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+metadata, and any other content or labor, has been confirmed to be
+in the PUBLIC DOMAIN IN THE UNITED STATES.
+
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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #64068 (https://www.gutenberg.org/ebooks/64068)
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-The Project Gutenberg eBook of The platinum metals, by A. D. Lumb
-
-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
-will have to check the laws of the country where you are located before
-using this eBook.
-
-Title: The platinum metals
-
-Author: A. D. Lumb
-
-Release Date: December 22, 2020 [eBook #64068]
-
-Language: English
-
-Character set encoding: UTF-8
-
-Image source(s): https://archive.org/details/platinummetals00lumbrich
-
-Produced by: Richard Tonsing and the Online Distributed Proofreading Team
- at https://www.pgdp.net (This file was produced from images
- generously made available by The Internet Archive)
-
-*** START OF THE PROJECT GUTENBERG EBOOK THE PLATINUM METALS ***
-
-
-
-
- This ebook (originally published in 1920) was created in honour of
- Distributed Proofreaders 20th Anniversary.
-
-
-
-
- _IMPERIAL INSTITUTE_
- MONOGRAPHS ON MINERAL RESOURCES
- WITH SPECIAL REFERENCE TO THE
- BRITISH EMPIRE
-
-
- PREPARED UNDER THE DIRECTION OF THE
- MINERAL RESOURCES COMMITTEE WITH THE
- ASSISTANCE OF THE SCIENTIFIC AND TECHNICAL
- STAFF OF THE IMPERIAL INSTITUTE
-
-
-
-
- THE PLATINUM METALS
-
-
- BY
-
- A. D. LUMB, A.R.S.M., F.G.S., Assoc. Inst. M.M.
- LATELY OF THE SCIENTIFIC AND TECHNICAL DEPARTMENT, IMPERIAL INSTITUTE
-
- WITH A MAP
-
-[Illustration]
-
- LONDON
-
- JOHN MURRAY, ALBEMARLE STREET, W.
-
- 1920
-
-
-
-
- ALL RIGHTS RESERVED
-
-------------------------------------------------------------------------
-
-
-
-
- IMPERIAL INSTITUTE
- MINERAL SECTION
-
-
-The Imperial Institute is a centre for the exhibition and investigation
-of minerals with a view to their commercial development and for the
-supply of information respecting the sources, composition and value of
-minerals of all kinds.
-
-The Imperial Institute is provided with Research Laboratories for the
-investigation, analysis and assay of minerals, and undertakes reports on
-the composition and value of minerals, for the information of
-Governments and producing companies and firms, in communication with the
-principal users in the United Kingdom and elsewhere in the Empire.
-
-Important minerals from within the Empire are exhibited in the
-respective Courts of the Public Exhibition Galleries, and also in the
-Mineral Reference Collections of the Institute.
-
-A special staff is engaged in the collection, critical revision and
-arrangement of all important information respecting supplies of minerals
-especially within the Empire, new methods of usage and other commercial
-developments.
-
-Articles on these and related subjects are periodically published in the
-_Bulletin of the Imperial Institute_, and monographs on special subjects
-are separately published under the direction of the Committee on Mineral
-Resources.
-
-
-
-
- IMPERIAL INSTITUTE
-
-
- Advisory Committee on Mineral Resources
-
- The Right Hon. VISCOUNT HARCOURT, D.C.L. (_Chairman_).
-
- [A]Admiral SIR EDMOND SLADE, K.C.V.O., K.C.I.E. (nominated by the
- Admiralty), (_Vice-Chairman_).
-
- EDMUND G. DAVIS, Esq.
-
- [A]WYNDHAM R. DUNSTAN, Esq., C.M.G., LL.D., F.R.S., Director of the
- Imperial Institute.
-
- J. F. RONCA, Esq., M.B.E., A.R.C.S., Department of Industries and
- Manufactures (nominated by the Board of Trade).
-
- [A]Professor J. W. GREGORY, F.G.S., Professor of Geology, University
- of Glasgow, formerly Director of Geological Survey, Victoria,
- Australia.
-
- Sir ROBERT HADFIELD, Bart., F.R.S., Past-President Iron and Steel
- Institute.
-
- Captain A. L. ELSWORTHY, Intelligence Department, War Office
- (nominated by the War Office).
-
- W. W. MOYERS, Esq. (Messrs. A. Watson & Co.), Liverpool.
-
- R. ALLEN, Esq., M.A., B.Sc., Imperial Institute (_Secretary_).
-
-Footnote A:
-
- Members of Editorial Sub-Committee
-
-
- MINERAL SECTION
-
- Principal Members of Staff
-
-
- _Superintendent_
-
- R. ALLEN, M.A. (Cantab.), B.Sc. (Lond.), M.Inst.M.M.
-
-
- _Assistant Superintendent_
-
- S. J. JOHNSTONE, B.Sc. (Lond.), A.I.C.
-
-
- _Senior Assistants_
-
- G. M. DAVIES, M.Sc. (Lond.), F.G.S.
- W. O. R. WYNN, A.I.C.
-
- _Assistants_
-
- S. BANN.
- F. H. BELL.
- H. BENNETT, B.Sc. (Lond.).
- A. T. FAIRCLOTH.
- R. C. GROVES, M.Sc. (Birm.).
- E. HALSE, A.R.S.M., M.Inst.M.M.
-
-
-
-
- PREFACE
-
-
-The Mineral Resources Committee of the Imperial Institute has arranged
-for the issue of this series of Monographs on Mineral Resources in
-amplification and extension of those which have appeared in the
-_Bulletin of the Imperial Institute_ during the past fifteen years.
-
-The Monographs are prepared either by members of the Scientific and
-Technical Staff of the Imperial Institute, or by external contributors,
-to whom have been available the statistical and other special
-information relating to mineral resources collected and arranged at the
-Imperial Institute.
-
-The object of these Monographs is to give a general account of the
-occurrences and commercial utilisation of the more important minerals,
-particularly in the British Empire. No attempt has been made to give
-details of mining or metallurgical processes.
-
- HARCOURT,
- _Chairman Mineral Resources Committee_.
-
- IMPERIAL INSTITUTE, LONDON, S.W.7.
- _July 1920._
-
-
-
-
- CONTENTS
-
-
- CHAPTER I
-
- PAGE
- =THE PLATINUM METALS: THEIR OCCURRENCES, CHARACTERS AND USES.
- WORLD’S OUTPUT= 1
-
-
- CHAPTER II
-
- =SOURCES OF SUPPLY OF PLATINUM METALS=
-
- (_a_) BRITISH EMPIRE: 16
- _Europe_: United Kingdom.
- _Asia_: India (Burma).
- _Africa_: Rhodesia; Union of South Africa.
- _America_: Canada; Newfoundland.
- _Australasia_: Australia; New Zealand.
-
-
- CHAPTER III
-
- =SOURCES OF SUPPLY OF PLATINUM METALS=
-
- (_b_) FOREIGN COUNTRIES: 32
- _Europe_: France; Finland; Germany; Lapland; Russia; Spain.
- _Asia_: Armenia; Borneo; China; Japan; Sumatra.
- _Africa_: Congo Free State; Madagascar.
- _America_: Brazil; Colombia; Ecuador; Mexico; United States.
-
- WORLD MAP OF PLATINUM DEPOSITS 59
-
- REFERENCES TO LITERATURE ON THE PLATINUM GROUP 60
-
-
- NOTE.—_Numerals in square brackets in the text refer to the Bibliography
- at the end._
-
-
-
-
- THE PLATINUM METALS
-
-
-
-
- CHAPTER I
- PLATINUM METALS: THEIR OCCURRENCES, CHARACTERS AND USES
-
-
- INTRODUCTION
-
-The metals which comprise the Platinum group are the following:
-Platinum, Palladium, Iridium, Osmium, Ruthenium and Rhodium.
-
-Up to the year 1914 Russia produced over 90 per cent. of the world’s
-supply of platinum, the Republic of Colombia, South America, ranking
-next in importance with about 5 per cent. Owing, however, to the war and
-to the chaotic conditions brought about by the revolution, the output of
-Russia has considerably decreased, and although the Colombian production
-has been steadily increasing, the increased demand in connection with
-munition manufacture caused a somewhat serious shortage during the
-latter stages of the war, which was especially felt in the United
-States. As a result much exploratory work has recently been carried on
-in an endeavour to discover new deposits of importance; but up to the
-present, although several fresh occurrences have been brought to light,
-results have on the whole been disappointing.
-
-
- OCCURRENCES
-
-Platinum usually occurs in nature as native metal alloyed with one or
-more of its allied metals in the form of very fine grains more or less
-flattened; sometimes in the form of irregular nuggets; and occasionally,
-though rarely, in small cubic crystals. It is sometimes coated with a
-black layer of iron oxide, which may be magnetic, in which case it is
-not easily recognizable. When unrefined it is referred to as “crude”
-platinum.
-
-With the exception of a certain amount of the platinum metals, obtained
-from the refining of copper and gold bullion, particularly from the
-copper-nickel deposits of Sudbury, Ontario, about 99 per cent. of the
-whole supply is derived from alluvial deposits. Several occurrences of
-platinum _in situ_ are known, but so far few are of commercial
-importance: however, in view of the indications of exhaustion shown by
-some of the placer deposits, notably in Russia, the exploration of
-primary ores is now receiving more attention and practical results have
-already been achieved in Russia and in Spain.
-
-The mother rocks from which the deposits are derived, in the large
-majority of known cases, consist of basic and ultra-basic igneous rocks,
-including peridotites, pyroxenites and dunites. The two first are
-composed of iron magnesian silicates, pyroxene, augite and hornblende
-with olivine, chromite, ilmenite and magnetite: the dunites consist
-principally of olivine with some chromite. These rocks are often found
-to have undergone more or less alteration to serpentine. In addition,
-platinum has been found in quartz veins, notably at the Boss Mine,
-Nevada, and in a few known cases it has been derived from formations in
-schistose, or altered sedimentary rocks.
-
-When present in serpentine, platinum is usually disseminated through the
-rock in fine particles. It seldom occurs in a lode-formation. In
-sedimentary rocks it usually occurs in sandstones. In cases where
-alluvial deposits have been derived from the basic igneous rocks, the
-associated minerals are usually chromite, magnetite, ilmenite, iridium
-and osmiridium. In sedimentary deposits the metal is commonly associated
-with quartz, copper, nickel, silver and palladium.
-
-Platinum has been found in certain varieties of the copper ores
-tetrahedrite and bournonite. It has occasionally been located in shales
-and in coal, although not in recoverable quantities. In the latter case,
-in an Australian coal, it is associated with vanadium[1] p. 992.
-
-Several cases are known of platinum being present in meteorites, two
-well-authenticated instances having been reported from Mexico. Platinum
-has been shown to exist in meteoric iron from New South Wales.
-
-Crude platinum, as recovered, contains from 70 to 90 per cent. of the
-metal, and, as mentioned above, is really an alloy of platinum with one
-or more of the allied metals, the chief impurities consisting
-principally of iron and copper.
-
-The table on the next page gives the analyses of typical samples of
-crude platinum from the Urals, California, British Columbia, and other
-places.
-
-Platinum also occurs in combination with arsenic in the mineral
-_Sperrylite_ (PtAs_{2}), in the form of minute octahedral crystals. The
-colour of this mineral is tin white, its lustre is metallic and
-brilliant, its hardness varies from 6 to 7, and its specific gravity is
-10·6. The mineral is brittle and breaks with a conchoidal fracture. It
-is very rare, and is interesting as being the only mineral of platinum
-known besides the native metal. It occurs associated with sulphide
-minerals of magmatic origin in gabbros and diabases, notably in the
-nickeliferous pyrites of Sudbury, Canada, and in the copper ores of the
-Rambler Mine, Laramie, Wyoming.
-
-It is probable that the palladium, which is also found in these
-deposits, is similarly present in the form of an arsenide, but such a
-mineral has not yet been definitely proved to exist.
-
-The following is an analysis of a sample of sperrylite: platinum, 54·47
-per cent.; rhodium, 0·76 per cent.; palladium, trace; arsenic, 42·23 per
-cent.; antimony, 0·54 per cent.[2] p. 69.
-
-
- PROPERTIES OF THE PLATINUM METALS
-
-_Platinum._—The colour is white with a greyish tinge. When pure it is
-very malleable and ductile. Its coefficient of expansion is less than
-that of all other metals. Platinum fuses at about 1750° C., but the
-presence of impurities lowers the melting-point. Its specific gravity is
-21·5, and its hardness is from 4 to 5. Its electric conductivity is low,
-being 13·4 at 0° C.[3] p. 398.
-
-
- _Composition of Native Platinum and Osmiridium_
-
- ──────────┬─────┬─────┬─────┬─────┬─────┬─────┬─────┬──────┬──────────────────
- Locality. │ Pt. │ Fe. │ Pd. │ Rh. │ Ir. │ Os. │ Cu. │Os-Ir.│ Remarks.
- ──────────┼─────┼─────┼─────┼─────┼─────┼─────┼─────┼──────┼──────────────────
- _Platinum_│ Per │ Per │ Per │ Per │ Per │ Per │ Per │ Per │
- │cent.│cent.│cent.│cent.│cent.│cent.│cent.│cent. │
- Urals 1[B]│76·22│17·13│ 1·87│ 2·50│ tr. │ │ 0·36│ 0·50│Magnetic grs.
- Urals 2 │73·58│12·98│ 0·30│ 1·15│ 2·35│ tr. │ 5·20│ 2·30│Magnetic grs.
- Urals 3 │81·34│11·48│ 0·32│ 2·14│ 2·42│ tr. │ 1·13│ 0·57│Non-magnetic.
- Urals 4 │78·94│11·04│ 0·28│ 0·86│ 4·97│ │ 0·70│ 1·96│Non-magnetic.
- Urals 5 │86·50│ 8·32│ 1·10│ 1·15│ │ tr. │ 0·45│ 1·40│Non-magnetic.
- Borneo │82·60│10·67│ 0·30│ │ 0·66│ │ 0·13│ 3·80│Gold, 0·20 per
- │ │ │ │ │ │ │ │ │ cent.
- Brazil │72·62│ tr. │21·82│ │ 0·88│ │ │ │Sand, 0·42 per
- │ │ │ │ │ │ │ │ │ cent.
- Granite │68·19│ 7·87│ 8·26│ 3·10│ 1·21│ │ 3·09│ 14·62│Gangue, 1·69;
- Cr., │ │ │ │ │ │ │ │ │ non-magnetic.
- B.C. │ │ │ │ │ │ │ │ │
- Granite │78·43│ 9·78│ 0·09│ 1·70│ 1·04│ │ 3·89│ 3·77│Gangue, 1·27;
- Cr., │ │ │ │ │ │ │ │ │ magnetic.
- B.C. │ │ │ │ │ │ │ │ │
- Chocó, │86·20│ 7·80│ 0·50│ 1·40│ 0·85│ │ 0·60│ 0·85│Sand, 0·95.
- Col. │ │ │ │ │ │ │ │ │
- Chocó, │84·30│ 5·31│ 1·06│ 3·45│ 1·46│ 1·03│ 0·74│ │Gold, 1·0; sand,
- Col. │ │ │ │ │ │ │ │ │ 0·61.
- California│85·50│ 6·75│ 0·60│ 1·00│ 1·05│ │ 1·40│ 1·10│Gold, 0·8; sand,
- │ │ │ │ │ │ │ │ │ 2·95.
- California│79·85│ 4·45│ 1·95│ 0·65│ 4·20│ │ 0·75│ 4·95│Gold, 0·55; sand,
- │ │ │ │ │ │ │ │ │ 2·69.
- Oregon │51·45│ 4·30│ 0·15│ 0·65│ 0·40│ │ 2·15│ 37·30│Sand, 3; gold,
- │ │ │ │ │ │ │ │ │ 0·85.
- Fifield, │75·80│10·15│ tr. │ 1·30│ 1·30│ │ 0·41│ 9·30│Gold, nil; sand,
- N.S.W. │ │ │ │ │ │ │ │ │ 1·12.
- “Austra- │61·40│ 4·55│ 1·80│ 1·85│ 1·10│ │ 1·10│ 26·00│Gold, 1·2; sand,
- lia” │ │ │ │ │ │ │ │ │ 1·4.
- Currumbin,│26·12│27·17│ │ │ │ │ 2·51│ 40·02│Sand, 1·33.
- Q. │ │ │ │ │ │ │ │ │
- _Osmi- │ │ │ │ │ │ │ │ │
- ridium_ │ │ │ │ │ │ │ │ │
- Urals │10·08│ tr. │ tr. │ 1·51│55·24│27·23│ tr. │ │Ru, 5·85
- │ │ │ │ │ │ │ │ │ (_Nevyanskite_).
- Urals │ 0·14│ 0·63│ │ 1·65│43·94│48·85│ 0·11│ │Ru, 4·58
- │ │ │ │ │ │ │ │ │ (_Nevyanskite_).
- California│ │ │ │ 2·60│53·50│43·40│ │ │Ru, 0·50
- │ │ │ │ │ │ │ │ │ (_Nevyanskite_).
- “Austra- │ │ │ │ 3·04│58·13│33·46│ 0·15│ │Ru, 5·22
- lia” │ │ │ │ │ │ │ │ │ (_Nevyanskite_).
- Currumbin,│ 3·00│ │ │ │62·00│33·00│ │ │Sand, 2·00
- Q. │ │ │ │ │ │ │ │ │ (_Nevyanskite_).
- │ │ │ │ /\ │ │ │ │
- Tasmania │ 0·37│ 0·30│ 0·21│ 33·80 │57·09│ tr. │ │Ru, 8·19; Au, ·04
- │ │ │ │ │ │ │ │ (_Siserskite_).
- _Platin- │ │ │ │ │ │ │ │ │
- iridium_ │ │ │ │ │ │ │ │ │
- Condado, │55·44│ 4·14│ 1·49│ 6·86│27·79│ tr. │ 3·30│ │
- Brazil │ │ │ │ │ │ │ │ │
- _Native │ │ │ │ │ │ │ │ │
- Iridium_ │ │ │ │ │ │ │ │ │
- Urals │19·64│ │ 0·89│ │76·80│ │ 1·78│ │
- ──────────┴─────┴─────┴─────┴─────┴─────┴─────┴─────┴──────┴──────────────────
- Reference—Pt., platinum; Fe., iron; Pd., palladium; Rh., rhodium; Ir.,
- iridium; Os., osmium; Cu., copper; Os-Ir., osmiridium; Ru., ruthenium.
-
-Footnote B:
-
- Average percentage of Urals platinum is a little under 80.[4] p. 558.
-
-Platinum is not acted upon by either nitric, sulphuric or hydrochloric
-acid, but is soluble in aqua regia (1 part of nitric to 2 parts of
-hydrochloric acid), or in other mixtures liberating chlorine, with the
-formation of platinum tetrachloride (PtCl_{4}). It is not acted upon by
-air or moisture, even at high temperatures. It is corroded by caustic
-alkalis, sulphides, sulphates, phosphates and arsenides, if heated in
-contact with them. It will not amalgamate with mercury unless sodium is
-present, in this respect differing from gold and silver.
-
-Platinum, in a finely-divided condition, absorbs large quantities of
-hydrogen or other gases, which on occlusion become more active: hence
-its value as a catalytic agent.
-
-_Palladium._—This metal resembles platinum, but is sometimes fibrous,
-the colour being between that of platinum and of silver. It possesses a
-lower melting-point than platinum—about 1550° C. It is malleable, has a
-hardness of from 4·5 to 5, and a specific gravity of 11·5. As already
-stated, palladium, when found in copper ores, is probably present in
-combination with arsenic. _Porpezite_, a rare mineral, containing gold
-and up to 10 per cent. palladium, has been identified in gold-bearing
-veins in Brazil [see p. 54].
-
-Palladium is produced from the refining of copper matte and of base gold
-bullion from Australia and elsewhere.
-
-_Iridium_ is a brilliant white brittle metal, with a specific gravity of
-22·4, and hardness of 6 to 7. Its fusion point is very high—about 2200°
-C.—and under ordinary conditions it is not attacked by any acid. At
-1100° C. it begins to oxidize to a purple oxide. Iridium usually occurs
-either in crude platinum, or alloyed with osmium, as iridosmine, or as
-native metal. The bulk of iridium is derived from the platinum placer
-deposits of the Urals, but the Californian metal is more valuable, on
-account of its better quality. It is also obtained in small amounts from
-copper bullion.
-
-_Osmium_ is a hard and brittle metal, bluish-grey in colour. Its
-specific gravity is 22·5, and it has a very high melting-point, in this
-respect being the most refractory of the group.
-
-_Iridosmine_, or _Osmiridium_, an alloy of iridium and osmium, occurs as
-hexagonal crystals, or flattened grains of lighter colour than platinum.
-It may contain from 40 to 77 per cent. of iridium, and from 20 to 50 per
-cent. of osmium. If the iridium predominates, the alloy is called
-_Nevyanskite_, and _Siserskite_ if the osmium content is high. It is
-distinguishable from platinum by the brittleness of the flakes.
-Siserskite gives off a pungent odour, if strongly heated, caused by the
-volatilization of osmium. Iridosmine has a hardness of 6 to 7, and a
-specific gravity of 19 to 21.
-
-_Ruthenium_ is a white metal, with a specific gravity of 12·1. It is
-scarcely acted upon by aqua regia. Ruthenium occurs mainly in small
-amounts in iridosmine. It is also found in the copper ores of Sudbury
-and other places. _Laurite_ is a very rare sulphide of ruthenium
-(RuS_{2}), containing a small amount of osmium, which has only been
-recognized in the Borneo deposits.
-
-_Rhodium_ is a white metal resembling aluminium, with a specific gravity
-of 12·1, and a melting-point of about 2000° C. It is ductile and
-malleable at red heat. In addition to its occurrence in crude platinum,
-the metal is also contained in small quantities in the sperrylite found
-in the copper ores of Sudbury, Canada[5] p. 779.
-
-_Colloidal Platinum._—This has only recently been detected in ores, and
-therefore its occurrence might not be detected qualitatively. By
-destroying its colloidal condition, however, its presence can be
-discovered in the ordinary ways[4].
-
-
- METALLURGICAL TREATMENT
-
-Crude platinum can be refined either by dry or by wet methods, the
-following being brief outlines of the two processes:
-
-By the wet method, the crude platinum is dissolved in aqua regia, with
-excess of hydrochloric acid. Evaporation is continued until the whole of
-the nitric acid is expelled. By addition of a solution of ammonium
-chloride, the platinum is then precipitated as ammonium
-platini-chloride. This precipitate is heated to redness, when chlorine
-and ammonium chloride are given off, and spongy platinum remains. The
-last is next granulated, after fusion by the oxy-hydrogen blowpipe in a
-small lime furnace. Platinum obtained by this method may contain small
-amounts of iridium, rhodium and palladium.
-
-In the dry method, introduced by Delville and Debray, the crude platinum
-is smelted with galena in a small reverberatory furnace. A portion of
-the lead is reduced to the metallic state by the iron in the charge, and
-forms a fusible alloy with the platinum. The osmiridium present settles
-to the bottom of the furnace, and may thus be removed. Litharge is then
-thrown in to form more alloy, and some glass to act as a flux. The alloy
-is cupelled, and the residual platinum is then melted in a lime furnace
-with the oxy-hydrogen flame. The platinum thus obtained often contains
-iridium and rhodium.
-
-A combination of these two methods is also sometimes employed[3] p. 403.
-
-The electrolytic process of gold-refining was introduced to treat
-platiniferous gold. In the gold chloride, or Wohlwill method, iridium
-and osmiridium are insoluble, and remain with the anode slime. Platinum
-and palladium, if nearly pure, are also insoluble, but when present
-alloyed with gold and silver, pass into the solution and remain there.
-In a hot bath it is stated that the platinum present should not exceed
-50 gm. per litre. According to T. K. Rose, a cold bath containing only
-20 gm. per litre causes a certain quantity of platinum to be deposited
-with the gold[6].
-
-H. F. Keller, in “Platinum, the Most Precious of Metals” (_Journal of
-the Franklin Institute_, November 1912) deals fully with the extraction
-and refining of platinum.
-
-
- PLATINUM-REFINING AGENCIES
-
-The following contains a list of the principal firms engaged in the
-refining of platinum metals:
-
-
-In England: Johnson, Matthey & Co., Ltd., Lees & Sanders, Warstone
-Smelting Works, Sheffield Smelting Works, Johnson & Sons. (This is the
-list of the Ministry of Munitions.)
-
-In France: Legende et Cie., Compagnie Internationale du Platine, Lyon
-Allemand, Lecht Lyonnais, Henrique Marrett, Bonnen, Hesse Fils.
-
-In Germany: W. C. Heraeus, G. Siebert, F. Eisennad & Co.
-
-In the United States: Baker & Co., American Platinum Works (N.T.),
-Irvington Smelting and Refining Works, J. Bishop & Co., H. A. Wilson &
-Co., Belais & Cohn, Kastenhuber & Lehrfeld, Roessler & Hasslacher
-Chemical Co., Wildberg Bros., and others handling scrap.
-
-According to Russian information about 25 per cent. of the Russian
-output before the war was refined in Germany. In Russia there are
-practically no platinum-refining facilities[7].
-
-
- THE USES OF PLATINUM AND ITS ALLIES
-
-_Platinum._—In the chemical industry platinum is largely used for
-catalyzers in the manufacture of sulphuric, acetic and nitric acids; for
-stills for the final concentration of sulphuric acid; and in the
-electro-chemical industry.
-
-In the making of “contact” sulphuric acid a “contact mass” is charged
-into the chambers of the plant. This is formed by soaking asbestos, or
-anhydrous magnesium sulphate, with platinic chloride solution, and
-baking the mass to drive off the chlorine. The contact mass usually
-contains from 7 to 8 per cent. platinum, in a very finely-divided state.
-In the making of acetic acid from a mixture of air and alcohol vapour,
-platinized asbestos is used. For the catalyzer used in the conversion of
-ammonia into nitric acid a very fine-meshed platinum gauze is used; this
-is strengthened at its edges with platinum-iridium wire. One ounce of
-platinum is required for the production per annum of 25 tons of
-catalytic acid, or of 40 tons of nitric acid from ammonia.
-
-In the finely-divided state all the other metals of the platinum group,
-especially palladium, have also the facility of absorbing great
-quantities of certain gases, and can be used as catalysts.
-
-Owing to its high melting-point, and to the resistance to the action of
-acids at high temperatures, platinum is largely used for chemical ware
-in the form of crucibles, dishes, etc. Platinum crucibles are
-indispensable in the chemical analysis of rocks.
-
-In the electrical industry platinum is largely used for contact points,
-in telegraph and telephone apparatus, in magneto-contacts, and in the
-construction of the thermo-couples of pyrometers. In the manufacture of
-jewellery, especially in the crown-setting of diamonds, platinum has
-been much used in the place of gold: alloyed with a little iridium it
-can be worked into delicate designs, which are durable. During the war,
-however, when platinum was largely wanted in the making of munitions,
-its use in jewellery manufacture was much restricted. Platinum was
-formerly largely used in dentistry. In photography potassium
-platino-chloride is required for producing platinotype prints. In the
-form of barium platino-cyanide it is used in X-ray photography as a
-coating for the projecting screen.
-
-Platinum is required in the manufacture of certain parts of
-chronometers, theodolites and watches; also for standard weights and
-measures, and for various types of self-lighting lamps[4] p. 561.
-
-_Palladium_ has its chief value as a substitute for platinum, in
-palladium-gold alloys, which are used extensively in dentistry, for
-jewellery and for chemical ware. It is also utilized in the manufacture
-of astronomical instruments and watches, also for plating metal ware[1]
-p. 1002. The use of palladium as a catalyzer is well known.
-
-_Iridium_, when pure, is of small value, being difficult to manipulate
-on account of its brittleness. It is principally used in alloy with
-platinum for hardening purposes. Jewellers’ platinum usually contains 10
-per cent. iridium, and in the electrical industry an alloy composed of
-from 15 to 50 per cent. iridium is usually employed. Alloys with up to
-10 per cent. of iridium are ductile and malleable, but with over that
-amount are hard and difficult to work.
-
-The metal is used in the manufacture of fountain-pen points, for which
-purpose the grains require careful selecting[8] p. 106; also for
-standard weights and for contact points. Iridium black, an oxide, is of
-value as a pigment for chinaware[1] p. 1001.
-
-Iridium is suitable for sharp surgical instruments, and gold needles
-with soldered iridium ends are employed for stitching wounds. It is also
-used in photography. Iridium is of greater scarcity than platinum, hence
-its greater value.
