger, Philadelphia.
-
-“The result is an art production by chemical and mechanical
-processes, that is in its way comparable to the best work
-of the engraver or etcher. It is something far beyond the
-ordinary work of the photographer, and may be considered the
-highest development of his art.”
-
-The New York Commercial.
-
-“Admirably reproduced by Photo-Gravure.”
-
-The Commercial Gazette.
-
-“Here again, the advance of the American engraver’s art is
-strikingly apparent.”
-
-The Literary World.
-
-“We wish always to be sparing in the use of superlatives,
-and guarded in the use of strong language, and to preserve
-carefully what reputation we have for a conservative and
-temperate judgment; but restraint is hard to bear in speaking
-out our minds about the work which, at the present writing,
-lies open on the editorial table.
-
-“The Photo-Gravures introduced here and there by way of
-border decorations are exquisite, and the occasional
-vignettes dropped upon the corner of a larger plate introduce
-a charming irregularity and variety.”
-
-The Susquehanna Evening Transcript.
-
-“The illustrations are the finest we ever saw in a newspaper
-supplement.”
-
-PHOTO-LITHOGRAPHIC AND PHOTO-MECHANICAL PRINTING OF EVERY
-DESCRIPTION.
-
-Catalogues of our Publications on application. Estimates of
-work cheerfully furnished and correspondence solicited.
-
-Portfolio of specimens, worth $10, containing examples of all
-our processes, forwarded on receipt of price, $1.00.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i199.png" width="528" height="697"
-alt="
-[Advertisement:
-
-GET THE BEST PHOTOGRAPHIC BOOKS.
-
-THE WHOLE ART IN TWO BOOKS.
-
-Wilson’s Quarter Century in Photography.
-
-THE LARGEST AND BEST PHOTOGRAPHIC INSTRUCTION BOOK EVER
-ISSUED.
-
-By EDWARD L. WILSON,
-
-Editor of the “Philadelphia Photographer,” Author of
-“Wilson’s Photographics,” etc.
-
-$4.00. “The best in the English language.”—Photographic News.
-$4.00.
-
-Chapter I. The History of Photography. II. The Theory of
-Photography. III. Light. IV. The Camera. V. About Lenses.
-VI. The Diaphragm, or Stop. VII. Glass-house Construction.
-VIII. Under the Skylight. IX. The Application of Art
-Principles. X. Outdoor Operations. XI. Exposure, or
-the Question of Time. XII. Concerning Chemicals. XIII.
-Dark-room Contrivances. XIV. Negative-making—“Wet.” XV.
-Negative-making—“Dry.” XVI. Negative-making—“Paper and
-Film.” XVII. Retouching and Doctoring the Negative. XVIII.
-Printing on Albumenized Paper. XIX. Printing—Drawbacks and
-Defects; Causes and Remedies. XX. Printing-room Particulars.
-XXI. Peculiar Printing Processess. XXII. Color-Sensitive
-Photography—Isochromatic—Orthochromatic. XXIII.
-Photo-engraving. XXIV. Lantern Slides and Transparencies.
-
-528 Pages—386 Illustrations. With a Complete, Classified
-Index.
-
-Quarter Century is equivalent to several volumes in one.
-It contains the best practical points on photography that
-have been published during the past 25 years, by over 250
-well-known workers and writers in our art, all arranged with
-great care—clipped of all superfluous matter—and condensed
-into a satisfactory, common-sense instruction book, the
-usefulness of which will never change or wear out.
-
-$4.00. Wilson’s Photographics. $4.00.
-
-By EDWARD L. WILSON,
-
-Editor of the “Philadelphia Photographer,” Author of
-“Wilson’s Quarter Century in Photography,” etc.
-
-Over 6000 copies sold. 1000 Testimonials. Every Artist needs
-it. Entirely different from Quarter Century.
-
-A. Treatment of the Subject. B and C. The Needful Apparatus.
-D. The Dark-room. E. Preparation of the Glass. F. Chemicals
-and Solutions. G. The Manipulations. H. Manipulatory
-Miseries. I. Retouching the Negative. J. The Glass Studio. K.
-Accessories and Light. L. Managing the Model. M. Printing on
-Albumen Paper. N. Printing on Plain Paper. O. General Remarks
-on Printing. P. Printing on Various Surfaces. Q. Printing
-Perplexities. R. Art in Printing. S. Mounting and Finishing.
-T. Photography Outside. U. Bromo-Gelatine Emulsion Work.
-V. Vogel’s Collodion Emulsion. W. Enlargements and Lantern
-Slides. X. Phototypes, Platinotypes, and Collodion Transfers.
-Y. Wastes and their Worth. Z. Metrical Measuring &amp;.
-Concluding Confab—Appendix. A full, careful Index.
-
-110 Illustrations. 2 full-page plates.
-
-Burnet’s Art Essays.