-
-_Osmium._—There is now little or no market for osmium. It was formerly
-in considerable use for the manufacture of incandescent lamps. Osmic
-acid is used for staining anatomical preparations in microscopic work.
-On account of the poisonous nature of its vapour the extraction of
-osmium is costly and dangerous.
-
-_Ruthenium_ is also of little or no commercial value. Both these metals
-possess the disadvantages of being brittle and easily oxidized.
-
-_Rhodium_ is of small commercial use. It is used principally in alloy
-with platinum. An alloy containing 10 per cent. rhodium is used for some
-thermo-couples of pyrometers, and in the making of laboratory utensils.
-
-_Platinum Alloys._—Platinum forms alloys with a number of metals, but
-only a few are of industrial importance[3] p. 400. Platinum and iridium
-form a hard and elastic alloy, which is unaffected by air, and takes a
-high polish. Alloyed with 10 per cent. iridium platinum is used for one
-of the wires in thermo-couples of pyrometers; and with 10 to 20 per
-cent. iridium for making standard measures of length and weight.
-
-Platinum and copper form various alloys. An alloy with 18·75 per cent.
-copper, called “coopers’ gold,” takes a high polish and closely
-resembles 18–carat gold.
-
-An alloy of platinum and silver containing 66 per cent. silver is used
-as a standard of electrical resistance. An alloy containing 20 to 30 per
-cent. silver is used in dentistry.
-
-Platinum alloys with lead, zinc and other metals at low temperatures; it
-is usually recovered from these alloys by cupellation.
-
-Platinum alloys with steel in all proportions. With 10 per cent.
-platinum, rusting is prevented. A very elastic metal is produced by
-alloying platinum with from 5 to 10 per cent. gold.
-
-The melting-point of silver is raised by alloying it with platinum, but
-its thermal conductivity is lowered.
-
-
- The following table gives the composition of the principal platinum and
- palladium alloys[4] p. 561:
-
- ───────────────────┬──────┬──────┬──────┬──────┬──────┬──────┬─────────────
- │ Pt. │ Cu. │ Ag. │ Au. │ Ni. │ Pd. │ Other
- │ │ │ │ │ │ │Constituents.
- ───────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼─────────────
- │Parts.│Parts.│Parts.│Parts.│Parts.│Parts.│ Parts.
- Jewellery alloys: │ │ │ │ │ │ │
- Platinum alloy │ 1│ 0–1│ 2–5│ │ │ │
- Platinor │ 2│ 5│ 1│ │ 1│ │Brass 2.
- Palladium alloy │ │ │ │ │ │ 9│Rhodium 1.
- Mock gold │ 7│ 16│ │ │ │ │Zinc 1.
- Mock gold │ 1│ │ 1│ │ 6│ │Brass 1.
- Mock gold │ 1│ 4│ │ │ │ │
- Coopers’ pen metal:│ 4│ 1│ 3│ │ │ │
- Watch alloy │ │ 13│ 11│ 18│ │ 6│
- Watch alloy │ │ 25│ 4│ │ 1│ 70│
- Watch alloy │ 63│ 18│ │ │ 17│ │Cadmium 1.
- Platinum bronze │ 1│ │ │ │ 90│ │Tin 9.
- Dentists’ alloy │ 5│ │ │ 3│ │ 4│
- Dentists’ alloy │ 7│ │ 3│ 2│ │ │
- Dentists’ alloy │ 6│ │ 1│ 2│ │ │
- Dentists’ alloy │ │ │ │ 4│ │ 1│
- Palladium alloy │ │ │ 2│ │ │ 3│
- ───────────────────┴──────┴──────┴──────┴──────┴──────┴──────┴─────────────
-
-
- ALLOY SUBSTITUTES FOR PLATINUM
-
-On account of the scarcity and high price of the platinum metals, much
-attention has lately been directed towards the discovery of suitable
-substitutes.
-
-In the electrical industry an alloy of 3 parts of palladium and 2 parts
-of silver is in use, also an alloy of nickel and chromium. _Platinite_,
-an iron-nickel alloy, containing 46 per cent. nickel and 0·15 per cent.
-carbon, has the same coefficient of expansion as glass, and, when coated
-with copper, is used to replace the platinum connection wires of
-incandescent lamps. Tungsten is sometimes used for certain ignition
-devices. For cathodes an alloy of 90 per cent. gold and 10 per cent.
-copper can be used to replace platinum; the same alloy, if electrically
-coated with platinum, and then carefully polished and burnished, is
-suitable for platinum anodes.
-
-For platinum chemical laboratory ware, there are several substitutes,
-such as fused quartz; various iron, chromium, and nickel-chromium
-alloys; _palau_, a gold-iridium alloy marketed in California;
-_rhotanum_, a general name for gold-palladium alloys containing from 60
-to 90 per cent. of gold, which are suitable for most chemical purposes,
-except for use with hot concentrated nitric acid, and for electrolytic
-anodes; _amaloy_, which is a complex alloy containing nickel, chromium,
-tungsten, etc., highly resistant to corrosion and to cold nitric and
-sulphuric acids[9] p. 600.
-
-In the jewellery trade platinum has been replaced by an alloy of 90 per
-cent. palladium and 10 per cent. rhodium. For certain surgical work
-various _stellite_ alloys, containing cobalt and chromium, and hardened
-by the addition of tungsten and molybdenum, are valuable substitutes for
-platinum, and are not affected by antiseptic solutions. In dental work
-pins are now made of tungsten coated with palladium[10] p. 549. For most
-technical purposes an alloy of tungsten and nickel with gold or silver
-is used in Germany; it may be cast, rolled or forged, is acid-resisting,
-and capable of taking a high polish[11]. _White gold_, another
-substitute for platinum, contains fine gold, from 75 to 85 per cent.;
-pure nickel, from 10 to 18 per cent.; and zinc, from 2 to 9 per cent.
-_Illium_, a chromium-nickel-copper alloy reported recently as the
-discovery of S. W. Parr, of Illinois, is a substitute for gold or
-platinum, costing only 25 cents per ounce. It is stated to have been a
-“50 per cent. standard of success.” The alloy withstands hot or cold,
-strong or diluted acid, can be both cast and machined, and is already
-used largely in the manufacture of calorimeter bombs[12].
-
-The results of researches made to discover substitutes for platinum, and
-undertaken by the National Dental Association of America, are described
-at length by F. A. Fahrenwald, in a paper read in January 1916 before
-the American Institute of Mining Engineers.
-
-
- SCRAP PLATINUM
-
-A considerable amount of platinum in the form of old and worn articles
-is now collected for return to the refineries, where it is re-treated,
-and sold again as new metal. The trade in scrap platinum has been
-particularly active in the United States, official statistics showing
-that in 1916, 49,400 oz. of refined platinum were recovered.
-
-
- WORLD’S OUTPUT OF PLATINUM
-
-According to J. L. Howe, the estimated limits of the total
-world-production of crude platinum, up to January 1917, were as
-follows[13]:
-
-
- _In oz._ (_troy_)
- Minimum. Maximum.
- Russia 7,115,482 10,128,308
- Colombia 700,000 735,000
- Borneo 175,000 200,000
- United States 10,000 12,000
- Canada 9,000 10,000
- Miscellaneous 9,000 10,000
- ————————— ——————————
- Total 8,018,482 11,095,308
- ========= ==========
-
-On the other hand, James M. Hill[14] states that possibly 5,000,000 oz.
-was the total world’s production to June 1917, which he distributes
-according to the uses made of it as follows:
-
-
- Oz.
- Chemical and physical apparatus 1,000,000
- Electrical devices 250,000
- Catalyzing 500,000
- Dental uses 1,000,000
- Jewellery 1,000,000
- Minor uses and hoarded (balance) 1,250,000
-
-It is difficult to obtain exact figures of the annual production of
-crude platinum. This is particularly so in the case of Russia, where
-there appears to have been a tendency for private enterprises to keep
-their published outputs as low as possible, in order to avoid
-registration. The discrepancy between the official and actual figures of
-production in Russia is variously estimated at from 20 to 60 per cent.
-
-The table on the next page is compiled from the sources considered most
-reliable.
-
-
- _World’s Production of Crude Platinum_
-
- (In troy oz.)
-
- ─────────────────────┬───────┬───────┬───────┬───────┬───────
- │ 1910. │ 1911. │ 1912. │ 1913. │ 1914.
- ─────────────────────┼───────┼───────┼───────┼───────┼───────
- Borneo and Sumatra[C]│ │ │ 200│ 200│ [D]
- Burma[E] │ │ 38│ 57│ 58│ 37
- Canada[F] │ │ │ │ │ 18
- Colombia[G] │ 10,000│ 12,000│ 12,000│ 15,000│ 17,500
- Madagascar[H] │ 13│ 3│ │ │
- New South Wales[I] │ 332│ 470│ 610│ 442│ 244
- Russia[J] │176,334│187,008│177,596│157,735│157,182
- United States[C] │ 390│ 628│ 721│ 483│ 570
- Victoria[L] │ │ 184│ │ 127│
- ─────────────────────┴───────┴───────┴───────┴───────┴───────
-
- ─────────────────────┬───────┬───────┬─────────┬──────
- │ 1915. │ 1916. │ 1917. │1918.
- ─────────────────────┼───────┼───────┼─────────┼──────
- Borneo and Sumatra[C]│ [D]│ [D]│ [D]│
- Burma[E] │ 18│ 9│ 4│
- Canada[F] │ 23│ 15│ 57│ 39
- Colombia[G] │ 18,000│ 25,000│ 32,000│27,030
- Madagascar[H] │ │ │ │
- New South Wales[I] │ 56│ 82│ 259│
- Russia[J] │119,789│ 78,682│50,000[K]│
- United States[C] │ 742│ 750│ 605│
- Victoria[L] │ │ │ │
- ─────────────────────┴───────┴───────┴─────────┴──────
-
- _Canada._—The recoveries of platinum at the works of the
- International Nickel Company in New Jersey for the years 1910–1912
- were 258,666 and 497 oz. respectively, chiefly from Canadian matte.
-
- _Russia._—The _actual_ productions of platinum as quoted in _Mineral
- Industry_ in oz. were: 1910, 300,000; 1911, 280,000; 1912, 300,000;
- 1913, 275,000; 1914, 240,000; 1915, 124,000; 1916, 90,000; 1917,
- 50,000.
-
-Footnote C:
-
- _U.S.A. Mineral Resources, 1917, Geol. Surv._
-
-Footnote D:
-
- Estimates not available.
-
-Footnote E:
-
- _Records of Geol. Survey, India._
-
-Footnote F:
-
- _Mineral Production_, Mines Dept., Canada. Figures are for alluvial
- production only, and far below _actual_ production figures, not
- including Ontario production from nickel matte, for which only
- incomplete information is available. [See p. 25.]
-
-Footnote G:
-
- _Mining Journal_, November 30, 1918, p. 700, and _Mineral Industry_.
-
-Footnote H:
-
- _Mines and Quarries Reports_, Home Office.
-
-Footnote I:
-
- _Annual Rept. Dept. of Mines._
-
-Footnote J:
-
- _Mineral Industry._ These are _official_ figures for production;
- _actual_ production is much greater than these.
-
-Footnote K:
-
- Estimated.
-
-Footnote L:
-
- _Dept. of Mines Reports_ (platinum obtained from copper matte).
-
-The market value of platinum has risen considerably since 1880. In that
-year the price was 12_s._ 7½_d._ per oz. troy, in 1890 it was 25_s._
-3_d._, and in 1900, 63_s._ 1½_d._ The average prices in London and New
-York for the years 1910–1919 were as shown on the accompanying tables:
-
-
- Average price in pounds per troy oz. of refined metals of the platinum
- group in London
-
- ─────────┬─────┬─────┬─────┬─────┬─────┬─────┬───────┬─────┬─────┬─────
- │1910.│1911.│1912.│1913.│1914.│1915.│ 1916. │1917.│1918.│1919.
- ─────────┼─────┼─────┼─────┼─────┼─────┼─────┼───────┼─────┼─────┼─────
- Platinum │ 9·1│ 8·6│ 9·5│ 9·5│ 8·1│ 10·9│10–14·5│ 14·5│ 20│ 24
- Metals │ │ │ │ │ │ │ │ │ │
- ─────────┴─────┴─────┴─────┴─────┴─────┴─────┴───────┴─────┴─────┴─────
-
- 1910, 1915, 1916 and 1917—_Metal Market Year Book_. 1911, 1912, 1913
- and 1914—_Mining Magazine_.
-
-
- Average price in dollars per troy oz. of refined metals of the platinum
- group in New York
-
- ──────────┬─────┬─────┬─────┬─────┬─────┬─────┬─────┬─────┬──────┬─────
- │1910.│1911.│1912.│1913.│1914.│1915.│1916.│1917.│1918. │1919.
- ──────────┼─────┼─────┼─────┼─────┼─────┼─────┼─────┼─────┼──────┼─────
- Platinum │ 33│ 43│ 46│ 45│ 45│ 50│ 84│ 103│106[M]│ 114
- Iridium │ │ │ │ │ 65│ 83│ 94│ 150│ │
- Iridosmine│ │ │ │ │ 33│ 35│ 45│ 80│ │
- Palladium │ │ │ │ │ 44│ 56│ 67│ 110│ │
- ──────────┴─────┴─────┴─────┴─────┴─────┴─────┴─────┴─────┴──────┴─────
-
- 1910, 1914, 1915, 1916 and 1917—_U.S. Geol. Surv. Mineral
- Resources_.
-
- 1911, 1912, 1913, 1918 and 1919—_Eng. and Min. Journ._, vol. 107,
- No. 2, p. 77.
-
-Footnote M:
-
- The price was fixed on May 14, 1918, at $105.
-
-
-
-
- CHAPTER II
- SOURCES OF SUPPLY OF PLATINUM AND ALLIED METALS
-
- (_a_) BRITISH EMPIRE
-
-The outputs of platinum metals in different parts of the British Empire
-are shown in the table on p. 14.
-
-
- EUROPE
-
-
- UNITED KINGDOM
-
-There is no known occurrence of platinum in the United Kingdom, but
-there has always been much trade done there in the platinum metals,
-England having been the second largest importer of the big consuming
-nations. The following were the importations of Russian platinum for
-five periods since 1863:
-
-
- _Period_ _Oz._
- 1863–1880 512,005
- 1881–1890 167,999
- 1891–1900 437,645
- 1901–1910 259,111
- 1911–1915 71,624
-
- [15] p. 923
-
-The above figures do not include receipts of platinum for seven
-different years since 1863, for which there are no records.
-
-The table on the next page gives a summary of total imports of platinum
-metals for the years 1910–1918, with the countries of origin.
-
-The platinum market in London was controlled by the Government from
-January 1916 to December 1918, Johnson, Matthey & Co., Ltd., acting as
-buyers. On December 26, 1916, platinum was declared contraband.
-
-
- _Imports of Platinum Metals, wrought and unwrought, into United Kingdom_
- (_in troy oz._)
-
- ───────────────────────────┬──────┬──────┬──────┬──────
- │1910. │1911. │1912. │1913.
- ───────────────────────────┼──────┼──────┼──────┼──────
- _From British countries_ │ 24│ 1,011│ 1,100│
- _From foreign countries_: │ │ │ │
- Russia │ 4,167│ 2,579│ 461│ 1,778
- Germany │ 5,837│ 8,786│ 1,669│ 50
- France │35,149│30,449│33,969│33,149
- United States │ 494│ 794│ 644│ 3,623
- Colombia │ 2,037│ 4,909│ 4,552│ 3,725
- Other foreign countries│ 454│ │ 158│ 315
- ───────────────────────────┼──────┼──────┼──────┼──────
- Total: foreign countries │48,138│47,517│41,453│42,640
- ───────────────────────────┼──────┼──────┼──────┼──────
- Grand total, oz. │48,162│48,528│42,553│42,640
- ───────────────────────────┴──────┴──────┴──────┴──────
-
- ───────────────────────────┬──────┬─────┬─────┬─────┬─────
- │1914. │1915.│1916.│1917.│1918.
- ───────────────────────────┼──────┼─────┼─────┼─────┼─────
- _From British countries_ │ │ │ 28│ 458│ 265
- _From foreign countries_: │ │ │ │ │
- Russia │ │ 7│ │ │
- Germany │ 3│ │ │ │
- France │12,592│1,878│1,666│ 632│ 596
- United States │ 257│1,265│ 191│2,716│
- Colombia │ 2,296│ 139│ │ │
- Other foreign countries│ 40│ 59│ 79│ │ 362
- ───────────────────────────┼──────┼─────┼─────┼─────┼─────
- Total: foreign countries │15,188│3,348│1,936│3,348│ 958
- ───────────────────────────┼──────┼─────┼─────┼─────┼─────
- Grand total, oz. │15,188│3,348│1,964│3,806│1,223
- ───────────────────────────┴──────┴─────┴─────┴─────┴─────
-
- [16]
-
-About 7 per cent. of the Russian and one-half of the Colombian outputs
-were sold to England during the war, as well as most of the Australian
-and Indian production. Much of this metal was refined in the United
-States.
-
-According to J. E. Orchard[17], the commercial control (financial) of
-the world’s output of platinum of 267,233 oz. of 1913 was divided as
-follows: France, 74 per cent.; Russia, 18 per cent.; United States, 4
-per cent.; British Empire, 2 per cent.; other countries, 2 per cent.;
-whilst the political control (territorial) was divided as follows:
-Russia, 93 per cent.; Colombia, 6 per cent.; other countries, 1 per
-cent.
-
-
- ASIA
-
-
- INDIA
-
-Traces of platinum and iridium have been noticed in association with the
-gold obtained from native workings at Bonai City. The gold occurs in a
-deposit of iron oxide, which forms the cementing material in a hard
-stratum of quartz pebbles. The oxide is separated by pounding, and then
-washed away to extract the gold. The proportion of platinum to gold is
-probably less than 1 to 20.
-
-Platinum occurs, associated with gold, in the gravels of the Irawaddy
-River in Burma. A small quantity of platinum is obtained at Myitkyina by
-the Burma Gold Dredging Company. During the years 1911–13, 152 oz. were
-won by this company. In 1915 the output was 17·7 oz., and in 1916, 9·25
-oz. In 1917, 4 oz. only were produced[18]. Owing to the cessation of the
-golddredging operations at Myitkyina, Burma has ceased to produce
-platinum, the quantity recovered during the year 1918 being only 0·31
-oz.[19].
-
-It has also been located with iridosmine in the auriferous gravels of
-the rivers draining the slopes of the Patkoi Ranges, both on the Assam
-and Burma sides[20].
-
-
- AFRICA
-
-
- RHODESIA
-
-Platinum has recently been located in the Gwelo district, about 6 miles
-north-east of Indiva siding, where it occurs in the great dyke of
-norite, which is here about 4 miles wide. A. E. V. Zealley, the late
-assistant Government geologist, made this occurrence the subject of a
-special report[21].
-
-The country rock is a serpentinized dunite. The deposit is capped by a
-ferruginous siliceous gossan from 4 to 5 ft. wide, which may be traced
-on the surface for about 100 ft., and is comparable to a fissure vein.
-The gossan consists largely of hæmatite and chalcedony, with occasional
-veinlets of copper and nickel minerals. Although the presence of
-platinum in the ore could not be detected by panning, the possibility of
-its occurrence on geological grounds was considered, and a sample of
-concentrate from an unstated amount of ore was forwarded to the Imperial
-Institute for analysis. The sample was found to contain platinum to the
-amount of 1 dwt. 20 gr. per ton. A report on the further development of
-this deposit is awaited with interest.
-
-A sample of concentrate from an unstated amount of material from the
-gem-bearing gravels of Somabula Forest, Gwelo district, was received at
-the Imperial Institute from the Director of the Geological Survey of
-Southern Rhodesia in November, 1918. On analysis this sample yielded the
-following per ton: platinum, 3 oz. 12 dwt.; osmiridium, 7 oz. The
-concentrate also contained a large proportion of gold. As shown by the
-latest information available, the deposits, although undoubtedly rich,
-appear to extend over a limited area. According to an analysis made at
-the Imperial Institute, a sample of chromite from Southern Rhodesia
-(Selukwe) contained 0·17 per cent. copper and nickel oxides, and a trace
-of platinum[22].
-
-H. B. Maufe[23] has stated that as the River Umtebekwe drains two areas
-of ultra-basic rock containing chromite, it might be expected to contain
-alluvial platinum, as well as gold, and, as a matter of fact, platinum
-has actually been discovered in a reef in the Great Dyke (norite), at
-the head of the Umtebekwe valley.
-
-The presence of platinum was recently reported at Willoughby’s Halt, 12
-miles south of Gwelo.
-
-
- UNION OF SOUTH AFRICA
-
-_Cape Colony_[24].—Platinum is present in varying quantities in the
-copper-nickel deposits at Insizwa, situated in the Cape Province, close
-to the boundary between East Griqualand and Pondoland.
-
-The rock formation consists of a basin-shaped mass of intrusive norite,
-averaging from 2,000 to 3,000 ft. in thickness, and lying in the shales
-and sandstones of the Beaufort Series of the Karroo System.
-
-The ore body consists of sulphides of copper and nickel, in association
-with pyrrhotite, the minerals occurring disseminated near the basal
-margin of the intrusive in olivine picrite. Gold and silver are also
-present in small quantities.
-
-The average copper and nickel contents in the ore are each about 4 per
-cent., and the platinum content averages from 2 to 3 dwt. per ton, the
-platinum being unequally distributed through the ore[25] p. 14.
-
-It is not certain in what form the platinum occurs. It does not appear
-to be present as sperrylite. In the opinion of W. H. Goodchild it may
-occur in close association with the silver[25] p. 35.
-
-Mining operations have been intermittently carried on here during the
-last fifty years, the last exploratory work coming to an end in 1911.
-Operations were, however, resumed early in 1920.
-
-_Transvaal._—Small amounts of platinum and its allied metals have from
-time to time been noticed in black sands from the battery “clean-ups” on
-the Rand at Klerksdorp and other gold-mining districts, and platinum to
-the amount of 2½ dwt. per ton is reported to have been present in
-residual slimes at the Rietfontein mines[26]. A specimen, consisting of
-about 85 per cent. osmiridium and 15 per cent. platinum, recently
-received at the Imperial Institute, was stated to have been taken from a
-compact shale, immediately underlying the banket reef in one of the
-mines of the Klerksdorp district. In the large majority of the gold
-mines, however, the platinum metals, if present, appear to exist in such
-small quantities as to escape detection.
-
-A series of samples of chromite from Kromdaal, near Rustenburg, showed
-from a mere trace to 1 dwt. of platinum per ton, and one sample of
-chromite from the Secocoeniland deposits showed as much as 1½ dwt. of
-platinum per ton[27].
-
-
- NORTH AMERICA
-
-
- CANADA
-
-The occurrence of platinum in Canada was first observed in 1862, in the
-course of gold-mining operations on the Rivière-du-Loup and the
-Rivière-des-Plantes in the province of Quebec[28] p. 210.
-
-Since that time platinum has been found in a number of localities
-associated with auriferous gravels, but the crude metal has only been
-obtained commercially from the Similkameen district in British Columbia.
-These deposits first attracted attention in 1885. All the workings are
-alluvial, although the platinum has in several cases been traced to its
-parent source.
-
-_Alberta._—Platinum and gold in minute grains, closely intermixed, are
-found in the North Saskatchewan River, near Edmonton. In 1918 certain
-platinum occurrences were examined by the Munitions Resources
-Commission, visits being paid to Fort Saskatchewan and the Peace River
-district, in Alberta. These deposits, however, proved to be
-disappointing. In the former locality, which was carefully tested by
-drilling, the values of the samples obtained averaged less than 10 cents
-in gold and platinum per c. yd. of gravel[29] p. 427.
-
-_British Columbia._—Platinum, associated with gold, which is the
-dominant metal, occurs in the Tulameen River and its tributaries, the
-principal of which is Slate Creek, others being Cedar, Eagle, Bear and
-Granite Creeks. The metal is present in small rounded grains, or
-pellets. Chromite is often found intergrown with the platinum, olivine
-and pyroxene usually occurring in association. The heavy minerals
-remaining with platinum in the concentrate are titaniferous magnetite,
-chromite and native copper. The platinum is sometimes magnetic, probably
-due to the covering of the grains by small particles of magnetite[30].
-
-The following analysis, according to G. C. Hoffmann, is representative
-of an average sample of crude platinum from the Tulameen River:
-
-
- Per cent.
- Platinum 72·07
- Palladium 0·19
- Rhodium 2·57
- Iridium 1·14
- Osmiridium 10·51
- Copper 3·39
- Iron 8·59
- Gangue (Chromite) 1·69
-
-Owing to the presence of osmiridium in considerable proportion, the ore
-is classed as “hard metal,” and on that account fetches a higher price.
-Many of the richer placers have become exhausted, and work is now
-carried on by a few individuals, principally Chinese, who work during
-the summer months only. In some cases high benches, 50 to 100 ft. above
-the creek bottom, are being worked. Much of the platinum and gold is of
-a coarse texture, with a rough surface, and the latter is sometimes
-found embedded in quartz. Nuggets are sometimes found encrusted with
-chromite, and are thus liable to be overlooked. The deposits are
-therefore not of great age, and the metals have not been transported
-long distances from their sources.
-
-Kemp is of opinion that the platinum is derived from pyroxenite dykes
-cutting through peridotites, which outcrop on Olivine and Grasshopper
-Mountains.
-
-It is of interest to note that some diamonds and rubies have been
-discovered with the platinum in the Tulameen deposits. They are of good
-quality, but of small size, and occur in a matrix of dunite[28] p. 210.
-American capital dominates the platinum industry in the district. In
-1918, at the request of the Imperial Munitions Board, special
-investigations in this area were undertaken by members of the Geological
-Survey, and several prospecting bores were put down to bedrock. Full
-reports of the work done are not yet available, but it is understood
-that the results are considered to be promising, and to warrant further
-examination of the district[29] p. 429.
-
-Platinum was in 1918 discovered at Franklin Camp, near Grand Forks,
-B.C., in the “Black Lead,” so-called, which is a mixture of augite,
-75·13 per cent.; orthoclase and microcline, 17·06 per cent.; hornblende,
-1·47 per cent.; and magnetite, 6·06 per cent., as determined by
-microscopic measurements on a typical specimen, with accessory minerals,
-chalcopyrite, bornite and apatite. A sample of chalcopyrite assayed 0·38
-oz. crude platinum per ton. Samples of the “Black Lead” assayed from
-0·02 to 0·17 oz. per ton[31].
-
-At Burnt Basin, on the Mother Lode claim, an auriferous quartz vein
-carries platinum, in amounts varying from a trace to 0·25 oz. per ton.
-The quartz also contains chalcopyrite, pyrite, galena, sphalerite and
-molybdenite[31]. Native platinum in small quantities has been found
-associated with gold in the following localities: Tranquille River,
-Fraser River, Rock Creek, Yale District, North Thompson and Clearwater
-Rivers. It has also been reported to occur in a dyke across the Kootenay
-River upon the Granite Poorman Mining Company’s property a few miles
-from Nelson[32]. At Siwash Creek, in the Tulameen district, small flakes
-of platinum, associated with chromite, often occur in shear zones in
-granite. Dredging for gold and platinum is being carried on, on the
-Peace River, North British Columbia.
-
-According to J. B. Hobson the heavy concentrate produced on the
-Consolidated Caribo hydraulic mine at Quesnel, contains, besides gold
-and silver, platinum, palladium and osmiridium, one analysis giving a
-total value of $3,873 per ton. The gold and silver being non-amalgamable
-are probably included in particles of pyrite and galena, whilst the
-platinum metals are found as minute grains or are enclosed in particles
-of chromite and magnetite. A system of “under-currents” is being
-installed to properly dress this concentrate[33].
-
-In 1917 the recorded output of crude platinum from the placer gravels of
-the Tulameen district in British Columbia was 57 oz., that for 1918
-being 39 oz. For the five years preceding 1892, this district produced
-on an average over 1,500 oz. per year.
-
-_Manitoba._—Samples of gold ore containing platinum have been obtained
-in the Star Lake district of south-eastern Manitoba[34]. Analyses of the
-samples from different auriferous reefs were made by the Department of
-Mines in 1917, and yielded platinum varying in amount from a trace to
-0·1 oz. per ton. In addition to gold and platinum, the veins carry small
-quantities of galena, zinc blende, pyrite, chalcopyrite and arsenopyrite
-in a gangue consisting mainly of quartz.
-
-Platinum is reported to occur in auriferous quartz veins in several
-mines and prospects in Le Pas district; a picked sample of ore from the
-mine of the Northern Manitoba and Development Company, assayed $49 gold
-and $17 platinum per ton[35]. McCafferty’s Prospect, about 5 miles away,
-contains platiniferous quartz.
-
-_Nova Scotia._—According to E. R. Faribault in _Summary Report_, 1918,
-Part F, of the Canadian Department of Mines, platinum has been found,
-mostly in traces, in some of the old gold districts of Halifax county
-and, lately, in the tungsten concentrates of the Moose River mines. So
-far, all occurrences are in quartz veins in the lower quartzite and
-slate formation of the gold-bearing series of the Atlantic coast. The
-platiniferous mineral is supposed to be sperrylite, with which is
-associated arsenopyrite.
-
-_Ontario._—Sudbury is one of the few places where platinum is profitably
-extracted from deposits _in situ_. The metal, which was first discovered
-in this region in 1889, is found mostly in combination with arsenic, as
-sperrylite associated mainly with chalcopyrite in the well-known copper
-and nickel-bearing deposits of the district.
-
-The origin of the ore bodies has not yet been settled. They are either
-marginal deposits in, or off-shoot deposits to, a norite laceolith,
-which has intruded sedimentary rocks, the ores consisting principally of
-chalcopyrite, pyrrhotite, and pentlandite. Metallic platinum, gold,
-silver and palladium occur in the ore, the last also, probably, as an
-arsenide. The highest platinum content is associated with the highest
-copper content; the highest palladium with the highest nickel. According
-to Roberts and Longyear[36] the mean analysis of rocks of from sixteen
-drill holes gave an average ore content of: copper, 1·11 per cent.;
-nickel, 1·95 per cent.; silver, 0·223 oz.; gold, 0·022 oz.; and metallic
-platinum, 0·0068 oz. per ton. The ore is principally worked for its
-nickel and copper content, and yields a large proportion of the world’s
-supply of nickel. The ore is first smelted at the mines, and a portion
-of the low-grade matte so produced is then shipped to South Wales for
-final treatment, the remainder being sent to the recently-constructed
-refinery of the International Nickel Co., at Port Colborne, Ontario, and
-to the United States. It was stated in 1903 that this matte contained on
-the average 1·25 oz. of the platinum metals per ton of nickel content of
-the matte, of which about 80 per cent. was extracted[37] p. 10. The
-Victoria Mine, owned by the Mond Nickel Co., is stated to carry a high
-percentage of the precious metals, as is also the Vermilion Mine,
-although in the latter case the ore body is very small. In 1917 the
-total output of copper-nickel ore from these deposits amounted to
-1,506,828 tons, of which the Canadian Copper Co. raised 1,139,629 tons,
-the Mond Nickel Co. 361,335 tons, and the Alexo Mining Co. 5,864 tons.
-The nickel content of the ore of the Canadian Copper Co. was about 2·5
-times that of the copper, whilst the ore mined by the other two
-companies contained the two metals in approximately equal proportions.
-The matte produced by the Alexo Mining Co. is smelted by the Mond Nickel
-Co. According to the report of the Royal Ontario Nickel Commission, the
-matte produced by the Canadian Copper Co. in 1916 was estimated to
-contain 4,640 oz. platinum and 8,460 oz. palladium, corresponding to
-0·10 oz. platinum and 0·15 oz. palladium per ton of matte, the
-International Nickel Co. recovering in that year 1,093 oz. platinum and
-257 oz. allied metals. This company is now reported to have improved its
-methods of recovery. In 1918 the total matte shipment by the Canadian
-Copper Co. is stated to have contained, among other precious metals,
-8,677 oz. platinum and 13,016 oz. palladium[38].
-
-According to information supplied by the Mond Nickel Co., their nickel
-residues derived from the refining of the matte are taken over by
-Johnson, Matthey & Co., Ltd. During the years 1915–18 the residues
-disposed of were estimated to contain the following amounts of platinum
-metals:
-
-
- (In oz. troy.)
- ───────────────────┬─────┬─────┬─────┬─────
- │1915.│1916.│1917.│1918.
- ───────────────────┼─────┼─────┼─────┼─────
- Platinum │3,078│3,782│4,913│4,465
- Palladium │5,474│ │ │
- Iridium and Rhodium│ 973│ │ │
- ───────────────────┴─────┴─────┴─────┴─────
-
-
-Messrs. Johnson, Matthey & Co., Ltd., have kindly supplied the following
-figures of platinum-extraction from these residues:
-
-
- Oz. troy.
- 1916 3,722
- 1917 4,719
- 1918 4,958
-
-The British America Nickel Corporation, who are developing some large
-deposits in the same district, are also erecting a refinery near Hull on
-the Ottawa River. It is stated that they will employ the Hybinette
-process of electrolytic refining, and expect to obtain a high recovery
-of the precious metals[29] p. 425.
-
-With gradual improvements in the refining process, and with the refining
-of the whole of the matte produced, instead of a portion only, as at
-present, it seems probable that the production of platinum metals by the
-three nickel companies may in time exceed 10,000 oz. per annum.
-
-The 1919 report of the Ontario Bureau of Mines shows that in 1918 the
-International Nickel Co. treated 62,250 tons of matte for 650 fine oz.
-of platinum, 787 oz. of palladium, and 473 oz. of metals of the rhodium
-group. This cannot be used as a basis of calculation, as the proportions
-are not constant.
-
-On the Quinn claims, near the Crœsus Mine, Munro Township, is auriferous
-quartz containing platinum. Five assays gave a platinum content of value
-ranging from $180 to $1,800 per ton (with platinum at from $40 to $50
-per oz.)[31]. The Abro Mine in the Timiskaming district in 1915 shipped
-between 5,000 and 6,000 tons of ore, containing 0·03 oz. of palladium
-and platinum per ton. The ore consists of pyrrhotite, chalcopyrite and
-pentlandite, in a gangue of altered peridotite and serpentine[7].
-
-_Yukon Territory._—Platinum occurs associated with gold in small
-quantities in most of the tributaries of the Yukon River, notably at the
-mouth of the Hootalinqua River, and in the River Lewis[37] p. 12.
-
-
- NEWFOUNDLAND
-
-Chromite derived from the serpentinized area in the region of Mount
-Cormack, situated in the central part of the island, has been found to
-contain small quantities of platinum[39].
-
-
- AUSTRALASIA
-
-
- AUSTRALIA
-
-The most important occurrences of platinum in the Commonwealth are at
-Fifield and at Platina, in New South Wales.
-
-The outputs of crude platinum in Australia in recent years were all
-exported to the United Kingdom as under:
-
-
- ──────────────
- Year. Troy oz.
- ──────────────
- 1910 332
- 1911 470
- 1912 610
- 1913 442
- 1914 244
- 1915 56
- 1916 82
- 1917 259
- 1918 607
- ──────────────
-
- _Note._—These figures do not include the osmiridium produced in
- Tasmania.
-
-Recent imports of manufactured platinum were as under:
-
-
- ───────────
- Oz.
- ───────────
- 1910 320
- 1911 504
- 1912 318
- 1913 301
- 1914–15 223
- 1915–16 89
- 1917–18 18
- ───────────
-
-The question of the refining of platinum in Australia has been under
-consideration for some time; so far the crude material has all been sent
-to England. The outlook for future production of crude platinum in
-Australia is not promising, with the exception of that of Bald Hill
-district, Tasmania.
-
-_New South Wales._—Platinum is obtained at Platina, in the Fifield
-division, in the east central part of the State, from a buried gravel
-channel, in which it occurs in association with gold and osmiridium. The
-rocks in the vicinity of the “leads” consist chiefly of slates, but the
-source of the platinum is not known[4] p. 557. These deposits were first
-exploited in 1894, and from that year to 1918 inclusive, the total
-output of platinum from New South Wales was 14,680 oz.[40]. The gravels
-have yielded amounts of 6 dwt. platinum and 2 dwt. gold per ton, but
-according to Government reports the richer deposits are nearly worked
-out; mining operations are carried on with great difficulty, as there is
-a great scarcity of water and a deep overburden, varying from 20 to 80
-ft. in depth. It is estimated that there are 200 acres of
-platinum-country available, sufficiently rich to pay, were it worked on
-a large scale with an abundant supply of water[41].
-
-A new occurrence has recently been discovered about 1 mile distant from
-the old Platina deep “lead,” the platinum being associated with small
-quantities of gold. The “lead” has so far been proved to extend over an
-area about 1 mile in length, and from 60 to 150 ft. in width, the wash
-varying in depth from a few feet to up to about 80 ft. The pay gravels,
-which rest on shales and sandstones of Silurian and Devonian age,
-intruded by dioritic dykes, are stated to be from 1 to 3 ft. thick. The
-following analysis is representative of the crude platinum produced:
-
-
- Per cent.
- Platinum 75·90
- Iridium 1·30
- Rhodium 1·30
- Palladium trace
- Osmiridium 9·30
- Iron 10·15
- Silica 1·12
-
- [42] p. 14.
-
-Platinum is frequently found in beach sand deposits on the coastal
-border between Queensland and New South Wales, notably at Ballina, close
-to the mouth of the Richmond River; at Evans Head, further south; and at
-Currumbin, near the mouth of the Tweed River. In this locality black
-sands containing platinum, associated with gold, cassiterite, monazite
-and osmiridium, accumulate on the beaches during stormy weather. At
-Ballina and Evans Head, the platinum predominates over the gold, but at
-Currumbin, further south, the gold is in the greater quantity[4] p. 557.
-The minerals are present in a very finely-divided state, and separation
-of the valuable metals is a matter of considerable difficulty. The
-problem does not appear to have been satisfactorily solved up to the
-present time, although promising experiments have recently been carried
-out with screening and magnetic treatment. The deposits are,
-unfortunately, very low grade.
-
-The sources of the metals are uncertain. The platinum and osmiridium
-appear to have been derived from the western edge of the Clarence coal
-measures, which now exist only as fragmentary outcrops. The gold, tin
-and monazite may have their origin in granite and other rocks of the New
-England tableland. Chromite is present in some of the Currumbin sands,
-which suggests serpentine as the probable source of platinum[4] p. 557.
-Other associations are zircon, garnet, tourmaline, ilmenite, magnetite
-and sapphire.
-
-In the Broken Hill district, principally at Little Darling and Mulga
-Springs Creek, platinum has been proved to extend over a considerable
-area in a copper-nickel gossan, closely associated with gabbro,
-decomposed gneisses and schists. In addition to platinum, the amounts of
-which vary from a trace to 16 dwt. per ton, gold, silver, iridium and
-palladium are also present[43]. The deposits bear some resemblance to
-the nickel deposits of Sudbury, Ontario, and it is thought that here,
-too, the platinum occurs combined with arsenic, as sperrylite.
-
-_Queensland._—In addition to the beach deposits between Southport and
-Currumbin, described above, platinum has been found in Coopooroo and
-Wairamba Creeks on the Russell Goldfield, near Innisfail; also in the
-Lucknow and Alma “reefs” of the Gympie Goldfield, where it is present in
-quartz lodes with native gold, and arsenopyrite, the accompanying rocks
-consisting of slates, alternating with volcanic tuffs and conglomerates;
-the metal also exists in the neighbouring gold-bearing alluvial deposits
-of Brickfield Gully.
-
-Another occurrence of alluvial platinum is known at the head of the Don
-River in Central Queensland[4] p. 556.
-
-_Victoria._—Platinum occurs in the Walhalla Copper Mine, where it is
-associated in a hornblende-diorite lode-formation with copper pyrites,
-gold and silver. The ore is stated to contain from 2 to 7 dwt. platinum
-per ton. In the Thompson River Copper Mine platinum is found in a
-hornblendic rock rich in chalcopyrite.
-
-_Tasmania._—Iridosmine has been produced from the Bald Hill district
-near Waratah, in the north-western part of the state, since 1900, the
-metal being obtained from placer deposits in Nineteen Mile Creek and its
-tributaries, Linger-and-Die, McGinty’s and Barren Creeks, and from
-Savage River. It has been located _in situ_ in the rocks of Bald Hill,
-principally in serpentine, but also with chalcedony and opaline silica
-in lode-formations. In the former case, it is associated with magnetite,
-pyrite, pyrrhotite, nickel and gold. The iridosmine in the placer
-deposits is sometimes coated with iron oxide, and is also at times found
-enclosed in chromite. The following analysis in percentages, made at the
-Imperial Institute, is typical: osmium, 57·09; iridium, 33·80; platinum,
-0·37; ruthenium, 8·19; palladium, 0·21; gold, 0·04; iron, 0·30; copper,
-trace.
-
-Other localities in Tasmania at which osmiridium has been located are
-Heazlewood River, Whyte River, Castray River, Huskisson River, Wilson
-River and Boyes River; also the Badger gold diggings, west of Savage
-River, and the Salisbury goldfield near Beaconsfield.
-
-The following table gives the recent annual output of osmiridium in
-Tasmania:
-
-
- ───────┬───────┬───────
- Year. │ oz. │ Value
- │(troy).│ in £.
- ───────┼───────┼───────
- 1910 │ 120 │ 530
- 1911 │ 272·9│ 1,188
- 1912 │ 778·8│ 5,742
- 1913 │1,261·6│ 12,016
- 1914 │1,018·8│ 10,076
- 1915 │ 247 │ 1,581
- 1916 │ 222·2│ 1,899
- 1917 │ 332·1│ 4,898
- 1918 │1,607 │
- 1919 │1,669·7│ 39,614
- ───────┴───────┴───────
-
-_South Australia._—In the north-east part of the State traces of
-platinum have been recognized by analysis as occurring in the outcrop of
-a lode near Boolcoomatta. Further information on this occurrence is not
-available.
-
-_Papua._—Osmiridium, associated with small amounts of gold only, is
-known to occur as alluvial in the neighbourhoods of various serpentine
-areas; in the Lakekamu district, in flaky form; in the Yodda Valley, in
-appearance similar to native bismuth; and in other places in shot-like
-granules[44].
-
-
- NEW ZEALAND
-
-Platinum is only obtained commercially in New Zealand from the Orepuki
-district of Southland, where it is produced by the Round Hill Gold
-Mining Company as a by-product in the washing of auriferous gravels.
-According to information recently supplied by the Mines Department, the
-annual output of crude platinum for the last ten years has averaged 30
-oz., but in view of the recent falling-off of the gold production in
-this locality, the prospects of any increase in the output of platinum
-seem small.
-
-In South Island the presence of platinum has been reported on the Thames
-River in quartz lodes, in a region of serpentine and diorite, and in a
-pyritic lode near the Taramakau River in the district of Westland, in
-close proximity to sheets of altered magnesian eruptive rocks[4] p. 557.
-The platinum in the latter case occurs in association with silver, in
-the proportions of about 7 parts of the latter to 1 of the former,
-together with pyrite and limonite. Samples taken from the lode have been
-stated to have an average content of 3 dwt. 8 gr. platinum per ton[45].
-
-Other localities in South Island where platinum has been located are the
-Taraka and George Rivers, which flow into Awarua Bay; the east coast of
-Otago, in beach sands and river gravels; the Clutha River; and the
-Nelson gold district.
-
-Concentrates containing up to 2·5 per oz. per ton are reported to have
-been obtained from the Parapara sub-division. Platinum in New Zealand is
-often associated with gold, and the deposits are in many cases similar
-to those of the Urals.
-
-
-
-
- CHAPTER III
- SOURCES OF SUPPLY OF PLATINUM METALS
-
- (_b_) FOREIGN COUNTRIES
-
-
- EUROPE
-
-
- FRANCE
-
-Platinum metals are not produced in France, but platinum is known to
-occur at several places. In the Department of Charaste and Deux Sevres
-it occurs associated with pyrite and limonite; in the Valle du Drae,
-Hautes Alpes, above Chatalard, platinum occurs in tetrahedrite in
-metamorphic limestone; at St. Arey, near La Mure (Isere), it occurs in
-bournonite, in dolomite and altered limestone. Platinum is found in
-argentiferous tetrahedrite and malachite near Presles, in Savoy[31].
-
-As mentioned below, under Russia (p. 36), France controlled the
-production of platinum in Russia before the war through the Compagnie
-Internationale du Platine, due to its extensive ownership of platinum
-deposits and its contracts with Russian companies.
-
-The accompanying table gives a summary of recent imports, with countries
-of origin, as far as can be obtained.
-
-
- _Imports_
-
-Recent imports in kilograms (42·87 troy oz.) into France of crude,
-manufactured and scrap platinum, were as under:
-
-
- ─────╥────────┬───────┬────────┬───────┬────────────
- From ║ United │Russia.│Germany.│Serbia.│Switzerland.
- Year.║Kingdom.│ │ │ │
- ─────╫────────┼───────┼────────┼───────┼────────────
- 1910 ║ 480│ 5,878│ 1,104│ 204│ 85
- 1911 ║ 575│ 6,895│ 822│ 782│ 127
- 1912 ║ │ 5,454│ 283│ 144│
- 1913 ║ 78│ 4,500│ 220│ │ 2
- 1914 ║ 63│ 2,595│ 161│ │
- ─────╫────────┼───────┼────────┼───────┼────────────
- 1915 ║ │ │ No│details│available
- 1916 ║ │ │ │ │
- 1917 ║ │ │ │ │
- 1918 ║ │ │ │ │
- ─────╨────────┴───────┴────────┴───────┴────────────
-
- ─────╥────────────────┬──────────╥──────
- From ║Austria-Hungary.│ Other ║Total.
- Year.║ │countries.║
- ─────╫────────────────┼──────────╫──────
- 1910 ║ │ 44║ 7,795
- 1911 ║ │ 192║ 9,393
- 1912 ║ 271│ 84║ 6,235
- 1913 ║ 171│ 97║ 5,067
- 1914 ║ │ 102║ 2,921
- ─────╫────────────────┼──────────╫──────
- 1915 ║ No details│available ║ 188
- 1916 ║ │ ║ 578
- 1917 ║ │ ║ 578
- 1918 ║ │ ║ 41
- ─────╨────────────────┴──────────╨──────
-
-
- GERMANY
-
-Platinum has recently been discovered in Westphalia, deposits having
-been found in Freudenberg, Siegen, Meschede, in Siegerland, Sauerland
-and Westerwald. It occurs in a series of fragmental deposits,
-including principally slates and graywackes, the latter composed of
-quartz and slate, with an argillaceous cement; it is also occasionally
-found in the recemented fragments which are presumably derived from
-the basal granite formation, underlying the platinum series[46] p.
-606. The beds are believed to be of marine origin, and are probably of
-Silurian and Devonian age. The platinum, which is present in a very
-finely-disseminated state, is associated with chromium, nickel,
-arsenic, antimony, iron, copper, lead, zinc, silver and gold, some of
-which appear to have been introduced by solutions at a stage
-subsequent to sedimentation. Krusch investigated these deposits in
-1914, and is of opinion, in view of the similarity of the chemical
-associations with those of the Ural and British Columbian formations,
-that the original source of the platinum was peridotite, or other form
-of basic igneous rock. A number of samples, analysed by Krusch,
-yielded values ranging from a trace to 33·5 gm. (1 oz. troy) platinum
-per ton[47]. At the outbreak of war the capital necessary for
-exploitation had not been raised, but in 1918 it was stated that
-treatment works had been erected at Wenden[2].
-
-As mentioned above, about 25 per cent. of the Russian output of platinum
-before the war was refined in Germany, and it is known that German
-capital was helping to finance the pre-war platinum operations of that
-country[2].
-
-
- _Imports_
-
-The following is a summary of imports into Germany of crude,
-manufactured and scrap platinum in kilograms (42·87 troy oz.) for the
-years 1910–13:
-
-
- ─────┬────────┬───────┬────────────────┬───────┬───────┬──────────┬───────
- From │ United │France.│Austria-Hungary.│Russia.│United │ Other │Total.
- Year.│Kingdom.│ │ │ │States.│countries.│
- ─────┼────────┼───────┼────────────────┼───────┼───────┼──────────┼───────
- 1910 │ 419│ 846│ 265│ 278│ 127│ 216│ 2,151
- 1911 │ 292│ 895│ 451│ 190│ 255│ 239│ 2,322
- 1912 │ 458│ 642│ 554│ 272│ 48│ 307│ 2,281
- 1913 │ 191│ 683│ 233│ 451│ 236│ 230│ 2,024
- ─────┴────────┴───────┴────────────────┴───────┴───────┴──────────┴───────
-
-
- RUSSIA
-
-Up to the year 1914, Russia produced about 93 per cent. of the total
-world’s supply of platinum, the metal being derived from extensive
-deposits of alluvial sands in the Ural Mountains. The platiniferous area
-extends approximately 80 miles along the central part of the chain of
-mountains in the Government of Perm, and along the eastern slope, the
-principal centre of the placers being at Goroblagodat, and on the
-western side at Nizhni-Tagilsk.
-
-Platinum was first discovered in the Urals in 1823, and exploitation
-commenced in the following year. In 1828 the Russian Government
-instituted platinum coinage, which consisted of 3–rouble, 6–rouble and
-12–rouble pieces, the coins containing about 2 per cent. iridium. A
-3–rouble piece weighed 10·31 gm., and the price paid by the Government
-to the producers was 16_s._ 10_d._ per oz.; but owing to the subsequent
-rise in value of platinum, the coinage was discontinued in 1845[48] p.
-606.
-
-The platinum industry began to develop in 1869, the price at that time
-being under £5 per lb.[49], but from that year onwards the value,
-although subject to considerable fluctuations, has steadily increased.
-It has been estimated that since the beginning of the industry in
-Russia, about 6,000,000 oz. of platinum have been recovered from
-30,000,000 to 40,000,000 c. yd. of gravel.
-
-As was explained in Chapter I, the official statistics of the Russian
-output of crude platinum are considered to be low. In the following
-table, the estimated and official figures of production are given for
-the years 1910–17:
-
-
- _In oz. troy_
- Year. Estimated output. Official output.
- 1910 300,000 176,334
- 1911 280,000 187,008
- 1912 300,000 177,596
- 1913 275,000 157,735
- 1914 240,000 157,182
- 1915 124,000 119,789
- 1916 90,000 78,682
- 1917 50,000
-
-In the official statistics the Ural mining district is divided into five
-principal areas. The following table shows the annual outputs by
-districts in recent years:
-
-
- _In oz. troy_
- ────────────────┬───────┬───────┬───────┬───────┬───────┬───────┬──────
- District. │ 1910. │ 1911. │ 1912. │ 1913. │ 1914. │ 1915. │1916.
- ────────────────┼───────┼───────┼───────┼───────┼───────┼───────┼──────
- South Verkhotur │111,070│121,314│118,048│102,552│106,528│ 80,985│52,353
- Perm │ 46,068│ 46,885│ 38,709│ 36,878│ 38,050│ 22,996│14,818
- North Verkhotur │ 11,862│ 11,362│ 13,166│ 11,376│ 7,426│ 12,288│ 9,968
- Tcherdynsk │ 6,359│ 5,016│ 6,162│ 6,109│ 4,753│ 3,518│ 1,542
- South │ │ │ │ │ │ │
- Ekaterinburg │ 972│ 1,040│ 1,382│ 816│ 421│ 2│
- ────────────────┼───────┼───────┼───────┼───────┼───────┼───────┼──────
- Total │176,331│185,617│177,467│157,731│157,178│119,789│78,681
- ────────────────┴───────┴───────┴───────┴───────┴───────┴───────┴──────
-
-Exports of crude platinum from Russia for the years 1911–15 were as
-follows[15] p. 923:
-
-
- ─────────────┬───────┬───────┬───────┬───────┬───────
- To. │ 1911. │ 1912. │ 1913. │ 1914. │ 1915.
- ─────────────┼───────┼───────┼───────┼───────┼───────
- Great Britain│ 1,053│ 2,107│ 1,580│ │ 66,884
- France │168,527│169,580│140,615│ 64,778│ 7,900
- Germany │ 51,612│ 50,558│ 58,458│ 17,906│
- United States│ │ │ │ │ 5,266
- ─────────────┼───────┼───────┼───────┼───────┼───────
- Total │221,192│222,245│200,653│ 82,684│ 80,050
- ─────────────┴───────┴───────┴───────┴───────┴───────
-
-The platinum industry in Russia has always been mainly in the hands of a
-few large firms of foreign countries. For a long time Johnson, Matthey &
-Co., Ltd. controlled the greater part of the trade. In 1898 the Société
-Anonyme de l’Industrie du Platine was established in Paris, and, by
-purchasing a large number of mines, and leasing others, was able to
-secure a large share in the control of the industry.
-
-The refining of the crude platinum has been, and still is, almost
-entirely in foreign hands, all but approximately 2 per cent. of the
-entire output being refined abroad. In 1915 it was reported that the
-construction of a refinery at Ekaterinburg was completed, which was to
-be placed under Government control. The principal platinum-refining
-works were formerly those of Johnson, Matthey & Co., Ltd., of England,
-but early in the eighties this firm was, to a certain extent, superseded
-by Heraeus & Co., of Hanau, Germany. They, in turn, in 1909, were
-compelled to give first place to the Société Anonyme de l’Industrie du
-Platine, of Paris, which became the chief centre of the
-platinum-refining industry, a position which it held until the outbreak
-of war. France at that time had a monopoly of 90 per cent. of the
-Russian production. This foreign control had an unfavourable effect on
-the industry, and in 1913 the Russian Government passed a law forbidding
-the exportation of crude platinum. In July 1915, exportation was again
-permitted, subject to a 30 per cent. _ad valorem_ export tax, and at
-about the same time an order was issued forbidding the exportation of
-raw platinum in quantities valued above 500 roubles (£53), the price of
-the metal to be fixed by the State[15] p. 923. In February 1917 the
-Government further enacted an order prohibiting the importation of drawn
-and spun platinum. It was hoped by these means to encourage the
-establishment of domestic refineries. In 1916 the Government fixed the
-price at £16 10s. per oz. In March 1917 it was reported that the miners
-were not satisfied, and later sales were reported up to £22 per oz. of
-crude metal, 83 per cent. fine[50] p. 17.
-
-According to N. Vissotzki[51], the platiniferous belt of the Urals,
-geologically speaking, consists of four parallel bands striking,
-roughly, north and south; the westernmost of these, made up of
-crystalline schists, forms the watershed between Europe and Asia. The
-next band to the east comprises olivine- and mica-gabbros,
-diallage-peridotites, diorites and altered syenites—all of which have
-been erupted from a great depth. The third band is made up of Lower
-Devonian sedimentary rocks, shattered and buried in places by diabasic
-eruptive rocks. The eastern portion of this band is formed of eruptive
-rocks of deep-seated origin which may be gneissose granites. The fourth,
-or most easterly band, is composed of ancient rocks, which have been
-eroded by the advancing sea of Lower Tertiary age.
-
-The area emerged from the waves as early as the Carboniferous period;
-consequently the accumulation of platinum, and in some localities of
-gold, in the surface-deposits, were not swept away. They were
-concentrated later on in the alluvia—perhaps at the time of the most
-intense glaciation, probably in the Pleistocene.
-
-Throughout the Urals, the primary source of the platinum is associated
-with the eruptive basic rocks, among which the platiniferous and
-auriferous dunite forms three great masses. The principal outcrops of
-platiniferous dunite and platinum-bearing alluvia are connected with the
-second of the four parallel bands mentioned above. Towards the south,
-the band becomes discontinuous, and finally dies out altogether. Here a
-few outcrops of platiniferous olivine-rock contain a small percentage of
-platinum, with osmiridium and other members of the group associated with
-it.
-
-The two principal platinum-producing districts are in the central Urals,
-and are: (1) The Shuvaloff Estates, Isov district, on the River Iss,
-near Goroblagodat. (2) The Demidoff Estates, Nizhni-Tagilsk district, on
-the Martian River in the South Verkhotur district. Prior to 1879 the
-latter field furnished the larger part of the platinum, but since then
-the former has been the most productive, and now supplies about 80 per
-cent. of the total output. The whole of the platinum is derived from
-gravel deposits, which are usually auriferous, and associated with
-dunite.
-
-_The Isov district._—Platinum is concentrated in the channels of the
-Rivers Iss, Veeya and Tura. In the north of this region it is obtained
-from the Sosnovki, Kytlymi, and Mala Kosva Rivers; further north again,
-platinum occurs with gold in the Vagran River, and in the system
-comprising the Rivers Lobva, Niasma, Lialia, Aktai, Emerlo and Talits,
-the gold here being predominant. Other sources of supply of platinum and
-gold in this district are on the Ivdevl River. In the south of the area,
-platinum deposits are worked on the tributaries of the Tagil, Salda,
-Imiaun and Tura Rivers[15] p. 921.