-
-A curiosity, as well as a valuable work. Three in one: Essay
-on the Education of the Eye; Essay on Light and Shade; Essay
-on Composition. About 140 illustrations, all reproduced by
-the Heliotype process, taught in this book. $4.00. Originals
-are scarce at $100.00.
-
-I also publish the oldest and best PHOTOGRAPHIC MAGAZINE
-twice a month. Every number accompanied by a full-page lovely
-photo study. Sample Copy Free. Every person, firm, and family
-interested in the beautiful should have it.
-
-“Should be scattered broadcast over the whole land.”—Abell
-&amp; Son, Oregon. “Is the boon companion of the country
-photographer.”—H. A. Cudding, New York. “Always contains
-something of benefit to the fraternity.”—C. P. McDannell,
-Pennsylvania. “Has come to me since 1864, and I will not do
-without it”—J. R. Schorb, South Carolina. “I have had it for
-nearly twenty years.”—C. E. Orr, Illinois. “Will continue
-to me as long as it is conducted in the present excellent
-manner.”—James S. Patterson, Tennessee.
-
-Subscribe Now. $5.00 a Year; $2.50 for Six Months; $1.25 for
-Three Months; 30 Cents per copy. $1.00 Premium in books for a
-new subscriber with your own. Circular Souvenir Free.
-
-EDWARD L. WILSON, 853 Broadway, New York.]
-" /></div>
-
-<div class="imctr02">
-<img src="images/i200.jpg" width="528" height="697"
-alt="
-[Advertisement:
-
-A. WITTEMANN, Publisher and Printer for the Trade of Souvenir
-Albums
-
-PHOTO VIEWS OF American Scenery, Cities, and Resorts.
-
-Nos. 58 and 60 Reade Street, NEW YORK.
-
-Correspondence with Photographers solicited.]
-
-[Advertisement:
-
-THE ALBERTYPE CO. Nos. 58 and 60 Reade Street, NEW YORK.
-
-Photo-Mechanical Printing
-
-ILLUSTRATIVE. DECORATIVE. COMMERCIAL.
-
-REPRODUCTION OF
-
-Scenery, Architecture, Interiors, Portraits, Works of Art,
-Designs, Engravings, Patterns, Machinery, Manufactures, and
-objects of all kinds.
-
-For Quickness, Accuracy, and Delicacy there is no superior to
-the Albertype Process.]
-" /></div>
-
-<div class="transnote">
-TRANSCRIBER'S NOTE
-
-<p>Original printed spelling and grammar are generally
-retained, with a few exceptions noted below. A few missing
-full stops were supplied silently. The original page numbers
-are shown like this: {97}. The original pagination is screwy.
-The Introduction is on pp. xv–xvi, and then the next page
-is numbered 9. There are no pp. 1–8. Illustrations have
-been moved from within paragraphs to between. Blank pages,
-numbered or not, have been removed. Footnotes, all six, have
-been moved from within paragraphs to between paragraphs.
-Ditto marks have been removed, with text restructured as
-necessary to retain the original meaning. Similarly, large
-curly brackets used to tie together information on more
-than one line of text have been removed. The original
-Index employed white space to indicate words or phrases
-to be regarded as repeated from the text line above. This
-edition employs instead the Unicode character U2015 <span
-class="smmaj">HORIZONTAL BAR</span> ―, one for each word to
-be repeated. The cover image was prepared by editing an image
-of the original cover, and is in the public domain.</p>
-
-<p>Page <a href="#p036" title="go to p. 36">36.</a> The
-left double quotation mark has no mate, but is retained as
-printed.</p>
-
-<p>Page <a href="#p073" title="go to p. 73">73.</a> The
-phrase “sheet of Bristol paper and are of pressing board” is
-retained as printed.</p>
-
-<p>Page <a href="#p084" title="go to p. 84">84.</a> The
-second <i>at</i> was removed from “strength of 2°&nbsp;Baumé at at
-a temperature”.</p>
-
-<p>Page <a href="#p103" title="go to p. 103">103.</a> Changed
-<i>zince</i> to <i>zinc</i>, in “take the zince plate”.</p>
-
-<p>Page <a href="#p134" title="go to p. 134">134.</a> Changed
-“throughly melted” to “thoroughly melted”.</p>
-
-<p>Page <a href="#p140" title="go to p. 140">140.</a> Changed
-“with a a glue roller” to “with a glue roller”.</p>
-
-<p>Page <a href="#p141" title="go to p. 141">141.</a> Changed
-“difcult to handle” to “difficult to handle”.</p>
-
-<p>Page <a href="#p182" title="go to p. 182">182,</a> entry
-<i>Exposure</i>. Changed “timeing” to “timing”. Likewise, on page
-<a href="#p184" title="go to p. 184">184,</a> the entry
-<i>Timeing</i> was changed to <i>Timing</i>.</p>
-
-</div>
-
-
-
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-<pre>
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