-
-_The Nizhni-Tagilsk district._—The richest placers occur in the valleys
-of the Visim, Martian, Sisim, Chaush and Cherna Rivers. Further south,
-platinum is found with gold in the gravels of the Nevian, Verkhne-Iset,
-Bilenibaev, Alapaev, Sysert, Kyshtym and Mias areas, and also in the
-Tanalyk, Sakmar and Urtazym Rivers.
-
-Other localities of smaller importance are the Nikolae Pavdinsk and
-Rastes districts in the northern Urals, and the Systersk mining
-district.
-
-The placers are derived from country rock, made up of serpentine gabbro,
-diallage and olivenite, the principal associated minerals being quartz,
-zircon, ilmenite, chromite, magnetite, spinel, native gold and
-palladium. Gold is present in the concentrate in very variable
-quantities, and sometimes contains silver, but the latter generally
-occurs in combination with palladium. The crude platinum usually
-includes some iridium, rhodium, ruthenium and iron.
-
-The basic igneous rocks, from which the platinum is derived, are exposed
-in the form of discontinuous elliptical outcrops near the summits of the
-Urals, particularly on the western side of the mountains. These outcrops
-attain larger dimensions in the northern and central Urals than further
-south. The process of concentration of platinum in the gravels has
-clearly extended over a very long period of time, and it is probable
-that the richer gravels have been reconcentrated, perhaps several
-times[52] p. 299. Platinum nuggets are rarely found, but three of large
-size were discovered in the Nizhni-Tagilsk district, their weights
-respectively being 25½ lb., 21 lb., and 11½ lb.
-
-Duparc, in a brief description of the geology of the deposits, states
-that they are essentially of magmatic origin. The structure of the rock
-is in the nature of concentric bandings; the felspathic rocks at the
-outer edge gradually grade into the intermediate stage of pyroxenes,
-until the central dunite is reached, composed of olivine and chromite.
-The richness of the gravels is in proportion to the size of the dunite
-deposits, and to the extent of erosion of these rocks. According to
-Duparc, platinum ore derived from a pyroxenite source usually contains
-high percentages of platinum and palladium, but low percentages of
-osmium and iron. The same writer estimated in 1916 that the reserves
-were sufficient for about twelve years, provided that the same methods
-of working and rate of extraction were employed during that period[53].
-
-The amount of the platinum in the wash is very variable. The average
-yield was formerly over ½ oz. per c. yd., but latterly, owing to the
-gradual exhaustion of the richer deposits, the average returns have not
-exceeded from 2 to 3 dwt. per c. yd. The crude metal assays about 83 per
-cent. platinum, from 5 to 7 per cent. osmium and iridium, with small
-amounts of ruthenium, palladium, and gold, and about 10 per cent.
-impurities, mostly iron and copper[54]. The thickness of the pay gravels
-varies from 3 to 6 ft., and about 4 ft. may be taken as the average
-width, the overburden running from a few to over 60 ft. The extent of
-the productive area is about 170 sq. miles, and from 15,000 to 20,000
-miners were employed before the war[4] p. 558. It has been noticed that
-the platinum deposits are characterized by their uniformity, of course
-not being so sinuous in direction as gold deposits.
-
-In former times mining was entirely carried on by primitive methods with
-hand labour, but the utilization of dredges has steadily increased,
-since their introduction in 1900. In 1909, 13 per cent. of the total
-production was obtained by dredging, and in 1914 this percentage rose to
-one-third of the total output. The season during which dredges may be
-employed extends on the average from the middle of April to the middle
-of October. In the South Verkhotur and Perm areas dredges have been used
-in the large enterprises; but at the small mines the working is very
-primitive, and carried on largely with the help of _starateli_, or
-tributers. In 1914 a modern 7½ c. ft. dredge was installed on the
-Nikolaie-Pavdinsk Estate.
-
-In mines where dredging is not in use, the gravels are mined by open
-cuts, or, if the overburden is thick, shafts are employed. The former
-method is much preferred, both on account of its relative cheapness, and
-also because it is possible to obtain a better clean-up of the bedrock.
-
-The usual types of stationary plant in use include the _botchka_, or
-conical revolving screen; the _tchaska_, or puddling machine, with a
-bottom of perforated iron plates; and the _boronka_, or conical screen,
-on which the stones and clay are turned over by a double rake[55]. The
-gold is removed by amalgamation with mercury in wood, iron or porcelain
-bowls. Special methods are in use in certain parts of Russia for working
-the deposits during the winter. The workings are allowed to freeze, and
-the frozen ground is mined after being partially thawed by means of wood
-fires. The method is simple, but care must be taken to ensure that the
-thawing does not proceed too far, otherwise the ground collapses, and
-the workings become flooded. The method is suitable for depths to 30
-ft., and in localities where the snowfall is comparatively slight.
-
-Latest reports from Russia indicate that no dredges are now working
-there, the platinum being produced by hand methods only.
-
-Some interesting experiments were recently carried out by V. N.
-Chorzhevski in the Nizhni-Tagilsk district, with a view to testing the
-commercial possibility of mining platinum _in situ_. The metal here
-occurs, in association with chrome iron ore, in dunite rock, which in
-this region extends over an area of 11½ sq. miles. The platinum appears
-to be present in quantities directly proportional to the amount of
-chromite in the rock. The dunite is first ground under runners; the
-chromite slack is separated from it; and after this has undergone a
-second grinding, the metal is separated by washing[56]. An experimental
-test, carried out in March 1917, is stated to have produced over 200 oz.
-platinum from 9,720 lb. chromite slack. Another experiment with 3,600
-lb. of grey slack, “or fines,” consisting chiefly of undecomposed dunite
-obtained from the dredges, is reported to have yielded ⅓ oz. of
-platinum.
-
-_Lapland._—Platinum occurs associated with chromite and diamonds, in
-alluvial deposits on the Ivalo River. It is believed to be derived from
-serpentine rock, of which the neighbouring country is largely
-composed[4] p. 556.
-
-_Finland._—Platinum has been found in the south in a lode-formation
-containing quartz, siderite, calcite and dolomite. Gold and carbonate of
-copper are also present in small quantities.[4] p. 557.
-
-
- PLATINUM CURRENCY
-
-In a dispatch to the Great Powers on February 26, 1920, the Soviet
-Government promised to withdraw the decree annulling Russia’s foreign
-debt, to pay arrears of interest, and giving as a guarantee to an
-Anglo-American syndicate certain important platinum and silver-mining
-concessions, in return for which the abandonment of intervention in
-Russia’s internal affairs was demanded. To be used in payment of foreign
-purchases, the Government was about to issue “platinum” credit notes of
-50, 100, 500, and 5,000 roubles, the issue to be limited to 65,000,000
-roubles, and backed by platinum reserves of 37,500,000 roubles. The
-Government would be ready to convert the platinum reserves into coin if
-required[57].
-
-
- SPAIN
-
-Promising deposits of platinum have recently been reported at Ronda, in
-the province of Malaga. Domingo de Orueta, a Government geologist,
-having noticed the similarity of the geology of this district to that of
-the platiniferous deposits of the Urals, proceeded, a few years ago, to
-explore the area systematically, and was soon rewarded, in the discovery
-of the metal. The deposits, which are alluvial, extend along the Verde
-and Guadaiza rivers, and are derived from serpentine and peridotite
-rocks, the latter composed principally of rhombic pyroxene, with some
-spinel and some dunite. Chromite occurs in association with the
-platinum. The pay gravels contain about 8 gr. platinum per ton, and are
-stated to have an average thickness of 5 ft., the depth of overburden in
-the Guadaiza area, where apparently the richer gravels are found, being
-about 33 ft., as compared with 49 ft. in the Verde locality[10] p. 547.
-The Spanish Government have taken over the exploitation of these
-deposits, and no public prospecting, without Government permission, is
-allowed.
-
-Platinum is known to exist in a number of other localities in Spain,
-especially in the northern districts; but so far as is known, it occurs
-in very small quantities of no commercial importance. The metal has been
-recognized in the following rivers: Minho, Luna, Sil, Orbigo, Gallego,
-Cinca Darro and Lower Jenil, where it occurs in the concentrate sands,
-accompanied by magnetite, ilmenite, zircon and, frequently, gold[58].
-
-
- ASIA
-
-
- ARMENIA
-
-Platinum, in association with gold, is reported to occur in the district
-of Batum and Sasun, on the Charokh River[46] p. 610.
-
-
- BORNEO
-
-Platinum was discovered in south-eastern Borneo in 1831, in the gravels
-of Gunung Lawack, but for a long time the natives were ignorant of its
-value. In recent years it has been obtained on a small scale as a
-by-product in the process of gold-washing, carried on in the province of
-Tanah-Laut, in the south-eastern extremity of the island[59]. The
-deposits occur in streams, which rise in the Bobaris Mountains, where
-the country rocks are composed of schists and gneisses, intruded by
-serpentine gabbro and diorite dykes[52] p. 298. Platinum has, however,
-not yet been located _in situ_. In addition to gold, the platinum is
-associated with osmiridium in the gravels, the two former being
-frequently found intimately intergrown. The platinum content of the
-native metal has been found by a number of analyses to vary from about
-57 to 83 per cent., and that of osmiridium from 0·18 to 10·07 per
-cent.[60].
-
-The rare mineral _laurite_, a sulphide of ruthenium and osmium, was
-discovered in these deposits.
-
-According to L. Hundeshagen[61], the platinum occurring in the diamond
-placers of western and south-eastern Borneo is in the form of thin
-scales, ranging from 0·1 to 1·0 mm. in length. These platinum scales
-contain from 3·8 to 4·5 per cent. of copper, evidently as an alloy.
-
-
- CHINA
-
-In the Uryanchai district of Mongolia, situated on the Russian border,
-deposits of auriferous gravels have been worked on a fairly extensive
-scale for some time past. It was announced a few years ago that platinum
-and iridium had been found in appreciable quantities, associated with
-the gold, some large platinum nuggets being obtained from this region in
-1911. Although no attempt at commercial development has yet been made,
-the prospects of profitable extraction appear to be hopeful. Extensive
-outcrops of olivine rocks have been noticed in the vicinity, and the
-nature of the occurrence is stated to bear some resemblance to that of
-the platiniferous fields of the southern Urals[8] p. 107.
-
-
- JAPAN
-
-Platinum occurs in the Yubari-garva, Pechau and other rivers in the
-province of Hokkaido. It is also found in Nishi-Mikawa, province of
-Sado. In the former locality gold and iridosmine are associated with the
-platinum, and in the latter gold and iron sands are present[62]. In no
-case has the metal been traced to its parent source. In the Hokkaido
-deposits the average quantity of platinum present is only 2 or 3 per
-cent. of the iridosmine content. It is possible that further exploration
-in these areas will reveal occurrences of greater importance[9] p. 597.
-
-
- SUMATRA
-
-Platinum is obtained at Sipongi, where it occurs with wollastonite and
-grossularite in limestones and schists, near intrusions of granodiorite
-and augite diorite. Gold is also present.
-
-L. Hundeshagen[61] is of opinion that the present ore deposit was
-originally a layer, or a big lens, of limestone embedded in the old
-schists, which has, by apophyses of granite, been altered into garnet
-and wollastonite, being at the same time, or very soon afterwards,
-mineralized by hot solutions carrying copper, gold, platinum, etc. A
-sample of slightly decomposed wollastonite with no copper, or only
-minute traces of that metal, proved to be richest in platinum, the assay
-showing 6 gm. of platinum per 1,000 kg., while samples with 2 to 10 per
-cent. of bornite and malachite contained only traces of platinum; and
-none could be detected in auriferous garnet, poor in wollastonite. About
-10 to 25 metres from the outcrop the concentrated river sand shows small
-particles of whitish crystalline gold and rounded grains of white
-platinum, the latter varying from 0·1 to 0·3 mm. in size.
-
-
- AFRICA
-
-
- CONGO FREE STATE
-
-In the Katanga district, platinum and palladium have been reported to
-occur in certain alluvial gravels, accompanied by gold and silver. One
-sample from this locality is stated to have yielded the following
-amounts per metric ton: 3·4 gr. platinum, 12·3 gr. gold, 8·3 gr. silver.
-It has also been located _in situ_ in sandstones containing gold.
-
-
- MADAGASCAR
-
-Platinum is produced on a small scale as a by-product in alluvial gold
-mining on the Vatana River, near the village of Ambia, in the Vatomandry
-district. Traces of the metal have also been found in auriferous gravels
-in the regions of Fenerive, Marolambo, and Vandrozo, over an area
-extending along the eastern side of the island for a length of about 450
-miles. The platinum is apparently derived from the decomposition of
-pegmatite. It is rarely found pure, being usually coated with iron
-oxide, and strongly magnetic, a property which is utilized in the
-process of separation from the gold[63].
-
-
- NORTH AMERICA
-
-
- MEXICO
-
-Platinum has been shown to exist in the states of Guerrero and Hidalgo
-in deposits of ferrous clays, which are of undoubted sedimentary origin,
-and are apparently laterites. The metal exists in a very finely
-disseminated state, invisible to the naked eye[64].
-
-
- UNITED STATES
-
-At the beginning of the war there was a considerable shortage of
-platinum in the country, caused partly by the falling-off of the
-imports, and in part owing to the increased demand in connexion with
-munition manufacture.
-
-California is the principal producer of crude platinum, and in 1917 this
-State supplied 460 oz. out of the total output of 605 oz.; with the
-exception of a few ounces from the State of Washington, Alaska and
-Oregon provided the balance.
-
-A considerable quantity of foreign crude and manufactured platinum is
-imported annually, as shown in the following tables:
-
-
- _Imports of Manufactured Platinum into the United States_
-
- (In troy oz.)
- ──────────────────────┬──────┬──────┬──────┬──────┬──────┬──────┬──────
- │1912. │1913. │1914. │1915. │1916. │1917. │1918.
- ──────────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- _From British │ │ │ │ │ │ │
- countries_: │ │ │ │ │ │ │
- Canada │ 777│ 582│ 55│ 139│ 511│ 332│ 253
- United Kingdom │19,169│16,595│ 6,476│ 7,692│ 9,513│ 3,195│ 357
- Other British │ │ │ │ │ │ │
- countries │ 4│ │ │ │ 5│ │ 25
- ──────────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Total, British │ │ │ │ │ │ │
- countries │19,950│17,177│ 6,531│ 7,831│ 9,569│ 3,527│ 635
- ──────────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- _From foreign │ │ │ │ │ │ │
- countries_: │ │ │ │ │ │ │
- France │25,723│24,519│16,570│ 3,480│ 3,395│ 2,507│ 814
- Germany │22,673│29,075│30,015│ 2,350│ 10│ │
- Netherlands │ │ │ │ │ 159│ │
- Norway │ │ │ 258│ │ │ 120│
- Russia (European) │ │ │ 815│ │ │ │
- Colombia │ │ │ │ 480│ │ 207│ 1,665
- Other foreign │ │ │ │ │ │ │
- countries │ │ │ │ 63│ 512│ 57│ 3
- ──────────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Total, foreign │ │ │ │ │ │ │
- countries │48,396│53,594│47,658│ 6,373│ 4,076│ 2,891│ 2,482
- ──────────────────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Grand total, oz. │68,346│70,771│54,189│14,204│13,645│ 6,418│ 3,117
- ──────────────────────┴──────┴──────┴──────┴──────┴──────┴──────┴──────
-
-
- _Imports of Crude Platinum into United States_
-
- (In troy oz.)
- ───────────────┬────────┬──────┬──────┬──────┬──────┬──────┬──────┬──────
- │1911[N].│1912. │1913. │1914. │1915. │1916. │1917. │1918.
- ───────────────┼────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- _From British │ │ │ │ │ │ │ │
- countries_: │ │ │ │ │ │ │ │
- Canada │ 554│ 45│ 314│ 535│ 139│ 91│ 25│ 76
- United │ │ │ │ │ │ │ │
- Kingdom │ 28,153│19,951│ 8,368│ 7,084│ 6,805│36,703│ 1,561│ 1,073
- Other British│ │ │ │ │ │ │ │
- possessions│ │ 7│ │ │ 5│ │ │ —
- ───────────────┼────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Total, British │ │ │ │ │ │ │ │
- countries │ 28,707│20,003│ 8,682│ 7,619│ 6,949│36,794│ 1,586│ 1,149
- ───────────────┼────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- _From foreign │ │ │ │ │ │ │ │
- countries_: │ │ │ │ │ │ │ │
- France │ 44,964│10,178│ 7,284│ 4,921│ 3,507│13,014│ 52│ 166
- Germany │ 37,041│15,335│23,345│15,105│ 2,366│ │ │ —
- Norway │ │ │ 200│ 442│ 285│ 302│ │ —
- Panama │ │ │ │ 160│ 105│ 92│ 12│ 372
- Brazil │ │ │ │ │ │ 118│ 103│ 27
- Chile │ │ 9│ │ │ │ │ 766│ 3
- Colombia │ 5,503│ 6,627│10,461│12,387│13,121│25,588│21,071│25,365
- Other foreign│ │ │ │ │ │ │ │
- countries │ 17│ 13│ │ │ 1│ 103│ 99│21,663
- ───────────────┼────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Total, foreign │ │ │ │ │ │ │ │
- countries │ 87,525│32,162│41,290│33,015│19,385│39,217│22,103│47,596
- ───────────────┼────────┼──────┼──────┼──────┼──────┼──────┼──────┼──────
- Grand total, │ │ │ │ │ │ │ │
- oz. │ 116,232│52,165│49,972│40,634│26,334│76,011│23,689│48,745
- ───────────────┴────────┴──────┴──────┴──────┴──────┴──────┴──────┴──────
-
-Footnote N:
-
- Including manufactured platinum.
-
-In 1917, 38,831 oz. of refined platinum metals, of which 7,384 oz. is
-believed to have been of domestic origin, were recovered from alloy with
-other metals, and 72,186 oz. were obtained from the refining of scrap
-metal, and sweepings. The shortage was also to some extent relieved by
-the receipt from Russia early in 1918 of a special consignment of 20,922
-oz. of crude platinum, which had been collected in 1917 by the
-Russian-English Bank, and which was taken out of Russia by F. W. Draper
-and delivered to the United States Government. It yielded 17,640 oz.
-platinum, 64·75 oz. palladium, 182·11 oz. iridium and 48·56 oz. of
-rhodium, a total of 85·725 per cent. of platinum metals, slightly above
-the usual 83 per cent.[65].
-
-_Alaska._—The first production of platinum in Alaska was in 1916, in
-which year about 12 oz. were shipped to the United States. In 1917 the
-output rose to 81 oz., of which 66 oz. were obtained from the Seward
-Peninsula and 15 oz. from the Copper River country.
-
-In 1918 an increased output of 135 oz. was partly obtained from alluvial
-deposits and partly as a by-product in the treatment of copper ore of
-the Salt Chuck mine, Ketchikan[66].
-
-This mine is a palladium-copper mine containing mainly bornite with a
-little chalcopyrite, and the alteration products covellite and
-chalcocite, the metals present being, besides copper and palladium,
-gold, silver and platinum. The ratio of palladium to platinum averages
-50 to 1. The concentrates produced, representing about 3½ per cent. of
-the weight of the ore, contain: copper, 40 per cent.; gold, 1·2 oz.;
-silver, 5·3 oz.; and platinum metals, 3·15 oz. per ton[67].
-
-In the Seward Peninsula the larger portion is derived from placer
-deposits in Dyme Creek, Koyuk district, where the gravels are primarily
-worked for gold, 1 oz. platinum being obtained for every $5,000 worth of
-gold. In 1918, 56 oz. were recovered. Bear Creek and Sweepstake Creek
-have also supplied small quantities of platinum, and a little is derived
-from placers on Boob Creek, in the Tolstoi district [50] p. 19.
-
-A possible source of platinum appears to lie in the neighbourhood of the
-Red Mountain, on the Kenai Peninsula. The mountain is composed of
-fine-grained dunite, in which abundant chromite occurs. Up to 1917 no
-placer mining had been attempted in this locality[68].
-
-In the Goodro Mine, at the head of Kasaan Bay, Prince of Wales Island,
-were found in 1918 both platinum and palladium, the latter in greater
-amount, and carried in bornite and chalcopyrite; some chalcocite and
-covellite are present also in the ore. The copper minerals are
-disseminated through pyroxenite, and the country rock consists of
-limestones, slates and other sedimentaries. The platinum content is
-small, but regular, whilst the amount of palladium present is
-proportional to the amount of copper, there being about 1 oz. of
-palladium to every 8 to 12 per cent. (units) of copper[69].
-
-A Bill has been introduced into Congress providing for the incorporation
-of the United States Platinum Corporation, with capital stock of
-$30,000,000, the object of which is to secure a concession from the
-Government of land areas in Alaska containing platinum sands, and to pay
-for such privilege, as a royalty or subsidy, one-eighth of the net
-profits obtained from the working of the concession[70].
-
-_California and Oregon._—Platinum has been proved to exist over a wide
-area in placer deposits associated with gold, but the proportion of the
-platinum metals to the gold is usually small. Platinum is obtained from
-sands in streams rising in the belt of serpentine rocks in central
-California, and from the serpentine areas in the Siskiyou and Trinity
-counties in the north-west of the State, which continue north-east into
-Curry, Josephine and Jackson counties in south-western Oregon[52] p.
-300. The sources of the platinum obtained along the foot-hills of the
-Sierra Nevada were old stream channels on the western slopes of the
-mountains, which are now buried beneath lava several hundred feet deep.
-These “deep leads” are also mined by drifting for their gold and
-platinum contents, and in a few cases a fair amount of the metals is
-extracted from them. Some platinum is obtained by hydraulic mining, but
-this is carried on with difficulty, owing to the prevailing scarcity of
-water[50] p. 18.
-
-Platinum occurs in black sands found on the Pacific coast in the
-counties of Coos, Curry and Josephine, Oregon and Del Norte, California.
-Formerly these beach deposits were rich in platinum, but at the present
-small quantities only are obtainable after stormy weather. This area has
-recently been examined by the United States Bureau of Mines, but the
-results were disappointing.
-
-In California most of the output of platinum is produced by dredging for
-gold in the Butte, Calaveras and Stanislaus counties[50] p. 19. In
-Trinity county mining is in progress on the Trinity River, about 4 miles
-below Junction City, by the Valdos Dredging Co. The output from this
-source for sixteen months in 1916–17 was stated to be 1,950 gm.
-Platinum, with gold and osmiridium, is also obtained on the Yuba River,
-about 12 miles east of Marysville in Yuba county, by the Yuba
-Consolidated Goldfields[10] p. 540. Some alluvial platinum has been
-recovered at the Bean Hill Gold Mine, situated 12 miles south-east of
-Placerville, and this locality is at present under investigation[71].
-Californian metal contains from 25 to 45 per cent. iridium. Its origin
-is believed to be the serpentine- and olivine-bearing rocks of the
-Sierra Nevada and other ranges.
-
-In Oregon, in addition to the platinum obtained from the beach deposits
-near Bullards and Marshfield[50] p. 20, it occurs in placer deposits,
-rich in chromite, in south-west Oregon, the principal output being
-derived from the Waldo district.
-
-Platinum also exists in small quantities in streams in the neighbourhood
-of the Blue Mountains, eastern Oregon, where the Powder River Gold
-Dredging Co., in Sumpter district, produces on a small scale. Other
-platiniferous localities in eastern Oregon are the Granite and Canyon
-districts, and Spanish Gulch in Wheeler county[10] p. 541.
-
-_Colorado._—Platinum is known to exist in the black sands from Clear
-Creek. Its presence has also been reported in the gold gravels of the
-Iron Hill placer at Como, where it occurs mechanically combined with
-magnetite. Another occurrence recently discovered is in a vein worked by
-the Rollcall Mining Co., near Villa Grove. An assay of material from
-this vein, taken at a depth of 1,500 ft., showed the following values:
-gold, 3·2 oz.; platinum, 5·09 oz.; silver, 3·05 oz.; and copper, 3·5 per
-cent.[9] p. 592.
-
-_Nevada._—In 1909 the occurrence of platinum in Clark county was noticed
-by the United States Geological Survey to be in association with copper,
-nickel and cobalt ores from the Key West and Great Eastern Mines, near
-Bunkerville. The ore bodies are contained in pegmatites and basic
-intrusions, which carry pyrrhotite and chalcopyrite, the platinum
-content in the ore averaging about 0·2 oz. per ton[72].
-
-In 1914 platinum, with palladium, was discovered at the Boss Gold Mine,
-situated 10 miles west of Goodsprings, in Clark county. The mine was
-originally worked for copper, and later for its copper and gold
-contents. The country rock consists of limestone of middle Carboniferous
-age, intruded by sills of quartz monzonite porphyry, the ore bodies
-occurring in a fault zone in the limestone. The copper ores comprise
-mainly chrysocolla and malachite, and contain traces only of platinum.
-The gold ore occurs in a fine-grained siliceous matrix, containing a
-bismuth-bearing variety of _plumbo-jarosite_ (a hydrous sulphate of iron
-and lead). The rare metals are present in the free state, being
-apparently alloys of gold, platinum and palladium[73].
-
-In 1919 the Boss Mine shipped $22,365 worth of platinum-bearing ore[74].
-A plant of 300 tons monthly capacity has recently been erected at Los
-Angeles, California, for the treatment of its complex ores, which
-average 7 per cent. of copper, 4 per cent. bismuth, and 1·0 oz. of
-platinum and palladium, 0·75 oz. of gold, and 3 oz. of silver per ton.
-The pulp from ore pulverized to 80 mesh is agitated with sulphuric acid
-(2 per cent.). The acid solution contains the copper and about 20 per
-cent. of the platinum. The copper is precipitated as cement copper,
-together with the platinum, by means of scrap-iron. The remainder of the
-platinum, together with the gold and silver, is first leached with, and
-then precipitated from, a neutral solution of calcium chloride. The
-inventors of the process claim that approximately 92 per cent. of the
-copper, 96 per cent. of the platinum metals, gold and silver, and over
-90 per cent. of the bismuth are recovered by this process[75].
-
-Metals of the platinum group have recently been shown to exist in small
-quantities in the ore of the Oro Amigo Mine, situated between 1 and 2
-miles north-east of the Boss Mine. This ore differs from that of the
-Boss Mine, in that bismuth and plumbo-jarosite are absent. According to
-H. K. Riddell, the platinum metals content averages from a trace to 0·1
-oz. per ton of ore.
-
-_North Carolina._—At Mason Mountain, in Mason county, platinum occurs
-associated with rhodonite, garnet, biotite and iron sulphides in
-metamorphic deposits.
-
-_New York._—It was reported a few years ago that platinum existed in
-large quantities in alluvial sands of the Adirondack region. J. M.
-Clarke, the New York State Geologist, examined the occurrence in 1917,
-and found that platinum was present in traces only, the deposits being
-of no economic importance [10] p. 541.
-
-_Pennsylvania._—At Lancaster county platinum is associated with pyrite,
-chalcopyrite and galena in mica-schist, and also at Boyertown in black
-Triassic shale.
-
-_Washington._—The production of platinum on a small scale has been
-reported from beach deposits at the mouth of the south fork of the Lewis
-River near Yacolt, and also on beaches southward from the Straits of
-Juan de Fuca[10] p. 542. The metal has also been located at various
-places in the Cascade Mountains in the central part of the State.
-
-_Wyoming._—Palladium and platinum, in the proportion of 3 to 1, are
-obtained at the Rambler Mine, in Albany county, the metals occurring as
-sperrylite in copper ore, contained in the kaolinized portion of a
-dunite dyke, intrusive into granite gneiss. The ore consists of
-covellite, chalcocite, chalcopyrite and tetrahedrite, with nickel and
-gold[76]. It is stated that the platinum and palladium contents vary
-directly with the percentage of copper present, a typical assay giving
-the following values: copper, 5 per cent.; gold, 0·02 oz.; silver, 1
-oz.; palladium, 0·4 oz.; and platinum, 0·6 oz. per ton[77].
-
-_Utah._—Platinum and gold in very fine particles occur in the Green
-River, east of Vernal; also in the Colorado River, near Hite, below the
-mouth of the Green River. Attempts to mine these deposits have so far
-proved unsuccessful, due largely to the inaccessibility of the region,
-as well as the finely-divided condition of the platinum[42] p. 11.
-
-
- SOUTH AMERICA
-
-
- BRAZIL
-
-José Vieira do Couto, in 1801, first pointed out that platinum occurs in
-the sands of the Lages River, near Conceiçao, Minas Geraes. According to
-E. Hussak[78], platinum in that region occurs only in the alluvium of
-rivers having their rise on the eastern slope of the Serra do Espinhaço.
-The platinum is accompanied by black pebbles of quartz-tourmaline rocks,
-magnetite, hematite, rutile, octahedrite, xenotime, monazite, senaite,
-pseudomorphs of rutile after octahedrite (_captivos_), zircon and gold,
-which is sometimes of a copper-red colour (palladium-gold). Palladic
-gold was formerly called _ouro branco_ (white gold), by the miners.
-
-At Condado, further north on the eastern slope of the same Serra,
-platinum also occurs with very similar associations. The platinum from
-both localities occurs in bunchy, mammillated and globular forms,
-concave within, with thin walls, having a radiated fibrous structure
-under the microscope. It is frequently in thin foliated crusts, having
-the characteristic structure of hematite. It was accurately described by
-Wollaston in 1805 and 1809. Hussak thinks the primary formation was an
-olivine rock, or gabbro, while the platinum is secondary, having been
-most probably re-deposited from solutions resulting from the
-decomposition of platiniferous pyrites or of sperrylite (PtAs_{2}),
-minerals derived, possibly, from the neighbouring schistose quartzite,
-or from the overlying conglomeratic quartzite.
-
-The platinum of Condado, although comparable, as regards density, to the
-Russian platinum, is very rich in palladium, is non-magnetic and
-contains practically no iron. An analysis by G. Florence gave the
-following percentages: insoluble residue, 0·92; platinum, 73·99;
-iridium, 0·08; palladium, 21·77; iron, 0·10 (= 96·86), undetermined
-(rhodium and osmium), 3·14.
-
-In the Rio Abaeté, Minas Geraes, platinum—very different in appearance
-and chemical composition from that of the Serra do Espinhaço—occurs in
-placer deposits, associated with gold, diamonds and the following
-minerals: rolled pieces of a hydro-phosphate of barium and aluminium
-(_gorceixite_ = “marumbé” of miners), garnet, almandite, pyrope,
-ashy-blue oxide of titanium (_bagageira_—regarded as a good indicator
-for diamonds), magnetite, chromite and calcium-titanate (_perovskite_).
-Pyroxene-olivine rock, a typical picrite-porphyry, rich in perovskite,
-and granular magnetite rocks, rich in titanium, have been observed by
-Oliveira in the vicinity. Hence it is highly probable that the platinum,
-as in the Urals, came from olivine rocks. The platinum occurs in thin
-laminæ, strongly rolled, and, rarely, in cubical crystals with the edges
-visibly rounded. It is strongly magnetic and contains no palladium.
-Minute crystals of osmiridium may occur with those of platinum, and in
-the platinum particles are found regular inclusions of osmiridium, as at
-Nizhne Turinsk, in the Urals, the platinum of which locality it
-resembles in chemical composition, magnetic properties and crystalline
-structure. The following analysis shows the percentage and composition
-of a general sample: insoluble residue, 7·57; iron, 9·62; palladium,
-trace; copper, trace; platinum metals, 82·81.
-
-The auriferous alluvial of the Cuyabá and Coxim rivers in the southern
-part of the State of Matto-Grosso, also contain some platinum. According
-to Luiz Caetano Ferraz[79], platinum occurs in the River Coxipó-Mirim,
-where golddredging is carried on, combined with palladium, iron, osmium
-and iridium in small spherical grains, flattened on one side, of a
-brilliant white colour and strongly magnetic. It is found in alluvial
-deposits, associated with various kinds of quartz and oxides of iron,
-marcasite, arsenopyrite, rutile, anatase, almandine, garnet, black
-tourmaline, monazite, staurolite, white topaz, sphene, cassiterite,
-wolfram, graphite, galena and native silver.
-
-In the State of Bahia, platinum has been found in Ituassú, Feira de S.
-Anna and Serra do Assuruá, and it is said to occur at Sâo Bartholomeu,
-and in the Serras do Pitango and Macahubes[80].
-
-Platinum also occurs in Brazil as rare disseminations in the
-gold-bearing _jacutinga_, intercalated in the itabirites (e.g. at Gongo
-Socco Mine, long since abandoned). The jacutinga occurs as narrow bands
-and nuclei in the itabirites, containing a high percentage of gold, with
-much talc, clay and pulverulent pyrolusite. As accessory minerals
-zircon, rutile, cassiterite and tourmaline occur. Hussak thinks that the
-gold-bearing jacutinga has been derived from altered pegmatite veins.
-
-From analyses made by Johnson (1833–41) on the Gongo Socco bullion, it
-would appear that the percentages of silver and platinum decreased while
-those of copper and palladium increased with depth (Henwood). The
-percentages of palladium varied from 3·89 to 4·80, and that of platinum
-from 0·04 to 0·12.
-
-At Candonga, gold occurs in an eruptive rock rich in magnetite enclosed
-in itabirite, and is probably of contact-metamorphic origin. The gold
-occurs in grains of high standard, and with it are found fine indented
-scales of palladic gold, of a bright copper-red colour.
-
-At Itabira do Matto Dentro gold occurs in jacutinga, lying between a
-micaceous iron schist, rich in quartz, and an enormous solid bed of
-itabirite. The palladium-gold may be copper-red, dark-brown or
-silver-white in colour. Native platinum also occurs with the gold.
-
-Grains of platinum have also been found in the most northerly of the
-auriferous lenticular masses, which occur near the Bruscus River, near
-Pernambuco, in Cambrian crystalline schists. The matrix is a coarse
-white quartz containing small quantities of the arsenides and sulphides
-of iron, and the sulphides of copper, lead and zinc.
-
-Platinum, although widely distributed in Brazil, occurs in such small
-quantities that so far there has been no production; but in the near
-future richer and more extensive deposits may be discovered, or it may
-be found practicable to win the metal from those already known, as an
-important by-product.
-
-Palladium-gold, or _porpezite_, is a natural alloy of palladium and
-gold, and may contain up to 10 per cent. of the former metal. It is
-found in Brazil, in gold-washings, and also in the gold-bearing
-jacutinga reefs at Gongo Socco, Candonga and Itabira do Matto Dentro. In
-1870 Henwood showed that the palladic gold from Gongo Socco contained,
-to a moderate depth from surface, from 0·04 to 0·12 per cent. of
-platinum. (Palladium-gold has also been reported from gold-washings in
-the Caucasus, near Batoum.) Ruer concludes, from an examination of the
-freezing-point curves of artificial alloys of gold and palladium, that
-these alloys form a continuous series of mixed crystals, and that there
-is no indication of chemical combinations[81].
-
-
- COLOMBIA
-
-This republic is the second largest producer of platinum in the world,
-and in pre-war years supplied about 5 per cent. of the world’s total
-output. Owing to the decline of the Russian supply, and the increased
-demand for the metal, the industry has in recent years received a
-considerable stimulus, and in 1916 Colombia’s production rose to
-approximately one-third of the Russian output.
-
-Platinum was first introduced into Europe from Colombia in 1735,
-although the metal was known in America for some time previously[48] p.
-608. In 1810 the value of platinum stood at $5 to $6 (U.S.) per oz., and
-in 1823 the price had further dropped to from $3 to $4 per oz. As a
-result, platinum was rejected as waste in the operation of refining gold
-by the “dry-blowing” system. Later, when platinum became valuable, much
-of this dumped metal was recovered, notably in Quibdo, the capital of
-the Chocó district, where much gold-refining was carried on.
-
-The following table gives the outputs of crude platinum from Colombia,
-in recent years, principally produced in the Chocó district:
-
-
- Year. Oz. (troy).
-
- 1911 12,000
- 1912 12,000
- 1913 15,000
- 1914 17,500
- 1915 18,000
- 1916 25,000
- 1917 32,000
- 1918 35,000 (estimated)
-
-The larger portion of the production is shipped to the United States,
-the exports to that country for the years 1910–18 being as follows:
-
-
- Year. Oz. (troy).
-
- 1910 1,600
- 1911 5,503
- 1912 6,627
- 1913 10,461
- 1914 12,387
- 1915 13,121
- 1916 25,588
- 1917 21,278
- 1918 27,030
-
-The crude platinum is estimated at 84 to 85 per cent. fine. The price in
-1917 fluctuated from £16 to £20 10_s._ per oz., the average for the year
-being nearer the latter amount.
-
-During 1918 the United States Government fixed the price at $105 per
-oz., which stimulated production.
-
-The deposits are alluvial, and consist of re-concentrates of older
-gravels. The principal source of supply is at the head of the San Juan
-River, which enters the Pacific Ocean north of Buenaventura, the richest
-deposits occurring in the Condoto, Opagado and Tamanal Rivers,
-tributaries of the San Juan[82]. Platinum is also obtained in the Upper
-Atrato River, which flows northward to the Caribbean Sea. It is nearly
-always found associated with gold. In the gravels of the San Juan River
-the two metals are present in about equal proportions, and in those of
-the Atrato the ratio is approximately 85 of gold to 15 of platinum.
-
-The area including the watersheds of the San Juan and Upper Atrato
-Rivers is known as the Chocó district. T. Ospina, Director of the
-Colombian School of Mines[83], estimates that in the area are 5,000 sq.
-miles of gold and platinum deposits, the Mira River forming the southern
-boundary of the area. In 1916 he estimated that there were in it
-68,000,000 c. yd. of actually profitable gravel, with a reserve of
-336,000,000 yd. of possibly profitable ground. Platinum has also been
-recovered in much smaller amounts on the Micay River in the Barbacoas
-district, near the frontier of Ecuador. The stream beds in which
-platinum occurs are those in which Tertiary conglomerates have become
-eroded; the river gravels about the areas underlain by that formation
-are barren. The conglomerates are composed of rounded boulders of basic
-rocks, such as diabase, melaphyre, peridotite and dunite[48] p. 620.
-
-At Novita Vieja, in the centre of the Chocó district, a bed of
-conglomerate 6 to 12 ft. thick has been laid bare, over an area 2½ miles
-long and ½ mile wide, through the sluicing away of the overlying sands.
-It contains 0·5 oz. of gold, and 0·5 oz. of platinum, per ton[84].
-According to Castillo, the parent rock is a typical gabbro, pyroxene
-predominating over the felspar[85] p. 826.
-
-Platinum has been found in the Chocó district in serpentine rock.
-Granite also occurs in the same district, traversed by quartz lodes
-containing palladium, iridium, osmium and rhodium.
-
-Colombian crude platinum contains from 80 to 85 per cent. platinum, the
-remaining 15 to 20 per cent. consisting chiefly of iridium and osmium.
-The sands in which it occurs are described as brown in colour, and
-carrying, besides platinum and gold, the heavy minerals chromite,
-magnetite and ilmenite [85] p. 384.
-
-In the past, mining operations have been very irregularly carried on, by
-primitive methods of working, but dredges are now being employed in
-increasing numbers. In 1915 a dredge was operated on the Condoto River,
-in the province of Chocó, by the Anglo-Colombian Development Company,
-and showed good results. Native methods of working are very simple. The
-alluvial gravels derived from dried-up beds of ancient rivers are
-hand-washed with the use of the _batea_ or dish. Where the metal occurs
-in the bed of a river it is obtained by diving girls, who work down to
-the platiniferous gravels, removing the gravel in small dishes, the men
-being employed in washing the gravels on the river banks[86]. About 90
-per cent. of the total output is recovered by these primitive methods.
-
-A large portion of the industry is in the hands of two companies, one of
-which is the South American Gold and Platinum Company, of New York, a
-Lewisohn company, which has absorbed the interests of the
-above-mentioned Anglo-Colombian Development Company, Ltd., the Gold
-Fields American Development Company, Ltd., and Johnson, Matthey & Co.,
-Ltd., of London. The second company—the British Platinum and Gold
-Corporation, Ltd.—has recently amalgamated with the Paris (Transvaal)
-Gold Mines, Ltd., taking in the latter’s interests on the Opogodo and
-other places.
-
-The question of transporting platinum concentrate to the coast is not a
-matter of much difficulty, as the Atrato River is navigable as far as
-Quibdo, and the San Juan can be ascended by vessels of moderate draught
-for over 140 miles inland.
-
-An estimate of average working costs appears to be 6_d._ per c. yd. for
-dredging, and 3_d._ for hydraulicking[87]. In 1917 new platiniferous
-deposits were discovered in the Caceres district, between the Cauca and
-Nechi Rivers, in the department of Antioquia. The mineralized area
-extends along the Caceri River, a distance of 14¼ miles, the width at
-the north end being 1¼ miles, and 300 ft. at the southern extremity [10]
-p. 545.
-
-
- ECUADOR
-
-Platinum occurs, in association with the gold obtained from steam
-gravels, in the area covered by the Rivers Bogota, Cachabi, Uimbi,
-Santiago and Cayapas, but it has not so far been found in sufficient
-quantities to be of economic importance.
-
-Dredging has been employed in mining these deposits, but does not appear
-to have been a success, and operations are now largely confined to
-native washings[88].
-
-
- FRENCH GUIANA
-
-Platiniferous gold-bearing sands are found in the Aporuague River, the
-metal, according to an analysis by A. Danmer, having the following
-composition in percentages: platinum, 41·96; gold, 18·18; silver, 18·39;
-copper, 20·56[89].
-
-
-
-
- WORLD MAP OF PLATINUM DEPOSITS
-
-
-[Illustration:
-
- MAP SHOWING THE PLATINUM-BEARING DISTRICTS REFERRED TO IN THE TEXT.
-
- (British Empire and Protectorates shaded.)
-]
-
-
-
-
- REFERENCES TO LITERATURE ON THE PLATINUM METALS
-
-
------
-
-Footnote 1:
-
- Lindgren, W.: “Platinum and Allied Metals,” _U.S. Geol. Surv., Min.
- Res. of U.S._, 1911.
-
-Footnote 2:
-
- Thomas and MacAlister: _The Geology of Ore Deposits_, London, 1909.
-
-Footnote 3:
-
- Gowland, W.: _Metallurgy of Non-Ferrous Metals_, London, 1918.
-
-Footnote 4:
-
- Dunstan, B.: _Queensland Govt. Min. Journ._, 1917, =18=.
-
-Footnote 5:
-
- Lindgren, W.: “Platinum and Allied Metals,” _U.S. Geol. Surv., Min.
- Res. of U.S._, 1910.
-
-Footnote 6:
-
- Rose, T. K.: “Electrolytic Refining of Gold,” _Trans. Inst. Min. and
- Met._, 1914–15, =24=, p. 45.
-
-Footnote 7:
-
- Hill, Jas. M.: “The Platinum Situation,” _Eng. Min. Journ._, July 26,
- 1919.
-
-Footnote 8:
-
- Hautpick, E. de: _Mining Journ._, Feb. 1, 1913.
-
-Footnote 9:
-
- _Mineral Industry_, 1916, =25=.
-
-Footnote 10:
-
- _Mineral Industry_, 1917, =26=.
-
-Footnote 11:
-
- _Review of Foreign Press, Technical Supplement_, War Office, May 27,
- 1919, p. 395.
-
-Footnote 12:
-
- _Mining Journ._, Dec. 27, 1919.
-
-Footnote 13:
-
- _Chem. and Met. Eng._, Oct. 15, 1918, p. 607.
-
-Footnote 14:
-
- Hill, Jas. M.: “Platinum Deposits of the World,” _Eng. Min. Journ._,
- June 30, 1917.
-
-Footnote 15:
-
- Merz, A. R.: _Journ. Ind. and Eng. Chem._, Nov. 1918, =10=, No. 11.
-
-Footnote 16:
-
- _Annual Statements of Trade of the United Kingdom._
-
-Footnote 17:
-
- Spurr, J. E.: “Who Owns the Earth?” _Eng. Min. Journ._, Feb. 7, 1920.
-
-Footnote 18:
-
- _Records Geol. Surv. of India_, 1916, =47=, pt. 3, p. 163.
-
-Footnote 19:
-
- _Records Geol. Surv. of India_, 1919, =50=, pt. 3, p. 156.
-
-Footnote 20:
-
- _Records Geol. Surv. of India_, 1915, =46=, p. 284.
-
-Footnote 21:
-
- Zealley, A. E. V.: _South Rhod. Geol. Surv., Short Rept._ No. 3, March
- 20, 1918.
-
-Footnote 22:
-
- _Bull. Imp. Inst._, 1907, =5=, p. 137.
-
-Footnote 23:
-
- “Geology of the Selukwe Mineral Belt,” _Geol. Surv. Bull. South
- Rhod._, 1919, No. 3, p. 65.
-
-Footnote 24:
-
- Versfield, W.: Rept. on Metal Resources of Union of S. Africa, 1918.
-
-Footnote 25:
-
- Goodchild, W. H.: _Trans. Inst. Min. and Met._, 1916–17, =26=.
-
-Footnote 26:
-
- Bettel, W.: _S. African Mines_, Nov. 10, 1916.
-
-Footnote 27:
-
- Hall, A., and Humphrey, W. A.: “The Chromite Deposits of the Bushveld
- Plutonic Complex,” _Trans. Geol. Soc. S. Africa_, 1908, =11=, pp.
- 75–6.
-
-Footnote 28:
-
- _Mining Journ._, Feb. 29, 1913.
-
-Footnote 29:
-
- Mackenzie, G. C.: _Can. Min. Inst. Bull._, April 1919.
-
-Footnote 30:
-
- Camsell, C.: _Mining Journ._, May 1914, p. 523.
-
-Footnote 31:
-
- Uglow, W. L.: “Geology of Platinum Deposits,” _Eng. Min. Journ._, Aug.
- 30, 1919; Sept. 6, 1919.
-
-Footnote 32:
-
- _Chem. Trade Journ._, 1911, =49=, p. 271.
-
-Footnote 33:
-
- _Min. Sci. Press_, April 10, 1920, p. 536.
-
-Footnote 34:
-
- _Board of Trade Journ._, 1917, =99=, p. 156.
-
-Footnote 35:
-
- _Can. Min. Journ._, 1916, =37=, p. 548.
-
-Footnote 36:
-
- _Can. Min. Inst. Bull._, 1918, No. 63, p. 99.
-
-Footnote 37:
-
- _Geol. Surv. of Canada, Min. Res. of Canada_, 1903, No. 818.
-
-Footnote 38:
-
- _Board of Trade Journ._, April 17, 1919, p. 504.
-
-Footnote 39:
-
- Howley, G. P.: _Mining World_, 1907, =26=, p. 783.
-
-Footnote 40:
-
- _N.S.W. Dept. of Mines, Ann. Rept. for 1918_, p. 52.
-
-Footnote 41:
-
- _N.S.W. Dept. of Mines, Ann. Rept. for 1915_, p. 59.
-
-Footnote 42:
-
- Hill, Jas. M.: “Platinum and Allied Metals in 1916,” _U.S. Geol.
- Surv._, July 12, 1917.
-
-Footnote 43:
-
- _Rec. of Geol. Surv. N.S.W._, 1916, =9=, pt. 3, p. 127.
-
-Footnote 44:
-
- _Min. and Sci. Press_, April 10, 1919.
-
-Footnote 45:
-
- Bell, G. M.: _Economic Geology_, 1906, =1=, No. 8, p. 749.
-
-Footnote 46:
-
- _Mineral Industry_, 1914, =23=.
-
-Footnote 47:
-
- Krusch, P.: “The Platinum Deposits of Germany’s Palæozoic” (trans. by
- F. S. Schmidt), _Min. and Sci. Press_, 1914, =109=, p. 880.
-
-Footnote 48:
-
- _Pan-American Union_, 1917, =45=.
-
-Footnote 49:
-
- _Mining Journ._, 1904, =76=, p. 597.
-
-Footnote 50:
-
- Hill, Jas. M.: “Platinum and Allied Metals in 1917,” _U.S. Geol.
- Surv., Min. Res._, 1917, pt. 1, p. 11.
-
-Footnote 51:
-
- Vissotzki, N.: _Bull. du Comité géologique_, St. Petersburg, =22=,
- 1903 (abstract in _Trans. Inst. M.E._, 1903, =27=, p. 660).
-
-Footnote 52:
-
- Hill, G. M.: _U.S. Comm. Repts._, 1917, No. 94.
-
-Footnote 53:
-
- Duparc, L.: _Soc. Ings. Civils, France, Mem. 1916, Bull._ Janv.-Mars.
-
-Footnote 54:
-
- Ball, S. H., and Low, B.: _Eng. and Min. Journ._, March 10, 1917, p.
- 407.
-
-Footnote 55:
-
- Tovey, L.: _Eng. and Min. Journ._, Oct. 10, 1908, p. 704.
-
-Footnote 56:
-
- _Chem. Trade Journ._, 1917, =60=, No. 1,562, p. 362.
-
-Footnote 57:
-
- _Eng. and Min. Journ._, Mar. 6, 1920.
-
-Footnote 58:
-
- _Mineral Industry_, 1915, =24=, p. 580.
-
-Footnote 59:
-
- Posewitz, T.: _Geology and Mineral Resources of Borneo_, 1892 (trans.
- by F. H. Hatch).
-
-Footnote 60:
-
- _Mineral Industry_, 1913, =22=, p. 597.
-
-Footnote 61:
-
- Hundeshagen, L.: “The Occurrence of Platinum in Wollastonite, Sumatra,
- N.E.I.,” _Trans. Inst. Min. and Met., 1903–4_, =13=, p. 550–2.
-
-Footnote 62:
-
- Wada, Tsumashire: _Minerals of Japan_, 1904, p. 89 (trans. by Takudgi
- Okawa).
-
-Footnote 63:
-
- _Bull. Econ. de Madagascar_, 1912, No. 2, p. 86.
-
-Footnote 64:
-
- Hautpick, E. de: _Min. Journ._, July 27, 1912, =98=, p. 747.
-
-Footnote 65:
-
- _Mineral Industry_, 1918, =27=, p. 571.
-
-Footnote 66:
-
- _Eng. and Min. Journ._, Jan. 11, 1919, p. 107.
-
-Footnote 67:
-
- Mertie, J. B., Jr.: “The Salt Chuck Palladium-Copper Mine,” _Eng. and
- Min. Journ._, July 3, 1920.
-
-Footnote 68:
-
- Martin, Johnson and Grant: _U.S. Geol. Surv., 1917_, _Bull._ No. 587,
- p. 238.
-
-Footnote 69:
-
- Campbell, Donald G.: “Palladium in Alaskan Lode Deposits,” _Min. and
- Sci. Press_, Oct. 11, 1919.
-
-Footnote 70:
-
- _Board of Trade Journ._, Dec. 11, 1919, =103=.
-
-Footnote 71:
-
- _Min. and Sci. Press_, Mar. 15, 1919, p. 367.
-
-Footnote 72:
-
- Hall, F. A.: _Eng. and Min. Journ._, Oct. 10, 1914, p. 642.
-
-Footnote 73:
-
- Knopf, A.: _Min. and Sci. Press_, June 5, 1915, p. 878.
-
-Footnote 74:
-
- _Chem. and Met. Eng._, March 24, 1920.
-
-Footnote 75:
-
- _Min. and Sci. Press_, March 9, 1920.
-
-Footnote 76:
-
- _Eng. and Min. Journ._, May 25, 1905, p. 985.
-
-Footnote 77:
-
- Taft, H. H.: _Eng. and Min. Journ._, 1918, =106=, No. 21, p. 900.
-
-Footnote 78:
-
- Hussak, Euginio: “O Palladio e a Platina no Brasil,” _Annas da Escola
- de Minas de Ouro Preto_, 1916, No. 8, 85–188.
-
-Footnote 79:
-
- Ferraz, Luiz Caetano: _Annas da Escola de Minas de Ouro Preto_, 1909,
- No. 11.
-
-Footnote 80:
-
- Carneiro, A. J. de Sousa: _Riquezas Mineraes do Estado da Bahia_,
- 1908.
-
-Footnote 81:
-
- Maclaren, J. M.: _Gold: Its Geological Occurrence and Geographical
- Distribution_, London, 1908, p. 25.
-
-Footnote 82:
-
- _Journ. of the Royal Society of Arts_, 1908, =56=, p. 884.
-
-Footnote 83:
-
- Ospina, T.: Paper read before second Pan-American Congr., Jan. 3,
- 1916.
-
-Footnote 84:
-
- White, R. W.: _Eng. and Min. Journ._, 1897, =63=, p. 189.
-
-Footnote 85:
-
- Castillo, J. C.: _Min. and Sci. Press_, 1909, =98=.
-
-Footnote 86:
-
- “Platinum-seeking in Colombia,” _The Times_, Nov. 26, 1912.
-
-Footnote 87:
-
- _Mining Journ._, Nov. 30, 1918, p. 700.
-
-Footnote 88:
-
- Millar and Singewald: _Mineral Deposits of South America_, New York,
- 1919, p. 405.
-
-Footnote 89:
-
- Kunz, George F.: “Platinum and Palladium in Brazil,” _Pan-American
- Bull._, April 1919, p. 408.
-
-Footnote 90:
-
- _U.S. Comm. Repts._, 1919, No. 21, p. 387.
-
-
- PRINTED BY
- HAZELL, WATSON AND VINEY, LD.,
- LONDON AND AYLESBURY,
- ENGLAND.
-
-------------------------------------------------------------------------
-
-
-
-
- TRANSCRIBER’S NOTES
-
-
- 1. Footnote [90] (was 64) was unanchored.
- 2. P. 59, added missing title “WORLD MAP OF PLATINUM DEPOSITS.”
- 3. Silently corrected typographical errors and variations in spelling.
- 4. Archaic, non-standard, and uncertain spellings retained as printed.
- 5. Footnotes were re-indexed using numbers and collected together at
- the end of the last chapter.
- 6. Enclosed italics font in _underscores_.
- 7. Enclosed bold font in =equals=.
- 8. Subscripts are denoted by an underscore before a series of
- subscripted characters enclosed in curly braces, e.g. H_{2}O.
-
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-<div style='text-align:center; font-size:1.2em; font-weight:bold;'>The Project Gutenberg eBook of The platinum metals, by A. D. Lumb</div>
-<div style='display:block;margin:1em 0'>
-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 <a href="https://www.gutenberg.org">www.gutenberg.org</a>. If you
-are not located in the United States, you will have to check the laws of the
-country where you are located before using this eBook.
-</div>
-<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Title: The platinum metals</div>
-<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Author: A. D. Lumb</div>
-<div style='display:block;margin:1em 0'>Release Date: December 22, 2020 [eBook #64068]</div>
-<div style='display:block;margin:1em 0'>Language: English</div>
-<div style='display:block;margin:1em 0'>Character set encoding: UTF-8</div>
-<div style='display:block; margin-left:2em; text-indent:-2em'>Produced by: Richard Tonsing and the Online Distributed Proofreading Team at https://www.pgdp.net (This file was produced from images generously made available by The Internet Archive)</div>
-<div style='margin-top:2em;margin-bottom:4em'>*** START OF THE PROJECT GUTENBERG EBOOK THE PLATINUM METALS ***</div>
-
-<div class='tnotes covernote'>
-
-<p class='c000'><b>Transcriber’s Note:</b></p>
-
-<p class='c000'>The cover image was created by the transcriber and is placed in the public domain.</p>
-
-</div>
-
-<div class='section ph2'>
-
-<div class='nf-center-c0'>
-<div class='nf-center c001'>
- <div><span class='color_red'>This ebook (originally published in 1920) was created in honour of Distributed Proofreaders 20th Anniversary.</span></div>
- </div>
-</div>
-
-</div>
-
-<div class='section ph2'>
-
-<div class='nf-center-c0'>
-<div class='nf-center c001'>
- <div><span class='under'><i>IMPERIAL INSTITUTE</i></span></div>
- <div>MONOGRAPHS ON MINERAL RESOURCES</div>
- <div>WITH SPECIAL REFERENCE TO THE</div>
- <div>BRITISH EMPIRE</div>
- </div>
-</div>
-
-</div>
-
-<div class='nf-center-c0'>
-<div class='nf-center c002'>
- <div>PREPARED UNDER THE DIRECTION OF THE</div>
- <div>MINERAL RESOURCES COMMITTEE WITH THE</div>
- <div>ASSISTANCE OF THE SCIENTIFIC AND TECHNICAL</div>
- <div>STAFF OF THE IMPERIAL INSTITUTE</div>
- </div>
-</div>
-
-<div class='titlepage'>
-
-<div>
- <h1 class='c003'>THE PLATINUM METALS</h1>
-</div>
-
-<div class='nf-center-c0'>
-<div class='nf-center c002'>
- <div><span class='small'>BY</span></div>
- <div class='c004'>A. D. LUMB, A.R.S.M., F.G.S., Assoc. Inst. M.M.</div>
- <div><span class='small'>LATELY OF THE SCIENTIFIC AND TECHNICAL DEPARTMENT, IMPERIAL INSTITUTE</span></div>
- <div class='c004'><span class='small'>WITH A MAP</span></div>
- </div>
-</div>
-
-<div class='figcenter id001'>
-<img src='images/i_title.jpg' alt='' class='ig001' />
-</div>
-
-<div class='nf-center-c0'>
- <div class='nf-center'>
- <div>LONDON</div>
- <div class='c004'>JOHN MURRAY, ALBEMARLE STREET, W.</div>
- <div class='c004'>1920</div>
- </div>
-</div>
-
-</div>
-
-<div class='nf-center-c0'>
-<div class='nf-center c001'>
- <div><span class='sc'>All Rights Reserved</span></div>
- </div>
-</div>
-
-<div class='pbb'>
- <hr class='pb c004' />
-</div>
-<div class='chapter'>
- <span class='pageno' id='Page_v'>v</span>
- <h2 class='c005'>IMPERIAL INSTITUTE<br /> <span class='large'>MINERAL SECTION</span></h2>
-</div>
-
-<p class='c006'>The Imperial Institute is a centre for the exhibition and
-investigation of minerals with a view to their commercial
-development and for the supply of information respecting the
-sources, composition and value of minerals of all kinds.</p>
-
-<p class='c007'>The Imperial Institute is provided with Research Laboratories
-for the investigation, analysis and assay of minerals,
-and undertakes reports on the composition and value of minerals,
-for the information of Governments and producing companies
-and firms, in communication with the principal users in the
-United Kingdom and elsewhere in the Empire.</p>
-
-<p class='c007'>Important minerals from within the Empire are exhibited
-in the respective Courts of the Public Exhibition Galleries,
-and also in the Mineral Reference Collections of the Institute.</p>
-
-<p class='c007'>A special staff is engaged in the collection, critical revision
-and arrangement of all important information respecting
-supplies of minerals especially within the Empire, new methods
-of usage and other commercial developments.</p>
-
-<p class='c007'>Articles on these and related subjects are periodically
-published in the <cite>Bulletin of the Imperial Institute</cite>, and monographs
-on special subjects are separately published under the
-direction of the Committee on Mineral Resources.</p>
-
-<div class='chapter'>
- <span class='pageno' id='Page_vi'>vi</span>
- <h2 class='c005'>IMPERIAL INSTITUTE</h2>
-</div>
-
-<h3 class='c008'>Advisory Committee on Mineral Resources</h3>
-
-<p class='c009'>The Right Hon. <span class='sc'>Viscount Harcourt</span>, D.C.L. (<i>Chairman</i>).</p>
-
-<p class='c010'><a id='rA' /><a href='#fA' class='c011'><sup>[A]</sup></a>Admiral <span class='sc'>Sir Edmond Slade</span>, K.C.V.O., K.C.I.E. (nominated by
-the Admiralty), (<i>Vice-Chairman</i>).</p>
-
-<p class='c010'><span class='sc'>Edmund G. Davis</span>, Esq.</p>
-
-<p class='c010'><a href='#fA' class='c011'><sup>[A]</sup></a><span class='sc'>Wyndham R. Dunstan</span>, Esq., C.M.G., LL.D., F.R.S., Director
-of the Imperial Institute.</p>
-
-<p class='c010'><span class='sc'>J. F. Ronca</span>, Esq., M.B.E., A.R.C.S., Department of Industries
-and Manufactures (nominated by the Board of Trade).</p>
-
-<p class='c010'><a href='#fA' class='c011'><sup>[A]</sup></a>Professor <span class='sc'>J. W. Gregory</span>, F.G.S., Professor of Geology, University
-of Glasgow, formerly Director of Geological Survey, Victoria,
-Australia.</p>
-
-<p class='c010'>Sir <span class='sc'>Robert Hadfield</span>, Bart., F.R.S., Past-President Iron and
-Steel Institute.</p>
-
-<p class='c010'>Captain <span class='sc'>A. L. Elsworthy</span>, Intelligence Department, War Office
-(nominated by the War Office).</p>
-
-<p class='c010'><span class='sc'>W. W. Moyers</span>, Esq. (Messrs. A. Watson &amp; Co.), Liverpool.</p>
-
-<p class='c010'><span class='sc'>R. Allen</span>, Esq., M.A., B.Sc., Imperial Institute (<i>Secretary</i>).</p>
-
-<div class='footnote' id='fA'>
-<p class='c007'><a href='#rA'>A</a>. Members of Editorial Sub-Committee</p>
-</div>
-
-<h4 class='c008'>MINERAL SECTION</h4>
-
-<div class='nf-center-c0'>
-<div class='nf-center c004'>
- <div>Principal Members of Staff</div>
- <div class='c002'><i>Superintendent</i></div>
- <div class='c004'><span class='sc'>R. Allen</span>, M.A. (Cantab.), B.Sc. (Lond.), M.Inst.M.M.</div>
- <div class='c002'><i>Assistant Superintendent</i></div>
- <div class='c004'><span class='sc'>S. J. Johnstone</span>, B.Sc. (Lond.), A.I.C.</div>
- <div class='c002'><i>Senior Assistants</i></div>
- </div>
-</div>
-
-<div class='lg-container-b'>
- <div class='linegroup'>
- <div class='group'>
- <div class='line'><span class='sc'>G. M. Davies</span>, M.Sc. (Lond.), F.G.S.</div>
- <div class='line'><span class='sc'>W. O. R. Wynn</span>, A.I.C.</div>
- </div>
- </div>
-</div>
-
-<div class='nf-center-c0'>
- <div class='nf-center'>
- <div><i>Assistants</i></div>
- </div>
-</div>
-
-<div class='lg-container-b'>
- <div class='linegroup'>
- <div class='group'>
- <div class='line'><span class='sc'>S. Bann.</span></div>
- <div class='line'><span class='sc'>F. H. Bell.</span></div>
- <div class='line'><span class='sc'>H. Bennett</span>, B.Sc. (Lond.).</div>
- <div class='line'><span class='sc'>A. T. Faircloth.</span></div>
- <div class='line'><span class='sc'>R. C. Groves</span>, M.Sc. (Birm.).</div>
- <div class='line'><span class='sc'>E. Halse</span>, A.R.S.M., M.Inst.M.M.</div>
- </div>
- </div>
-</div>
-
-<div class='chapter'>
- <span class='pageno' id='Page_vii'>vii</span>
- <h2 class='c005'>PREFACE</h2>
-</div>
-
-<p class='c006'>The Mineral Resources Committee of the Imperial Institute
-has arranged for the issue of this series of Monographs on
-Mineral Resources in amplification and extension of those
-which have appeared in the <cite>Bulletin of the Imperial Institute</cite>
-during the past fifteen years.</p>
-
-<p class='c007'>The Monographs are prepared either by members of the
-Scientific and Technical Staff of the Imperial Institute, or by
-external contributors, to whom have been available the
-statistical and other special information relating to mineral
-resources collected and arranged at the Imperial Institute.</p>
-
-<p class='c007'>The object of these Monographs is to give a general account
-of the occurrences and commercial utilisation of the more
-important minerals, particularly in the British Empire. No
-attempt has been made to give details of mining or metallurgical
-processes.</p>
-
-<div class='lg-container-r'>
- <div class='linegroup'>
- <div class='group'>
- <div class='line in12'><span class='sc'>Harcourt</span>,</div>
- <div class='line'><i>Chairman Mineral Resources Committee</i>.</div>
- </div>
- </div>
-</div>
-
-<div class='lg-container-l'>
- <div class='linegroup'>
- <div class='group'>
- <div class='line'><span class='sc'>Imperial Institute, London, S.W.7.</span></div>
- <div class='line in12'><i>July 1920.</i></div>
- </div>
- </div>
-</div>
-
-<div class='chapter'>
- <span class='pageno' id='Page_ix'>ix</span>
- <h2 class='c005'>CONTENTS</h2>
-</div>
-
-<table class='table0' summary='CONTENTS'>
- <tr><td class='c012' colspan='3'>CHAPTER I</td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='c013'></th>
- <th class='c013'>&nbsp;</th>
- <th class='c014'><span class='small'>PAGE</span></th>
- </tr>
- <tr>
- <td class='c013' colspan='2'><b>THE PLATINUM METALS: THEIR OCCURRENCES, CHARACTERS AND USES. WORLD’S OUTPUT</b></td>
- <td class='c014'><a href='#Page_1'>1</a></td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='3'>CHAPTER II</td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='3'><b>SOURCES OF SUPPLY OF PLATINUM METALS</b></td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c013'>(<i>a</i>)</td>
- <td class='c013'><span class='sc'>British Empire</span>:</td>
- <td class='c014'><a href='#Page_16'>16</a></td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Europe</i>: United Kingdom.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Asia</i>: India (Burma).</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Africa</i>: Rhodesia; Union of South Africa.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>America</i>: Canada; Newfoundland.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Australasia</i>: Australia; New Zealand.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='3'>CHAPTER III</td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='3'><b>SOURCES OF SUPPLY OF PLATINUM METALS</b></td></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c013'>(<i>b</i>)</td>
- <td class='c013'><span class='sc'>Foreign Countries</span>:</td>
- <td class='c014'><a href='#Page_32'>32</a></td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Europe</i>: France; Finland; Germany; Lapland; Russia; Spain.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Asia</i>: Armenia; Borneo; China; Japan; Sumatra.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>Africa</i>: Congo Free State; Madagascar.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c013'>&nbsp;</td>
- <td class='c013'><i>America</i>: Brazil; Colombia; Ecuador; Mexico; United States.</td>
- <td class='c014'>&nbsp;</td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c013' colspan='2'><span class='sc'>World Map of Platinum Deposits</span></td>
- <td class='c014'><a href='#Page_59'>59</a></td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c013' colspan='2'><span class='sc'>References to Literature on the Platinum Group</span></td>
- <td class='c014'><a href='#Page_60'>60</a></td>
- </tr>
-</table>
-
-<div class='nf-center-c0'>
-<div class='nf-center c002'>
- <div><span class='sc'>Note.</span>—<i>Numerals in square brackets in the text refer to the Bibliography at the end.</i></div>
- </div>
-</div>
-
-<div class='section ph1'>
-
-<div class='nf-center-c0'>
-<div class='nf-center c001'>
- <div>THE PLATINUM METALS</div>
- </div>
-</div>
-
-</div>
-
-<div>
- <span class='pageno' id='Page_1'>1</span>
- <h2 class='c005'>CHAPTER I<br /> PLATINUM METALS: THEIR OCCURRENCES, CHARACTERS AND USES</h2>
-</div>
-
-<h3 class='c008'><span class='sc'>Introduction</span></h3>
-
-<p class='c015'>The metals which comprise the Platinum group are the following:
-Platinum, Palladium, Iridium, Osmium, Ruthenium
-and Rhodium.</p>
-
-<p class='c007'>Up to the year 1914 Russia produced over 90 per cent. of
-the world’s supply of platinum, the Republic of Colombia,
-South America, ranking next in importance with about 5 per
-cent. Owing, however, to the war and to the chaotic conditions
-brought about by the revolution, the output of Russia
-has considerably decreased, and although the Colombian production
-has been steadily increasing, the increased demand
-in connection with munition manufacture caused a somewhat
-serious shortage during the latter stages of the war, which was
-especially felt in the United States. As a result much exploratory
-work has recently been carried on in an endeavour
-to discover new deposits of importance; but up to the present,
-although several fresh occurrences have been brought to light,
-results have on the whole been disappointing.</p>
-
-<h3 class='c016'><span class='sc'>Occurrences</span></h3>
-
-<p class='c015'>Platinum usually occurs in nature as native metal alloyed
-with one or more of its allied metals in the form of very fine
-grains more or less flattened; sometimes in the form of irregular
-nuggets; and occasionally, though rarely, in small cubic
-crystals. It is sometimes coated with a black layer of iron
-<span class='pageno' id='Page_2'>2</span>oxide, which may be magnetic, in which case it is not easily
-recognizable. When unrefined it is referred to as “crude”
-platinum.</p>
-
-<p class='c007'>With the exception of a certain amount of the platinum
-metals, obtained from the refining of copper and gold bullion,
-particularly from the copper-nickel deposits of Sudbury,
-Ontario, about 99 per cent. of the whole supply is derived from
-alluvial deposits. Several occurrences of platinum <i><span lang="la" xml:lang="la">in situ</span></i> are
-known, but so far few are of commercial importance: however,
-in view of the indications of exhaustion shown by some of the
-placer deposits, notably in Russia, the exploration of primary
-ores is now receiving more attention and practical results have
-already been achieved in Russia and in Spain.</p>
-
-<p class='c007'>The mother rocks from which the deposits are derived, in
-the large majority of known cases, consist of basic and ultra-basic
-igneous rocks, including peridotites, pyroxenites and
-dunites. The two first are composed of iron magnesian silicates,
-pyroxene, augite and hornblende with olivine, chromite,
-ilmenite and magnetite: the dunites consist principally of
-olivine with some chromite. These rocks are often found to
-have undergone more or less alteration to serpentine. In
-addition, platinum has been found in quartz veins, notably at
-the Boss Mine, Nevada, and in a few known cases it has been
-derived from formations in schistose, or altered sedimentary
-rocks.</p>
-
-<p class='c007'>When present in serpentine, platinum is usually disseminated
-through the rock in fine particles. It seldom occurs in a lode-formation. In sedimentary rocks it usually occurs in sandstones.
-In cases where alluvial deposits have been derived
-from the basic igneous rocks, the associated minerals are usually
-chromite, magnetite, ilmenite, iridium and osmiridium. In
-sedimentary deposits the metal is commonly associated with
-quartz, copper, nickel, silver and palladium.</p>
-
-<p class='c007'>Platinum has been found in certain varieties of the copper
-ores tetrahedrite and bournonite. It has occasionally been
-located in shales and in coal, although not in recoverable
-quantities. In the latter case, in an Australian coal, it is
-associated with vanadium<a id='r1' /><a href='#f1' class='c011'><sup>[1]</sup></a> p. 992.</p>
-
-<p class='c007'>Several cases are known of platinum being present in meteorites,
-<span class='pageno' id='Page_3'>3</span>two well-authenticated instances having been reported
-from Mexico. Platinum has been shown to exist in meteoric
-iron from New South Wales.</p>
-
-<p class='c007'>Crude platinum, as recovered, contains from 70 to 90 per
-cent. of the metal, and, as mentioned above, is really an alloy
-of platinum with one or more of the allied metals, the chief
-impurities consisting principally of iron and copper.</p>
-
-<p class='c007'>The table on the next page gives the analyses of typical
-samples of crude platinum from the Urals, California, British
-Columbia, and other places.</p>
-
-<p class='c007'>Platinum also occurs in combination with arsenic in the
-mineral <i>Sperrylite</i> (PtAs<sub>2</sub>), in the form of minute octahedral
-crystals. The colour of this mineral is tin white, its lustre is
-metallic and brilliant, its hardness varies from 6 to 7, and its
-specific gravity is 10·6. The mineral is brittle and breaks
-with a conchoidal fracture. It is very rare, and is interesting
-as being the only mineral of platinum known
-besides the native metal. It occurs associated with sulphide
-minerals of magmatic origin in gabbros and diabases, notably
-in the nickeliferous pyrites of Sudbury, Canada, and in the
-copper ores of the Rambler Mine, Laramie, Wyoming.</p>
-
-<p class='c007'>It is probable that the palladium, which is also found in
-these deposits, is similarly present in the form of an arsenide,
-but such a mineral has not yet been definitely proved to exist.</p>
-
-<p class='c007'>The following is an analysis of a sample of sperrylite:
-platinum, 54·47 per cent.; rhodium, 0·76 per cent.; palladium,
-trace; arsenic, 42·23 per cent.; antimony, 0·54 per cent.<a id='r2' /><a href='#f2' class='c011'><sup>[2]</sup></a> p. 69.</p>
-
-<h3 class='c016'><span class='sc'>Properties of the Platinum Metals</span></h3>
-
-<p class='c015'><i>Platinum.</i>—The colour is white with a greyish tinge. When
-pure it is very malleable and ductile. Its coefficient of expansion
-is less than that of all other metals. Platinum fuses
-at about 1750° C., but the presence of impurities lowers the
-melting-point. Its specific gravity is 21·5, and its hardness
-is from 4 to 5. Its electric conductivity is low, being 13·4
-at 0° C.<a id='r3' /><a href='#f3' class='c011'><sup>[3]</sup></a> p. 398.</p>
-
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='10'><span class='pageno' id='Page_4'>4</span></td></tr>
- <tr><th class='c012' colspan='10'><i>Composition of Native Platinum and Osmiridium</i></th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c017'>Locality.</th>
- <th class='btt bbt blt c017'>Pt.</th>
- <th class='btt bbt blt c017'>Fe.</th>
- <th class='btt bbt blt c017'>Pd.</th>
- <th class='btt bbt blt c017'>Rh.</th>
- <th class='btt bbt blt c017'>Ir.</th>
- <th class='btt bbt blt c017'>Os.</th>
- <th class='btt bbt blt c017'>Cu.</th>
- <th class='btt bbt blt c017'>Os-Ir.</th>
- <th class='btt bbt blt c017'>Remarks.</th>
- </tr>
- <tr>
- <th class='c017'><i>Platinum</i></th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c017'>Per cent.</th>
- <th class='blt c018'>&nbsp;</th>
- </tr>
- <tr>
- <td class='c019'>Urals 1<a id='rB' /><a href='#fB' class='c011'><sup>[B]</sup></a></td>
- <td class='blt c020'>76·22</td>
- <td class='blt c020'>17·13</td>
- <td class='blt c020'>1·87</td>
- <td class='blt c020'>2·50</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·36</td>
- <td class='blt c020'>0·50</td>
- <td class='blt c018'>Magnetic grs.</td>
- </tr>
- <tr>
- <td class='c019'>Urals 2</td>
- <td class='blt c020'>73·58</td>
- <td class='blt c020'>12·98</td>
- <td class='blt c020'>0·30</td>
- <td class='blt c020'>1·15</td>
- <td class='blt c020'>2·35</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>5·20</td>
- <td class='blt c020'>2·30</td>
- <td class='blt c018'>Magnetic grs.</td>
- </tr>
- <tr>
- <td class='c019'>Urals 3</td>
- <td class='blt c020'>81·34</td>
- <td class='blt c020'>11·48</td>
- <td class='blt c020'>0·32</td>
- <td class='blt c020'>2·14</td>
- <td class='blt c020'>2·42</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>1·13</td>
- <td class='blt c020'>0·57</td>
- <td class='blt c018'>Non-magnetic.</td>
- </tr>
- <tr>
- <td class='c019'>Urals 4</td>
- <td class='blt c020'>78·94</td>
- <td class='blt c020'>11·04</td>
- <td class='blt c020'>0·28</td>
- <td class='blt c020'>0·86</td>
- <td class='blt c020'>4·97</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·70</td>
- <td class='blt c020'>1·96</td>
- <td class='blt c018'>Non-magnetic.</td>
- </tr>
- <tr>
- <td class='c019'>Urals 5</td>
- <td class='blt c020'>86·50</td>
- <td class='blt c020'>8·32</td>
- <td class='blt c020'>1·10</td>
- <td class='blt c020'>1·15</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>0·45</td>
- <td class='blt c020'>1·40</td>
- <td class='blt c018'>Non-magnetic.</td>
- </tr>
- <tr>
- <td class='c019'>Borneo</td>
- <td class='blt c020'>82·60</td>
- <td class='blt c020'>10·67</td>
- <td class='blt c020'>0·30</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·66</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·13</td>
- <td class='blt c020'>3·80</td>
- <td class='blt c018'>Gold, 0·20 per cent.</td>
- </tr>
- <tr>
- <td class='c019'>Brazil</td>
- <td class='blt c020'>72·62</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>21·82</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·88</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Sand, 0·42 per cent.</td>
- </tr>
- <tr>
- <td class='c019'>Granite Cr., B.C.</td>
- <td class='blt c020'>68·19</td>
- <td class='blt c020'>7·87</td>
- <td class='blt c020'>8·26</td>
- <td class='blt c020'>3·10</td>
- <td class='blt c020'>1·21</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>3·09</td>
- <td class='blt c020'>14·62</td>
- <td class='blt c018'>Gangue, 1·69; non-magnetic.</td>
- </tr>
- <tr>
- <td class='c019'>Granite Cr., B.C.</td>
- <td class='blt c020'>78·43</td>
- <td class='blt c020'>9·78</td>
- <td class='blt c020'>0·09</td>
- <td class='blt c020'>1·70</td>
- <td class='blt c020'>1·04</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>3·89</td>
- <td class='blt c020'>3·77</td>
- <td class='blt c018'>Gangue, 1·27; magnetic.</td>
- </tr>
- <tr>
- <td class='c019'>Chocó, Col.</td>
- <td class='blt c020'>86·20</td>
- <td class='blt c020'>7·80</td>
- <td class='blt c020'>0·50</td>
- <td class='blt c020'>1·40</td>
- <td class='blt c020'>0·85</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·60</td>
- <td class='blt c020'>0·85</td>
- <td class='blt c018'>Sand, 0·95.</td>
- </tr>
- <tr>
- <td class='c019'>Chocó, Col.</td>
- <td class='blt c020'>84·30</td>
- <td class='blt c020'>5·31</td>
- <td class='blt c020'>1·06</td>
- <td class='blt c020'>3·45</td>
- <td class='blt c020'>1·46</td>
- <td class='blt c020'>1·03</td>
- <td class='blt c020'>0·74</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Gold, 1·0; sand, 0·61.</td>
- </tr>
- <tr>
- <td class='c019'>California</td>
- <td class='blt c020'>85·50</td>
- <td class='blt c020'>6·75</td>
- <td class='blt c020'>0·60</td>
- <td class='blt c020'>1·00</td>
- <td class='blt c020'>1·05</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1·40</td>
- <td class='blt c020'>1·10</td>
- <td class='blt c018'>Gold, 0·8; sand, 2·95.</td>
- </tr>
- <tr>
- <td class='c019'>California</td>
- <td class='blt c020'>79·85</td>
- <td class='blt c020'>4·45</td>
- <td class='blt c020'>1·95</td>
- <td class='blt c020'>0·65</td>
- <td class='blt c020'>4·20</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·75</td>
- <td class='blt c020'>4·95</td>
- <td class='blt c018'>Gold, 0·55; sand, 2·69.</td>
- </tr>
- <tr>
- <td class='c019'>Oregon</td>
- <td class='blt c020'>51·45</td>
- <td class='blt c020'>4·30</td>
- <td class='blt c020'>0·15</td>
- <td class='blt c020'>0·65</td>
- <td class='blt c020'>0·40</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>2·15</td>
- <td class='blt c020'>37·30</td>
- <td class='blt c018'>Sand, 3; gold, 0·85.</td>
- </tr>
- <tr>
- <td class='c019'>Fifield, N.S.W.</td>
- <td class='blt c020'>75·80</td>
- <td class='blt c020'>10·15</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>1·30</td>
- <td class='blt c020'>1·30</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>0·41</td>
- <td class='blt c020'>9·30</td>
- <td class='blt c018'>Gold, nil; sand, 1·12.</td>
- </tr>
- <tr>
- <td class='c019'>“Australia”</td>
- <td class='blt c020'>61·40</td>
- <td class='blt c020'>4·55</td>
- <td class='blt c020'>1·80</td>
- <td class='blt c020'>1·85</td>
- <td class='blt c020'>1·10</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1·10</td>
- <td class='blt c020'>26·00</td>
- <td class='blt c018'>Gold, 1·2; sand, 1·4.</td>
- </tr>
- <tr>
- <td class='c019'>Currumbin, Q.</td>
- <td class='blt c020'>26·12</td>
- <td class='blt c020'>27·17</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>2·51</td>
- <td class='blt c020'>40·02</td>
- <td class='blt c018'>Sand, 1·33.</td>
- </tr>
- <tr>
- <th class='c017'><i>Osmiridium</i></th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c018'>&nbsp;</th>
- </tr>
- <tr>
- <td class='c019'>Urals</td>
- <td class='blt c020'>10·08</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>1·51</td>
- <td class='blt c020'>55·24</td>
- <td class='blt c020'>27·23</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Ru, 5·85 (<i>Nevyanskite</i>).</td>
- </tr>
- <tr>
- <td class='c019'>Urals</td>
- <td class='blt c020'>0·14</td>
- <td class='blt c020'>0·63</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1·65</td>
- <td class='blt c020'>43·94</td>
- <td class='blt c020'>48·85</td>
- <td class='blt c020'>0·11</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Ru, 4·58 (<i>Nevyanskite</i>).</td>
- </tr>
- <tr>
- <td class='c019'>California</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>2·60</td>
- <td class='blt c020'>53·50</td>
- <td class='blt c020'>43·40</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Ru, 0·50 (<i>Nevyanskite</i>).</td>
- </tr>
- <tr>
- <td class='c019'>“Australia”</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>3·04</td>
- <td class='blt c020'>58·13</td>
- <td class='blt c020'>33·46</td>
- <td class='blt c020'>0·15</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Ru, 5·22 (<i>Nevyanskite</i>).</td>
- </tr>
- <tr>
- <td class='c019'>Currumbin, Q.</td>
- <td class='blt c020'>3·00</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>62·00</td>
- <td class='blt c020'>33·00</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Sand, 2·00 (<i>Nevyanskite</i>).</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c017' colspan='2'>/\&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>Tasmania</td>
- <td class='blt c020'>0·37</td>
- <td class='blt c020'>0·30</td>
- <td class='blt c020'>0·21</td>
- <td class='blt c017' colspan='2'>33·80</td>
- <td class='blt c020'>57·09</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Ru, 8·19; Au, ·04 (<i>Siserskite</i>).</td>
- </tr>
- <tr>
- <th class='c017'><i>Platiniridium</i></th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c018'>&nbsp;</th>
- </tr>
- <tr>
- <td class='c019'>Condado, Brazil</td>
- <td class='blt c020'>55·44</td>
- <td class='blt c020'>4·14</td>
- <td class='blt c020'>1·49</td>
- <td class='blt c020'>6·86</td>
- <td class='blt c020'>27·79</td>
- <td class='blt c017'>tr.</td>
- <td class='blt c020'>3·30</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <th class='c017'><i>Native Iridium</i></th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c020'>&nbsp;</th>
- <th class='blt c018'>&nbsp;</th>
- </tr>
- <tr>
- <td class='bbt c019'>Urals</td>
- <td class='bbt blt c020'>19·64</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>0·89</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>76·80</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>1·78</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c018'>&nbsp;</td>
- </tr>
- <tr><td class='c021' colspan='10'>Reference—Pt., platinum; Fe., iron; Pd., palladium; Rh., rhodium; Ir., iridium; Os., osmium; Cu., copper; Os-Ir., osmiridium; Ru., ruthenium.</td></tr>
-</table>
-
-<div class='footnote' id='fB'>
-<p class='c007'><a href='#rB'>B</a>. Average percentage of Urals platinum is a little under 80.<a id='r4' /><a href='#f4' class='c011'><sup>[4]</sup></a> p. 558.</p>
-</div>
-
-<p class='c007'><span class='pageno' id='Page_5'>5</span>Platinum is not acted upon by either nitric, sulphuric or
-hydrochloric acid, but is soluble in aqua regia (1 part of nitric
-to 2 parts of hydrochloric acid), or in other mixtures liberating
-chlorine, with the formation of platinum tetrachloride
-(PtCl<sub>4</sub>). It is not acted upon by air or moisture, even at high
-temperatures. It is corroded by caustic alkalis, sulphides,
-sulphates, phosphates and arsenides, if heated in contact
-with them. It will not amalgamate with mercury unless
-sodium is present, in this respect differing from gold and
-silver.</p>
-
-<p class='c007'>Platinum, in a finely-divided condition, absorbs large
-quantities of hydrogen or other gases, which on occlusion
-become more active: hence its value as a catalytic agent.</p>
-
-<p class='c007'><i>Palladium.</i>—This metal resembles platinum, but is sometimes
-fibrous, the colour being between that of platinum and
-of silver. It possesses a lower melting-point than platinum—about
-1550° C. It is malleable, has a hardness of from 4·5
-to 5, and a specific gravity of 11·5. As already stated, palladium,
-when found in copper ores, is probably present in
-combination with arsenic. <i>Porpezite</i>, a rare mineral, containing
-gold and up to 10 per cent. palladium, has been identified in
-gold-bearing veins in Brazil [see p. <a href='#Page_54'>54</a>].</p>
-
-<p class='c007'>Palladium is produced from the refining of copper matte
-and of base gold bullion from Australia and elsewhere.</p>
-
-<p class='c007'><i>Iridium</i> is a brilliant white brittle metal, with a specific
-gravity of 22·4, and hardness of 6 to 7. Its fusion point is
-very high—about 2200° C.—and under ordinary conditions it
-is not attacked by any acid. At 1100° C. it begins to oxidize
-to a purple oxide. Iridium usually occurs either in crude
-platinum, or alloyed with osmium, as iridosmine, or as native
-metal. The bulk of iridium is derived from the platinum
-placer deposits of the Urals, but the Californian metal is more
-valuable, on account of its better quality. It is also obtained
-in small amounts from copper bullion.</p>
-
-<p class='c007'><i>Osmium</i> is a hard and brittle metal, bluish-grey in colour.
-Its specific gravity is 22·5, and it has a very high melting-point,
-in this respect being the most refractory of the group.</p>
-
-<p class='c007'><i>Iridosmine</i>, or <i>Osmiridium</i>, an alloy of iridium and osmium,
-occurs as hexagonal crystals, or flattened grains of lighter
-colour than platinum. It may contain from 40 to 77 per cent.
-<span class='pageno' id='Page_6'>6</span>of iridium, and from 20 to 50 per cent. of osmium. If the
-iridium predominates, the alloy is called <i>Nevyanskite</i>, and
-<i>Siserskite</i> if the osmium content is high. It is distinguishable
-from platinum by the brittleness of the flakes. Siserskite
-gives off a pungent odour, if strongly heated, caused by the
-volatilization of osmium. Iridosmine has a hardness of 6 to 7,
-and a specific gravity of 19 to 21.</p>
-
-<p class='c007'><i>Ruthenium</i> is a white metal, with a specific gravity of 12·1.
-It is scarcely acted upon by aqua regia. Ruthenium occurs
-mainly in small amounts in iridosmine. It is also found in
-the copper ores of Sudbury and other places. <i>Laurite</i> is a
-very rare sulphide of ruthenium (RuS<sub>2</sub>), containing a small
-amount of osmium, which has only been recognized in the
-Borneo deposits.</p>
-
-<p class='c007'><i>Rhodium</i> is a white metal resembling aluminium, with a
-specific gravity of 12·1, and a melting-point of about 2000° C.
-It is ductile and malleable at red heat. In addition to its
-occurrence in crude platinum, the metal is also contained in
-small quantities in the sperrylite found in the copper ores of
-Sudbury, Canada<a id='r5' /><a href='#f5' class='c011'><sup>[5]</sup></a> p. 779.</p>
-
-<p class='c007'><i>Colloidal Platinum.</i>—This has only recently been detected
-in ores, and therefore its occurrence might not be detected
-qualitatively. By destroying its colloidal condition, however,
-its presence can be discovered in the ordinary ways<a href='#f4' class='c011'><sup>[4]</sup></a>.</p>
-
-<h3 class='c016'><span class='sc'>Metallurgical Treatment</span></h3>
-
-<p class='c015'>Crude platinum can be refined either by dry or by wet methods,
-the following being brief outlines of the two processes:</p>
-
-<p class='c007'>By the wet method, the crude platinum is dissolved in
-aqua regia, with excess of hydrochloric acid. Evaporation
-is continued until the whole of the nitric acid is expelled.
-By addition of a solution of ammonium chloride, the platinum
-is then precipitated as ammonium platini-chloride. This
-precipitate is heated to redness, when chlorine and ammonium
-chloride are given off, and spongy platinum remains. The
-last is next granulated, after fusion by the oxy-hydrogen blowpipe
-in a small lime furnace. Platinum obtained by this
-<span class='pageno' id='Page_7'>7</span>method may contain small amounts of iridium, rhodium and
-palladium.</p>
-
-<p class='c007'>In the dry method, introduced by Delville and Debray, the
-crude platinum is smelted with galena in a small reverberatory
-furnace. A portion of the lead is reduced to the metallic
-state by the iron in the charge, and forms a fusible alloy with
-the platinum. The osmiridium present settles to the bottom
-of the furnace, and may thus be removed. Litharge is then
-thrown in to form more alloy, and some glass to act as a flux.
-The alloy is cupelled, and the residual platinum is then melted
-in a lime furnace with the oxy-hydrogen flame. The
-platinum thus obtained often contains iridium and rhodium.</p>
-
-<p class='c007'>A combination of these two methods is also sometimes
-employed<a href='#f3' class='c011'><sup>[3]</sup></a> p. 403.</p>
-
-<p class='c007'>The electrolytic process of gold-refining was introduced to
-treat platiniferous gold. In the gold chloride, or Wohlwill
-method, iridium and osmiridium are insoluble, and remain
-with the anode slime. Platinum and palladium, if nearly
-pure, are also insoluble, but when present alloyed with gold
-and silver, pass into the solution and remain there. In a
-hot bath it is stated that the platinum present should not
-exceed 50 gm. per litre. According to T. K. Rose, a cold
-bath containing only 20 gm. per litre causes a certain quantity
-of platinum to be deposited with the gold<a id='r6' /><a href='#f6' class='c011'><sup>[6]</sup></a>.</p>
-
-<p class='c007'>H. F. Keller, in “Platinum, the Most Precious of Metals”
-(<cite>Journal of the Franklin Institute</cite>, November 1912) deals fully
-with the extraction and refining of platinum.</p>
-
-<h3 class='c016'><span class='sc'>Platinum-Refining Agencies</span></h3>
-
-<p class='c015'>The following contains a list of the principal firms engaged
-in the refining of platinum metals:</p>
-
-<p class='c006'>In England: Johnson, Matthey &amp; Co., Ltd., Lees &amp; Sanders,
-Warstone Smelting Works, Sheffield Smelting Works, Johnson
-&amp; Sons. (This is the list of the Ministry of Munitions.)</p>
-
-<p class='c007'>In France: Legende et Cie., Compagnie Internationale du
-Platine, Lyon Allemand, Lecht Lyonnais, Henrique Marrett,
-Bonnen, Hesse Fils.</p>
-
-<p class='c007'><span class='pageno' id='Page_8'>8</span>In Germany: W. C. Heraeus, G. Siebert, F. Eisennad
-&amp; Co.</p>
-
-<p class='c007'>In the United States: Baker &amp; Co., American Platinum
-Works (N.T.), Irvington Smelting and Refining Works, J.
-Bishop &amp; Co., H. A. Wilson &amp; Co., Belais &amp; Cohn, Kastenhuber
-&amp; Lehrfeld, Roessler &amp; Hasslacher Chemical Co.,
-Wildberg Bros., and others handling scrap.</p>
-
-<p class='c007'>According to Russian information about 25 per cent. of the
-Russian output before the war was refined in Germany. In
-Russia there are practically no platinum-refining facilities<a id='r7' /><a href='#f7' class='c011'><sup>[7]</sup></a>.</p>
-
-<h3 class='c016'><span class='sc'>The Uses of Platinum and its Allies</span></h3>
-
-<p class='c015'><i>Platinum.</i>—In the chemical industry platinum is largely
-used for catalyzers in the manufacture of sulphuric, acetic
-and nitric acids; for stills for the final concentration of sulphuric
-acid; and in the electro-chemical industry.</p>
-
-<p class='c007'>In the making of “contact” sulphuric acid a “contact mass”
-is charged into the chambers of the plant. This is formed by
-soaking asbestos, or anhydrous magnesium sulphate, with
-platinic chloride solution, and baking the mass to drive off
-the chlorine. The contact mass usually contains from 7 to
-8 per cent. platinum, in a very finely-divided state. In the
-making of acetic acid from a mixture of air and alcohol
-vapour, platinized asbestos is used. For the catalyzer used
-in the conversion of ammonia into nitric acid a very fine-meshed
-platinum gauze is used; this is strengthened at its
-edges with platinum-iridium wire. One ounce of platinum
-is required for the production per annum of 25 tons of catalytic
-acid, or of 40 tons of nitric acid from ammonia.</p>
-
-<p class='c007'>In the finely-divided state all the other metals of the
-platinum group, especially palladium, have also the facility
-of absorbing great quantities of certain gases, and can be
-used as catalysts.</p>
-
-<p class='c007'>Owing to its high melting-point, and to the resistance to the
-action of acids at high temperatures, platinum is largely used
-for chemical ware in the form of crucibles, dishes, etc. Platinum
-crucibles are indispensable in the chemical analysis of
-rocks.</p>
-
-<p class='c007'><span class='pageno' id='Page_9'>9</span>In the electrical industry platinum is largely used for contact
-points, in telegraph and telephone apparatus, in magneto-contacts,
-and in the construction of the thermo-couples of
-pyrometers. In the manufacture of jewellery, especially in
-the crown-setting of diamonds, platinum has been much used
-in the place of gold: alloyed with a little iridium it can be
-worked into delicate designs, which are durable. During the
-war, however, when platinum was largely wanted in the
-making of munitions, its use in jewellery manufacture was
-much restricted. Platinum was formerly largely used in dentistry.
-In photography potassium platino-chloride is required
-for producing platinotype prints. In the form of barium
-platino-cyanide it is used in X-ray photography as a coating
-for the projecting screen.</p>
-
-<p class='c007'>Platinum is required in the manufacture of certain parts
-of chronometers, theodolites and watches; also for standard
-weights and measures, and for various types of self-lighting
-lamps<a href='#f4' class='c011'><sup>[4]</sup></a> p. 561.</p>
-
-<p class='c007'><i>Palladium</i> has its chief value as a substitute for platinum,
-in palladium-gold alloys, which are used extensively in dentistry,
-for jewellery and for chemical ware. It is also utilized
-in the manufacture of astronomical instruments and watches,
-also for plating metal ware<a href='#f1' class='c011'><sup>[1]</sup></a> p. 1002. The use of palladium
-as a catalyzer is well known.</p>
-
-<p class='c007'><i>Iridium</i>, when pure, is of small value, being difficult to manipulate
-on account of its brittleness. It is principally used in
-alloy with platinum for hardening purposes. Jewellers’
-platinum usually contains 10 per cent. iridium, and in the
-electrical industry an alloy composed of from 15 to 50 per
-cent. iridium is usually employed. Alloys with up to 10 per
-cent. of iridium are ductile and malleable, but with over that
-amount are hard and difficult to work.</p>
-
-<p class='c007'>The metal is used in the manufacture of fountain-pen
-points, for which purpose the grains require careful selecting<a id='r8' /><a href='#f8' class='c011'><sup>[8]</sup></a> p. 106;
-also for standard weights and for contact points.
-Iridium black, an oxide, is of value as a pigment for chinaware<a href='#f1' class='c011'><sup>[1]</sup></a> p. 1001.</p>
-
-<p class='c007'>Iridium is suitable for sharp surgical instruments, and gold
-needles with soldered iridium ends are employed for stitching
-<span class='pageno' id='Page_10'>10</span>wounds. It is also used in photography. Iridium is of greater
-scarcity than platinum, hence its greater value.</p>
-
-<p class='c007'><i>Osmium.</i>—There is now little or no market for osmium.
-It was formerly in considerable use for the manufacture of
-incandescent lamps. Osmic acid is used for staining anatomical
-preparations in microscopic work. On account of the
-poisonous nature of its vapour the extraction of osmium is
-costly and dangerous.</p>
-
-<p class='c007'><i>Ruthenium</i> is also of little or no commercial value. Both
-these metals possess the disadvantages of being brittle and
-easily oxidized.</p>
-
-<p class='c007'><i>Rhodium</i> is of small commercial use. It is used principally
-in alloy with platinum. An alloy containing 10 per cent.
-rhodium is used for some thermo-couples of pyrometers, and
-in the making of laboratory utensils.</p>
-
-<p class='c007'><i>Platinum Alloys.</i>—Platinum forms alloys with a number of
-metals, but only a few are of industrial importance<a href='#f3' class='c011'><sup>[3]</sup></a> p. 400.
-Platinum and iridium form a hard and elastic alloy, which
-is unaffected by air, and takes a high polish. Alloyed
-with 10 per cent. iridium platinum is used for one of
-the wires in thermo-couples of pyrometers; and with 10 to
-20 per cent. iridium for making standard measures of length
-and weight.</p>
-
-<p class='c007'>Platinum and copper form various alloys. An alloy with
-18·75 per cent. copper, called “coopers’ gold,” takes a high
-polish and closely resembles 18–carat gold.</p>
-
-<p class='c007'>An alloy of platinum and silver containing 66 per cent.
-silver is used as a standard of electrical resistance. An alloy
-containing 20 to 30 per cent. silver is used in dentistry.</p>
-
-<p class='c007'>Platinum alloys with lead, zinc and other metals at low
-temperatures; it is usually recovered from these alloys by
-cupellation.</p>
-
-<p class='c007'>Platinum alloys with steel in all proportions. With 10 per
-cent. platinum, rusting is prevented. A very elastic metal
-is produced by alloying platinum with from 5 to 10 per cent.
-gold.</p>
-
-<p class='c007'>The melting-point of silver is raised by alloying it with
-platinum, but its thermal conductivity is lowered.</p>
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='9'><span class='pageno' id='Page_11'>11</span></td></tr>
- <tr><th class='c012' colspan='9'>The following table gives the composition of the principal platinum and palladium alloys<a href='#f4' class='c011'><sup>[4]</sup></a> p. 561:</th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt c019'>&nbsp;</th>
- <th class='btt bbt blt c017'>Pt.</th>
- <th class='btt bbt blt c017'>Cu.</th>
- <th class='btt bbt blt c017'>Ag.</th>
- <th class='btt bbt blt c017'>Au.</th>
- <th class='btt bbt blt c017'>Ni.</th>
- <th class='btt bbt blt c017'>Pd.</th>
- <th class='btt bbt blt c017'>Other Constituents.</th>
- </tr>
- <tr>
- <th class='c019'></th>
- <th class='c019'>&nbsp;</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- <th class='blt c017'>Parts.</th>
- </tr>
- <tr>
- <td class='c019' colspan='2'>Jewellery alloys:</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Platinum alloy</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>0–1</td>
- <td class='blt c020'>2–5</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Platinor</td>
- <td class='blt c020'>2</td>
- <td class='blt c020'>5</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Brass 2.</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Palladium alloy</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>9</td>
- <td class='blt c018'>Rhodium 1.</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Mock gold</td>
- <td class='blt c020'>7</td>
- <td class='blt c020'>16</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Zinc 1.</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Mock gold</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>6</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Brass 1.</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Mock gold</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>4</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019' colspan='2'>Coopers’ pen metal:</td>
- <td class='blt c020'>4</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>3</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Watch alloy</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>13</td>
- <td class='blt c020'>11</td>
- <td class='blt c020'>18</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>6</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Watch alloy</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>25</td>
- <td class='blt c020'>4</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>70</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Watch alloy</td>
- <td class='blt c020'>63</td>
- <td class='blt c020'>18</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>17</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Cadmium 1.</td>
- </tr>
- <tr>
- <td class='c019' colspan='2'>Platinum bronze</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>90</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>Tin 9.</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Dentists’ alloy</td>
- <td class='blt c020'>5</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>3</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>4</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Dentists’ alloy</td>
- <td class='blt c020'>7</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>3</td>
- <td class='blt c020'>2</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Dentists’ alloy</td>
- <td class='blt c020'>6</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1</td>
- <td class='blt c020'>2</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Dentists’ alloy</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>4</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>1</td>
- <td class='blt c018'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Palladium alloy</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>2</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>3</td>
- <td class='bbt blt c018'>&nbsp;</td>
- </tr>
-</table>
-
-<h3 class='c016'><span class='sc'>Alloy Substitutes for Platinum</span></h3>
-
-<p class='c015'>On account of the scarcity and high price of the platinum
-metals, much attention has lately been directed towards the
-discovery of suitable substitutes.</p>
-
-<p class='c007'>In the electrical industry an alloy of 3 parts of palladium
-and 2 parts of silver is in use, also an alloy of nickel and
-chromium. <i>Platinite</i>, an iron-nickel alloy, containing 46 per
-cent. nickel and 0·15 per cent. carbon, has the same coefficient
-of expansion as glass, and, when coated with copper, is used
-to replace the platinum connection wires of incandescent
-lamps. Tungsten is sometimes used for certain ignition
-devices. For cathodes an alloy of 90 per cent. gold and 10
-per cent. copper can be used to replace platinum; the same
-alloy, if electrically coated with platinum, and then carefully
-polished and burnished, is suitable for platinum anodes.</p>
-
-<p class='c007'>For platinum chemical laboratory ware, there are several
-substitutes, such as fused quartz; various iron, chromium, and
-nickel-chromium alloys; <i>palau</i>, a gold-iridium alloy marketed
-in California; <i>rhotanum</i>, a general name for gold-palladium
-<span class='pageno' id='Page_12'>12</span>alloys containing from 60 to 90 per cent. of gold, which are
-suitable for most chemical purposes, except for use with hot
-concentrated nitric acid, and for electrolytic anodes; <i>amaloy</i>,
-which is a complex alloy containing nickel, chromium, tungsten,
-etc., highly resistant to corrosion and to cold nitric and sulphuric
-acids<a id='r9' /><a href='#f9' class='c011'><sup>[9]</sup></a> p. 600.</p>
-
-<p class='c007'>In the jewellery trade platinum has been replaced by an
-alloy of 90 per cent. palladium and 10 per cent. rhodium. For
-certain surgical work various <i>stellite</i> alloys, containing cobalt
-and chromium, and hardened by the addition of tungsten
-and molybdenum, are valuable substitutes for platinum, and
-are not affected by antiseptic solutions. In dental work pins
-are now made of tungsten coated with palladium<a id='r10' /><a href='#f10' class='c011'><sup>[10]</sup></a> p. 549.
-For most technical purposes an alloy of tungsten and nickel
-with gold or silver is used in Germany; it may be cast, rolled
-or forged, is acid-resisting, and capable of taking a high
-polish<a id='r11' /><a href='#f11' class='c011'><sup>[11]</sup></a>. <i>White gold</i>, another substitute for platinum, contains
-fine gold, from 75 to 85 per cent.; pure nickel, from
-10 to 18 per cent.; and zinc, from 2 to 9 per cent. <i>Illium</i>, a
-chromium-nickel-copper alloy reported recently as the discovery
-of S. W. Parr, of Illinois, is a substitute for gold or
-platinum, costing only 25 cents per ounce. It is stated to
-have been a “50 per cent. standard of success.” The alloy
-withstands hot or cold, strong or diluted acid, can be both
-cast and machined, and is already used largely in the manufacture
-of calorimeter bombs<a id='r12' /><a href='#f12' class='c011'><sup>[12]</sup></a>.</p>
-
-<p class='c007'>The results of researches made to discover substitutes for
-platinum, and undertaken by the National Dental Association
-of America, are described at length by F. A. Fahrenwald, in
-a paper read in January 1916 before the American Institute
-of Mining Engineers.</p>
-
-<h3 class='c016'><span class='sc'>Scrap Platinum</span></h3>
-
-<p class='c015'>A considerable amount of platinum in the form of old and
-worn articles is now collected for return to the refineries, where
-it is re-treated, and sold again as new metal. The trade in
-scrap platinum has been particularly active in the United
-<span class='pageno' id='Page_13'>13</span>States, official statistics showing that in 1916, 49,400 oz. of
-refined platinum were recovered.</p>
-
-<h3 class='c016'><span class='sc'>World’s Output of Platinum</span></h3>
-
-<p class='c015'>According to J. L. Howe, the estimated limits of the total
-world-production of crude platinum, up to January 1917, were
-as follows<a id='r13' /><a href='#f13' class='c011'><sup>[13]</sup></a>:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c022'></th>
- <th class='c023'><i>In oz.</i></th>
- <th class='c024'>(<i>troy</i>)</th>
- </tr>
- <tr>
- <th class='c022'></th>
- <th class='c023'>Minimum.</th>
- <th class='c024'>Maximum.</th>
- </tr>
- <tr>
- <td class='c022'>Russia</td>
- <td class='c025'>7,115,482</td>
- <td class='c026'>10,128,308</td>
- </tr>
- <tr>
- <td class='c022'>Colombia</td>
- <td class='c025'>700,000</td>
- <td class='c026'>735,000</td>
- </tr>
- <tr>
- <td class='c022'>Borneo</td>
- <td class='c025'>175,000</td>
- <td class='c026'>200,000</td>
- </tr>
- <tr>
- <td class='c022'>United States</td>
- <td class='c025'>10,000</td>
- <td class='c026'>12,000</td>
- </tr>
- <tr>
- <td class='c022'>Canada</td>
- <td class='c025'>9,000</td>
- <td class='c026'>10,000</td>
- </tr>
- <tr>
- <td class='c022'>Miscellaneous</td>
- <td class='c025'>9,000</td>
- <td class='c026'>10,000</td>
- </tr>
- <tr>
- <td class='c022'>&nbsp;</td>
- <td class='c025'><hr /></td>
- <td class='c026'><hr /></td>
- </tr>
- <tr>
- <td class='c023'>Total</td>
- <td class='c025'>8,018,482</td>
- <td class='c026'>11,095,308</td>
- </tr>
- <tr>
- <td class='c022'>&nbsp;</td>
- <td class='c025'><hr class='double' /></td>
- <td class='c026'><hr class='double' /></td>
- </tr>
-</table>
-
-<p class='c007'>On the other hand, James M. Hill<a id='r14' /><a href='#f14' class='c011'><sup>[14]</sup></a> states that possibly
-5,000,000 oz. was the total world’s production to June 1917,
-which he distributes according to the uses made of it as
-follows:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c022'></th>
- <th class='c024'>Oz.</th>
- </tr>
- <tr>
- <td class='c022'>Chemical and physical apparatus</td>
- <td class='c026'>1,000,000</td>
- </tr>
- <tr>
- <td class='c022'>Electrical devices</td>
- <td class='c026'>250,000</td>
- </tr>
- <tr>
- <td class='c022'>Catalyzing</td>
- <td class='c026'>500,000</td>
- </tr>
- <tr>
- <td class='c022'>Dental uses</td>
- <td class='c026'>1,000,000</td>
- </tr>
- <tr>
- <td class='c022'>Jewellery</td>
- <td class='c026'>1,000,000</td>
- </tr>
- <tr>
- <td class='c022'>Minor uses and hoarded (balance)</td>
- <td class='c026'>1,250,000</td>
- </tr>
-</table>
-
-<p class='c007'>It is difficult to obtain exact figures of the annual production
-of crude platinum. This is particularly so in the case of
-Russia, where there appears to have been a tendency for
-private enterprises to keep their published outputs as low as
-possible, in order to avoid registration. The discrepancy
-between the official and actual figures of production in Russia
-is variously estimated at from 20 to 60 per cent.</p>
-
-<p class='c007'>The table on the next page is compiled from the sources
-considered most reliable.</p>
-
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='10'><span class='pageno' id='Page_14'>14</span></td></tr>
- <tr><th class='c012' colspan='10'><i>World’s Production of Crude Platinum</i></th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><th class='c012' colspan='10'>(In troy oz.)</th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt blt c017'>1910.</th>
- <th class='btt bbt blt c017'>1911.</th>
- <th class='btt bbt blt c017'>1912.</th>
- <th class='btt bbt blt c017'>1913.</th>
- <th class='btt bbt blt c017'>1914.</th>
- <th class='btt bbt blt c017'>1915.</th>
- <th class='btt bbt blt c017'>1916.</th>
- <th class='btt bbt blt c017'>1917.</th>
- <th class='btt bbt blt c017'>1918.</th>
- </tr>
- <tr>
- <td class='c019'>Borneo and Sumatra<a id='rC' /><a href='#fC' class='c011'><sup>[C]</sup></a></td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>200</td>
- <td class='blt c020'>200</td>
- <td class='blt c020'><a id='rD' /><a href='#fD' class='c011'><sup>[D]</sup></a></td>
- <td class='blt c020'><a href='#fD' class='c011'><sup>[D]</sup></a></td>
- <td class='blt c020'><a href='#fD' class='c011'><sup>[D]</sup></a></td>
- <td class='blt c020'><a href='#fD' class='c011'><sup>[D]</sup></a></td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>Burma<a id='rE' /><a href='#fE' class='c011'><sup>[E]</sup></a></td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>38</td>
- <td class='blt c020'>57</td>
- <td class='blt c020'>58</td>
- <td class='blt c020'>37</td>
- <td class='blt c020'>18</td>
- <td class='blt c020'>9</td>
- <td class='blt c020'>4</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>Canada<a id='rF' /><a href='#fF' class='c011'><sup>[F]</sup></a></td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>18</td>
- <td class='blt c020'>23</td>
- <td class='blt c020'>15</td>
- <td class='blt c020'>57</td>
- <td class='blt c020'>39</td>
- </tr>
- <tr>
- <td class='c019'>Colombia<a id='rG' /><a href='#fG' class='c011'><sup>[G]</sup></a></td>
- <td class='blt c020'>10,000</td>
- <td class='blt c020'>12,000</td>
- <td class='blt c020'>12,000</td>
- <td class='blt c020'>15,000</td>
- <td class='blt c020'>17,500</td>
- <td class='blt c020'>18,000</td>
- <td class='blt c020'>25,000</td>
- <td class='blt c020'>32,000</td>
- <td class='blt c020'>27,030</td>
- </tr>
- <tr>
- <td class='c019'>Madagascar<a id='rH' /><a href='#fH' class='c011'><sup>[H]</sup></a></td>
- <td class='blt c020'>13</td>
- <td class='blt c020'>3</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>New South Wales<a id='rI' /><a href='#fI' class='c011'><sup>[I]</sup></a></td>
- <td class='blt c020'>332</td>
- <td class='blt c020'>470</td>
- <td class='blt c020'>610</td>
- <td class='blt c020'>442</td>
- <td class='blt c020'>244</td>
- <td class='blt c020'>56</td>
- <td class='blt c020'>82</td>
- <td class='blt c020'>259</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>Russia<a id='rJ' /><a href='#fJ' class='c011'><sup>[J]</sup></a></td>
- <td class='blt c020'>176,334</td>
- <td class='blt c020'>187,008</td>
- <td class='blt c020'>177,596</td>
- <td class='blt c020'>157,735</td>
- <td class='blt c020'>157,182</td>
- <td class='blt c020'>119,789</td>
- <td class='blt c020'>78,682</td>
- <td class='blt c020'>50,000<a id='rK' /><a href='#fK' class='c011'><sup>[K]</sup></a></td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>United States<a href='#fC' class='c011'><sup>[C]</sup></a></td>
- <td class='blt c020'>390</td>
- <td class='blt c020'>628</td>
- <td class='blt c020'>721</td>
- <td class='blt c020'>483</td>
- <td class='blt c020'>570</td>
- <td class='blt c020'>742</td>
- <td class='blt c020'>750</td>
- <td class='blt c020'>605</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>Victoria<a id='rL' /><a href='#fL' class='c011'><sup>[L]</sup></a></td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>184</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>127</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- </tr>
-</table>
-
-<p class='c027'><i>Canada.</i>—The recoveries of platinum at the works of the International Nickel Company in New Jersey for the years 1910–1912
-were 258,666 and 497 oz. respectively, chiefly from Canadian matte.</p>
-
-<p class='c027'><i>Russia.</i>—The <i>actual</i> productions of platinum as quoted in <cite>Mineral Industry</cite> in oz. were: 1910, 300,000; 1911, 280,000;
-1912, 300,000; 1913, 275,000; 1914, 240,000; 1915, 124,000; 1916, 90,000; 1917, 50,000.</p>
-
-<div class='footnote' id='fC'>
-<p class='c007'><a href='#rC'>C</a>. <cite>U.S.A. Mineral Resources, 1917, Geol. Surv.</cite></p>
-</div>
-
-<div class='footnote' id='fD'>
-<p class='c007'><a href='#rD'>D</a>. Estimates not available.</p>
-</div>
-
-<div class='footnote' id='fE'>
-<p class='c007'><a href='#rE'>E</a>. <cite>Records of Geol. Survey, India.</cite></p>
-</div>
-
-<div class='footnote' id='fF'>
-<p class='c007'><a href='#rF'>F</a>. <cite>Mineral Production</cite>, Mines Dept., Canada. Figures are for alluvial production only, and far below <i>actual</i> production
-figures, not including Ontario production from nickel matte, for which only incomplete information is available. [See p. <a href='#Page_25'>25</a>.]</p>
-</div>
-
-<div class='footnote' id='fG'>
-<p class='c007'><a href='#rG'>G</a>. <cite>Mining Journal</cite>, November 30, 1918, p. 700, and <cite>Mineral Industry</cite>.</p>
-</div>
-
-<div class='footnote' id='fH'>
-<p class='c007'><a href='#rH'>H</a>. <cite>Mines and Quarries Reports</cite>, Home Office.</p>
-</div>
-
-<div class='footnote' id='fI'>
-<p class='c007'><a href='#rI'>I</a>. <cite>Annual Rept. Dept. of Mines.</cite></p>
-</div>
-
-<div class='footnote' id='fJ'>
-<p class='c007'><a href='#rJ'>J</a>. <cite>Mineral Industry.</cite> These are <i>official</i> figures for production; <i>actual</i> production is much greater than these.</p>
-</div>
-
-<div class='footnote' id='fK'>
-<p class='c007'><a href='#rK'>K</a>. Estimated.</p>
-</div>
-
-<div class='footnote' id='fL'>
-<p class='c007'><a href='#rL'>L</a>. <cite>Dept. of Mines Reports</cite> (platinum obtained from copper matte).</p>
-</div>
-
-<p class='c007'><span class='pageno' id='Page_15'>15</span>The market value of platinum has risen considerably since
-1880. In that year the price was 12<i>s.</i> 7½<i>d.</i> per oz. troy, in
-1890 it was 25<i>s.</i> 3<i>d.</i>, and in 1900, 63<i>s.</i> 1½<i>d.</i> The average prices
-in London and New York for the years 1910–1919 were as
-shown on the accompanying tables:</p>
-
-<table class='table1' summary=''>
- <tr><th class='c012' colspan='11'>Average price in pounds per troy oz. of refined metals of the platinum group in London</th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt blt c017'>1910.</th>
- <th class='btt bbt blt c017'>1911.</th>
- <th class='btt bbt blt c017'>1912.</th>
- <th class='btt bbt blt c017'>1913.</th>
- <th class='btt bbt blt c017'>1914.</th>
- <th class='btt bbt blt c017'>1915.</th>
- <th class='btt bbt blt c017'>1916.</th>
- <th class='btt bbt blt c017'>1917.</th>
- <th class='btt bbt blt c017'>1918.</th>
- <th class='btt bbt blt c017'>1919.</th>
- </tr>
- <tr>
- <td class='bbt c019'>Platinum Metals</td>
- <td class='bbt blt c020'>9·1</td>
- <td class='bbt blt c020'>8·6</td>
- <td class='bbt blt c020'>9·5</td>
- <td class='bbt blt c020'>9·5</td>
- <td class='bbt blt c020'>8·1</td>
- <td class='bbt blt c020'>10·9</td>
- <td class='bbt blt c020'>10–14·5</td>
- <td class='bbt blt c020'>14·5</td>
- <td class='bbt blt c020'>20</td>
- <td class='bbt blt c020'>24</td>
- </tr>
-</table>
-<p class='c027'>1910, 1915, 1916 and 1917—<cite>Metal Market Year Book</cite>.
-1911, 1912, 1913 and 1914—<cite>Mining Magazine</cite>.</p>
-
-<table class='table1' summary=''>
- <tr><th class='c012' colspan='11'>Average price in dollars per troy oz. of refined metals of the platinum group in New York</th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt blt c017'>1910.</th>
- <th class='btt bbt blt c017'>1911.</th>
- <th class='btt bbt blt c017'>1912.</th>
- <th class='btt bbt blt c017'>1913.</th>
- <th class='btt bbt blt c017'>1914.</th>
- <th class='btt bbt blt c017'>1915.</th>
- <th class='btt bbt blt c017'>1916.</th>
- <th class='btt bbt blt c017'>1917.</th>
- <th class='btt bbt blt c017'>1918.</th>
- <th class='btt bbt blt c017'>1919.</th>
- </tr>
- <tr>
- <td class='c019'>Platinum</td>
- <td class='blt c020'>33</td>
- <td class='blt c020'>43</td>
- <td class='blt c020'>46</td>
- <td class='blt c020'>45</td>
- <td class='blt c020'>45</td>
- <td class='blt c020'>50</td>
- <td class='blt c020'>84</td>
- <td class='blt c020'>103</td>
- <td class='blt c020'>106<a id='rM' /><a href='#fM' class='c011'><sup>[M]</sup></a></td>
- <td class='blt c020'>114</td>
- </tr>
- <tr>
- <td class='c019'>Iridium</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>65</td>
- <td class='blt c020'>83</td>
- <td class='blt c020'>94</td>
- <td class='blt c020'>150</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>Iridosmine</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>33</td>
- <td class='blt c020'>35</td>
- <td class='blt c020'>45</td>
- <td class='blt c020'>80</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>Palladium</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>44</td>
- <td class='bbt blt c020'>56</td>
- <td class='bbt blt c020'>67</td>
- <td class='bbt blt c020'>110</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- </tr>
-</table>
-<p class='c027'>1910, 1914, 1915, 1916 and 1917—<cite>U.S. Geol. Surv. Mineral Resources</cite>.</p>
-
-<p class='c027'>1911, 1912, 1913, 1918 and 1919—<cite>Eng. and Min. Journ.</cite>, vol. 107, No. 2, p. 77.</p>
-
-<div class='footnote' id='fM'>
-<p class='c007'><a href='#rM'>M</a>. The price was fixed on May 14, 1918, at $105.</p>
-</div>
-
-<div class='chapter'>
- <span class='pageno' id='Page_16'>16</span>
- <h2 class='c005'>CHAPTER II<br /> SOURCES OF SUPPLY OF PLATINUM AND ALLIED METALS<br /> <br /> (<i>a</i>) BRITISH EMPIRE</h2>
-</div>
-
-<p class='c006'>The outputs of platinum metals in different parts of the
-British Empire are shown in the table on p. <a href='#Page_14'>14</a>.</p>
-
-<h3 class='c008'>EUROPE</h3>
-<h4 class='c008'><span class='sc'>United Kingdom</span></h4>
-
-<p class='c015'>There is no known occurrence of platinum in the United
-Kingdom, but there has always been much trade done there
-in the platinum metals, England having been the second
-largest importer of the big consuming nations. The following
-were the importations of Russian platinum for five periods
-since 1863:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c023'><i>Period</i></th>
- <th class='c024'><i>Oz.</i></th>
- </tr>
- <tr>
- <td class='c022'>1863–1880</td>
- <td class='c026'>512,005</td>
- </tr>
- <tr>
- <td class='c022'>1881–1890</td>
- <td class='c026'>167,999</td>
- </tr>
- <tr>
- <td class='c022'>1891–1900</td>
- <td class='c026'>437,645</td>
- </tr>
- <tr>
- <td class='c022'>1901–1910</td>
- <td class='c026'>259,111</td>
- </tr>
- <tr>
- <td class='c022'>1911–1915</td>
- <td class='c026'>71,624</td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='2'><a id='r15' /><a href='#f15' class='c011'><sup>[15]</sup></a> p. 923</td></tr>
-</table>
-
-<p class='c028'>The above figures do not include receipts of platinum for seven
-different years since 1863, for which there are no records.</p>
-
-<p class='c007'>The table on the next page gives a summary of total imports
-of platinum metals for the years 1910–1918, with the countries
-of origin.</p>
-
-<p class='c007'>The platinum market in London was controlled by the
-Government from January 1916 to December 1918, Johnson,
-Matthey &amp; Co., Ltd., acting as buyers. On December 26, 1916,
-platinum was declared contraband.</p>
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='11'><span class='pageno' id='Page_17'>17</span></td></tr>
- <tr><th class='c012' colspan='11'><i>Imports of Platinum Metals, wrought and unwrought, into United Kingdom</i></th></tr>
- <tr><th class='c012' colspan='11'>(<i>in troy oz.</i>)</th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <th class='btt bbt c019' colspan='2'>&nbsp;</th>
- <th class='btt bbt blt c017'>1910.</th>
- <th class='btt bbt blt c017'>1911.</th>
- <th class='btt bbt blt c017'>1912.</th>
- <th class='btt bbt blt c017'>1913.</th>
- <th class='btt bbt blt c017'>1914.</th>
- <th class='btt bbt blt c017'>1915.</th>
- <th class='btt bbt blt c017'>1916.</th>
- <th class='btt bbt blt c017'>1917.</th>
- <th class='btt bbt blt c017'>1918.</th>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From British countries</i></td>
- <td class='blt c020'>24</td>
- <td class='blt c020'>1,011</td>
- <td class='blt c020'>1,100</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>28</td>
- <td class='blt c020'>458</td>
- <td class='blt c020'>265</td>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From foreign countries</i>:</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Russia</td>
- <td class='blt c020'>4,167</td>
- <td class='blt c020'>2,579</td>
- <td class='blt c020'>461</td>
- <td class='blt c020'>1,778</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>7</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Germany</td>
- <td class='blt c020'>5,837</td>
- <td class='blt c020'>8,786</td>
- <td class='blt c020'>1,669</td>
- <td class='blt c020'>50</td>
- <td class='blt c020'>3</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>France</td>
- <td class='blt c020'>35,149</td>
- <td class='blt c020'>30,449</td>
- <td class='blt c020'>33,969</td>
- <td class='blt c020'>33,149</td>
- <td class='blt c020'>12,592</td>
- <td class='blt c020'>1,878</td>
- <td class='blt c020'>1,666</td>
- <td class='blt c020'>632</td>
- <td class='blt c020'>596</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>United States</td>
- <td class='blt c020'>494</td>
- <td class='blt c020'>794</td>
- <td class='blt c020'>644</td>
- <td class='blt c020'>3,623</td>
- <td class='blt c020'>257</td>
- <td class='blt c020'>1,265</td>
- <td class='blt c020'>191</td>
- <td class='blt c020'>2,716</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Colombia</td>
- <td class='blt c020'>2,037</td>
- <td class='blt c020'>4,909</td>
- <td class='blt c020'>4,552</td>
- <td class='blt c020'>3,725</td>
- <td class='blt c020'>2,296</td>
- <td class='blt c020'>139</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>&nbsp;</td>
- <td class='bbt c019'>Other foreign countries</td>
- <td class='bbt blt c020'>454</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>158</td>
- <td class='bbt blt c020'>315</td>
- <td class='bbt blt c020'>40</td>
- <td class='bbt blt c020'>59</td>
- <td class='bbt blt c020'>79</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>362</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Total: foreign countries</td>
- <td class='bbt blt c020'>48,138</td>
- <td class='bbt blt c020'>47,517</td>
- <td class='bbt blt c020'>41,453</td>
- <td class='bbt blt c020'>42,640</td>
- <td class='bbt blt c020'>15,188</td>
- <td class='bbt blt c020'>3,348</td>
- <td class='bbt blt c020'>1,936</td>
- <td class='bbt blt c020'>3,348</td>
- <td class='bbt blt c020'>958</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Grand total, oz.</td>
- <td class='bbt blt c020'>48,162</td>
- <td class='bbt blt c020'>48,528</td>
- <td class='bbt blt c020'>42,553</td>
- <td class='bbt blt c020'>42,640</td>
- <td class='bbt blt c020'>15,188</td>
- <td class='bbt blt c020'>3,348</td>
- <td class='bbt blt c020'>1,964</td>
- <td class='bbt blt c020'>3,806</td>
- <td class='bbt blt c020'>1,223</td>
- </tr>
- <tr><td class='c012' colspan='11'><a id='r16' /><a href='#f16' class='c011'><sup>[16]</sup></a></td></tr>
-</table>
-
-<p class='c007'><span class='pageno' id='Page_18'>18</span>About 7 per cent. of the Russian and one-half of the Colombian outputs were sold to England during the war, as well as
-most of the Australian and Indian production. Much of this
-metal was refined in the United States.</p>
-
-<p class='c007'>According to J. E. Orchard<a id='r17' /><a href='#f17' class='c011'><sup>[17]</sup></a>, the commercial control
-(financial) of the world’s output of platinum of 267,233 oz.
-of 1913 was divided as follows: France, 74 per cent.;
-Russia, 18 per cent.; United States, 4 per cent.; British
-Empire, 2 per cent.; other countries, 2 per cent.; whilst the
-political control (territorial) was divided as follows: Russia, 93
-per cent.; Colombia, 6 per cent.; other countries, 1 per cent.</p>
-
-<h3 class='c016'>ASIA</h3>
-<h4 class='c008'><span class='sc'>India</span></h4>
-
-<p class='c015'>Traces of platinum and iridium have been noticed in association
-with the gold obtained from native workings at Bonai
-City. The gold occurs in a deposit of iron oxide, which forms
-the cementing material in a hard stratum of quartz pebbles.
-The oxide is separated by pounding, and then washed away
-to extract the gold. The proportion of platinum to gold is
-probably less than 1 to 20.</p>
-
-<p class='c007'>Platinum occurs, associated with gold, in the gravels of the
-Irawaddy River in Burma. A small quantity of platinum is
-obtained at Myitkyina by the Burma Gold Dredging Company.
-During the years 1911–13, 152 oz. were won by this company.
-In 1915 the output was 17·7 oz., and in 1916, 9·25 oz. In
-1917, 4 oz. only were produced<a id='r18' /><a href='#f18' class='c011'><sup>[18]</sup></a>. Owing to the cessation
-of the golddredging operations at Myitkyina, Burma has
-ceased to produce platinum, the quantity recovered during
-the year 1918 being only 0·31 oz.<a id='r19' /><a href='#f19' class='c011'><sup>[19]</sup></a>.</p>
-
-<p class='c007'>It has also been located with iridosmine in the auriferous
-gravels of the rivers draining the slopes of the Patkoi Ranges,
-both on the Assam and Burma sides<a id='r20' /><a href='#f20' class='c011'><sup>[20]</sup></a>.</p>
-
-<h3 class='c016'>AFRICA</h3>
-<h4 class='c008'><span class='sc'>Rhodesia</span></h4>
-
-<p class='c015'>Platinum has recently been located in the Gwelo district,
-about 6 miles north-east of Indiva siding, where it occurs
-in the great dyke of norite, which is here about 4 miles
-<span class='pageno' id='Page_19'>19</span>wide. A. E. V. Zealley, the late assistant Government geologist,
-made this occurrence the subject of a special report<a id='r21' /><a href='#f21' class='c011'><sup>[21]</sup></a>.</p>
-
-<p class='c007'>The country rock is a serpentinized dunite. The deposit
-is capped by a ferruginous siliceous gossan from 4 to 5 ft. wide,
-which may be traced on the surface for about 100 ft., and is
-comparable to a fissure vein. The gossan consists largely
-of hæmatite and chalcedony, with occasional veinlets of
-copper and nickel minerals. Although the presence of platinum
-in the ore could not be detected by panning, the possibility
-of its occurrence on geological grounds was considered, and
-a sample of concentrate from an unstated amount of ore was
-forwarded to the Imperial Institute for analysis. The sample
-was found to contain platinum to the amount of 1 dwt. 20 gr.
-per ton. A report on the further development of this deposit
-is awaited with interest.</p>
-
-<p class='c007'>A sample of concentrate from an unstated amount of material
-from the gem-bearing gravels of Somabula Forest, Gwelo district,
-was received at the Imperial Institute from the Director
-of the Geological Survey of Southern Rhodesia in November,
-1918. On analysis this sample yielded the following per ton:
-platinum, 3 oz. 12 dwt.; osmiridium, 7 oz. The concentrate
-also contained a large proportion of gold. As shown by the
-latest information available, the deposits, although undoubtedly
-rich, appear to extend over a limited area. According to an
-analysis made at the Imperial Institute, a sample of chromite
-from Southern Rhodesia (Selukwe) contained 0·17 per cent.
-copper and nickel oxides, and a trace of platinum<a id='r22' /><a href='#f22' class='c011'><sup>[22]</sup></a>.</p>
-
-<p class='c007'>H. B. Maufe<a id='r23' /><a href='#f23' class='c011'><sup>[23]</sup></a> has stated that as the River Umtebekwe
-drains two areas of ultra-basic rock containing chromite, it
-might be expected to contain alluvial platinum, as well as gold,
-and, as a matter of fact, platinum has actually been discovered
-in a reef in the Great Dyke (norite), at the head of the
-Umtebekwe valley.</p>
-
-<p class='c007'>The presence of platinum was recently reported at Willoughby’s
-Halt, 12 miles south of Gwelo.</p>
-
-<h4 class='c008'><span class='sc'>Union of South Africa</span></h4>
-
-<p class='c015'><i>Cape Colony</i><a id='r24' /><a href='#f24' class='c011'><sup>[24]</sup></a>.—Platinum is present in varying quantities
-in the copper-nickel deposits at Insizwa, situated in the Cape
-<span class='pageno' id='Page_20'>20</span>Province, close to the boundary between East Griqualand and
-Pondoland.</p>
-
-<p class='c007'>The rock formation consists of a basin-shaped mass of intrusive
-norite, averaging from 2,000 to 3,000 ft. in thickness, and
-lying in the shales and sandstones of the Beaufort Series of
-the Karroo System.</p>
-
-<p class='c007'>The ore body consists of sulphides of copper and nickel, in
-association with pyrrhotite, the minerals occurring disseminated
-near the basal margin of the intrusive in olivine picrite.
-Gold and silver are also present in small quantities.</p>
-
-<p class='c007'>The average copper and nickel contents in the ore are each
-about 4 per cent., and the platinum content averages from
-2 to 3 dwt. per ton, the platinum being unequally distributed
-through the ore<a id='r25' /><a href='#f25' class='c011'><sup>[25]</sup></a> p. 14.</p>
-
-<p class='c007'>It is not certain in what form the platinum occurs. It does
-not appear to be present as sperrylite. In the opinion of
-W. H. Goodchild it may occur in close association with the
-silver<a href='#f25' class='c011'><sup>[25]</sup></a> p. 35.</p>
-
-<p class='c007'>Mining operations have been intermittently carried on here
-during the last fifty years, the last exploratory work coming
-to an end in 1911. Operations were, however, resumed early
-in 1920.</p>
-
-<p class='c007'><i>Transvaal.</i>—Small amounts of platinum and its allied
-metals have from time to time been noticed in black sands
-from the battery “clean-ups” on the Rand at Klerksdorp
-and other gold-mining districts, and platinum to the amount
-of 2½ dwt. per ton is reported to have been present in residual
-slimes at the Rietfontein mines<a id='r26' /><a href='#f26' class='c011'><sup>[26]</sup></a>. A specimen, consisting
-of about 85 per cent. osmiridium and 15 per cent. platinum,
-recently received at the Imperial Institute, was stated to
-have been taken from a compact shale, immediately underlying
-the banket reef in one of the mines of the Klerksdorp district.
-In the large majority of the gold mines, however, the platinum
-metals, if present, appear to exist in such small quantities as
-to escape detection.</p>
-
-<p class='c007'>A series of samples of chromite from Kromdaal, near Rustenburg,
-showed from a mere trace to 1 dwt. of platinum per ton,
-and one sample of chromite from the Secocoeniland deposits
-showed as much as 1½ dwt. of platinum per ton<a id='r27' /><a href='#f27' class='c011'><sup>[27]</sup></a>.</p>
-
-<div>
- <span class='pageno' id='Page_21'>21</span>
- <h3 class='c016'>NORTH AMERICA</h3>
-</div>
-
-<h4 class='c008'><span class='sc'>Canada</span></h4>
-
-<p class='c015'>The occurrence of platinum in Canada was first observed in
-1862, in the course of gold-mining operations on the Rivière-du-Loup
-and the Rivière-des-Plantes in the province of Quebec<a id='r28' /><a href='#f28' class='c011'><sup>[28]</sup></a> p. 210.</p>
-
-<p class='c007'>Since that time platinum has been found in a number of
-localities associated with auriferous gravels, but the crude
-metal has only been obtained commercially from the Similkameen
-district in British Columbia. These deposits first
-attracted attention in 1885. All the workings are alluvial,
-although the platinum has in several cases been traced to its
-parent source.</p>
-
-<p class='c007'><i>Alberta.</i>—Platinum and gold in minute grains, closely
-intermixed, are found in the North Saskatchewan River, near
-Edmonton. In 1918 certain platinum occurrences were
-examined by the Munitions Resources Commission, visits
-being paid to Fort Saskatchewan and the Peace River district,
-in Alberta. These deposits, however, proved to be disappointing.
-In the former locality, which was carefully tested by
-drilling, the values of the samples obtained averaged less
-than 10 cents in gold and platinum per c. yd. of gravel<a id='r29' /><a href='#f29' class='c011'><sup>[29]</sup></a> p. 427.</p>
-
-<p class='c007'><i>British Columbia.</i>—Platinum, associated with gold, which
-is the dominant metal, occurs in the Tulameen River and its
-tributaries, the principal of which is Slate Creek, others being
-Cedar, Eagle, Bear and Granite Creeks. The metal is present
-in small rounded grains, or pellets. Chromite is often found
-intergrown with the platinum, olivine and pyroxene usually
-occurring in association. The heavy minerals remaining with
-platinum in the concentrate are titaniferous magnetite,
-chromite and native copper. The platinum is sometimes
-magnetic, probably due to the covering of the grains by small
-particles of magnetite<a id='r30' /><a href='#f30' class='c011'><sup>[30]</sup></a>.</p>
-
-<p class='c007'>The following analysis, according to G. C. Hoffmann, is
-representative of an average sample of crude platinum from
-the Tulameen River:</p>
-<table class='table0' summary=''>
- <tr><td class='c012' colspan='2'><span class='pageno' id='Page_22'>22</span></td></tr>
- <tr>
- <th class='c022'></th>
- <th class='c024'>Per cent.</th>
- </tr>
- <tr>
- <td class='c022'>Platinum</td>
- <td class='c026'>72·07</td>
- </tr>
- <tr>
- <td class='c022'>Palladium</td>
- <td class='c026'>0·19</td>
- </tr>
- <tr>
- <td class='c022'>Rhodium</td>
- <td class='c026'>2·57</td>
- </tr>
- <tr>
- <td class='c022'>Iridium</td>
- <td class='c026'>1·14</td>
- </tr>
- <tr>
- <td class='c022'>Osmiridium</td>
- <td class='c026'>10·51</td>
- </tr>
- <tr>
- <td class='c022'>Copper</td>
- <td class='c026'>3·39</td>
- </tr>
- <tr>
- <td class='c022'>Iron</td>
- <td class='c026'>8·59</td>
- </tr>
- <tr>
- <td class='c022'>Gangue (Chromite)</td>
- <td class='c026'>1·69</td>
- </tr>
-</table>
-
-<p class='c007'>Owing to the presence of osmiridium in considerable proportion,
-the ore is classed as “hard metal,” and on that
-account fetches a higher price. Many of the richer placers
-have become exhausted, and work is now carried on by a few
-individuals, principally Chinese, who work during the summer
-months only. In some cases high benches, 50 to 100 ft. above
-the creek bottom, are being worked. Much of the platinum
-and gold is of a coarse texture, with a rough surface, and
-the latter is sometimes found embedded in quartz. Nuggets
-are sometimes found encrusted with chromite, and are thus
-liable to be overlooked. The deposits are therefore not of
-great age, and the metals have not been transported long
-distances from their sources.</p>
-
-<p class='c007'>Kemp is of opinion that the platinum is derived from
-pyroxenite dykes cutting through peridotites, which outcrop
-on Olivine and Grasshopper Mountains.</p>
-
-<p class='c007'>It is of interest to note that some diamonds and rubies
-have been discovered with the platinum in the Tulameen
-deposits. They are of good quality, but of small size, and
-occur in a matrix of dunite<a href='#f28' class='c011'><sup>[28]</sup></a> p. 210. American capital
-dominates the platinum industry in the district. In 1918,
-at the request of the Imperial Munitions Board, special investigations
-in this area were undertaken by members of the
-Geological Survey, and several prospecting bores were put
-down to bedrock. Full reports of the work done are not yet
-available, but it is understood that the results are considered
-to be promising, and to warrant further examination of the
-district<a href='#f29' class='c011'><sup>[29]</sup></a> p. 429.</p>
-
-<p class='c007'>Platinum was in 1918 discovered at Franklin Camp, near
-Grand Forks, B.C., in the “Black Lead,” so-called, which is a
-mixture of augite, 75·13 per cent.; orthoclase and microcline,
-17·06 per cent.; hornblende, 1·47 per cent.; and magnetite,
-6·06 per cent., as determined by microscopic measurements on
-a typical specimen, with accessory minerals, chalcopyrite,
-<span class='pageno' id='Page_23'>23</span>bornite and apatite. A sample of chalcopyrite assayed 0·38 oz.
-crude platinum per ton. Samples of the “Black Lead”
-assayed from 0·02 to 0·17 oz. per ton<a id='r31' /><a href='#f31' class='c011'><sup>[31]</sup></a>.</p>
-
-<p class='c007'>At Burnt Basin, on the Mother Lode claim, an auriferous
-quartz vein carries platinum, in amounts varying from a trace
-to 0·25 oz. per ton. The quartz also contains chalcopyrite,
-pyrite, galena, sphalerite and molybdenite<a href='#f31' class='c011'><sup>[31]</sup></a>. Native
-platinum in small quantities has been found associated with
-gold in the following localities: Tranquille River, Fraser
-River, Rock Creek, Yale District, North Thompson and Clearwater
-Rivers. It has also been reported to occur in a dyke
-across the Kootenay River upon the Granite Poorman Mining
-Company’s property a few miles from Nelson<a id='r32' /><a href='#f32' class='c011'><sup>[32]</sup></a>. At Siwash
-Creek, in the Tulameen district, small flakes of platinum,
-associated with chromite, often occur in shear zones in granite.
-Dredging for gold and platinum is being carried on, on the
-Peace River, North British Columbia.</p>
-
-<p class='c007'>According to J. B. Hobson the heavy concentrate produced
-on the Consolidated Caribo hydraulic mine at Quesnel, contains,
-besides gold and silver, platinum, palladium and osmiridium,
-one analysis giving a total value of $3,873 per ton.
-The gold and silver being non-amalgamable are probably
-included in particles of pyrite and galena, whilst the platinum
-metals are found as minute grains or are enclosed in particles
-of chromite and magnetite. A system of “under-currents” is
-being installed to properly dress this concentrate<a id='r33' /><a href='#f33' class='c011'><sup>[33]</sup></a>.</p>
-
-<p class='c007'>In 1917 the recorded output of crude platinum from the
-placer gravels of the Tulameen district in British Columbia
-was 57 oz., that for 1918 being 39 oz. For the five years preceding
-1892, this district produced on an average over 1,500 oz.
-per year.</p>
-
-<p class='c007'><i>Manitoba.</i>—Samples of gold ore containing platinum have
-been obtained in the Star Lake district of south-eastern
-Manitoba<a id='r34' /><a href='#f34' class='c011'><sup>[34]</sup></a>. Analyses of the samples from different auriferous
-reefs were made by the Department of Mines in 1917,
-and yielded platinum varying in amount from a trace to 0·1 oz.
-per ton. In addition to gold and platinum, the veins carry
-small quantities of galena, zinc blende, pyrite, chalcopyrite
-and arsenopyrite in a gangue consisting mainly of quartz.</p>
-
-<p class='c007'><span class='pageno' id='Page_24'>24</span>Platinum is reported to occur in auriferous quartz veins in
-several mines and prospects in Le Pas district; a picked
-sample of ore from the mine of the Northern Manitoba and
-Development Company, assayed $49 gold and $17 platinum
-per ton<a id='r35' /><a href='#f35' class='c011'><sup>[35]</sup></a>. McCafferty’s Prospect, about 5 miles away,
-contains platiniferous quartz.</p>
-
-<p class='c007'><i>Nova Scotia.</i>—According to E. R. Faribault in <cite>Summary
-Report</cite>, 1918, Part F, of the Canadian Department of Mines,
-platinum has been found, mostly in traces, in some of the old
-gold districts of Halifax county and, lately, in the tungsten
-concentrates of the Moose River mines. So far, all occurrences
-are in quartz veins in the lower quartzite and slate formation
-of the gold-bearing series of the Atlantic coast. The
-platiniferous mineral is supposed to be sperrylite, with which
-is associated arsenopyrite.</p>
-
-<p class='c007'><i>Ontario.</i>—Sudbury is one of the few places where platinum
-is profitably extracted from deposits <i>in situ</i>. The metal,
-which was first discovered in this region in 1889, is found mostly
-in combination with arsenic, as sperrylite associated mainly
-with chalcopyrite in the well-known copper and nickel-bearing
-deposits of the district.</p>
-
-<p class='c007'>The origin of the ore bodies has not yet been settled. They
-are either marginal deposits in, or off-shoot deposits to, a norite
-laceolith, which has intruded sedimentary rocks, the ores
-consisting principally of chalcopyrite, pyrrhotite, and pentlandite.
-Metallic platinum, gold, silver and palladium occur in
-the ore, the last also, probably, as an arsenide. The highest
-platinum content is associated with the highest copper content;
-the highest palladium with the highest nickel. According
-to Roberts and Longyear<a id='r36' /><a href='#f36' class='c011'><sup>[36]</sup></a> the mean analysis of rocks
-of from sixteen drill holes gave an average ore content of:
-copper, 1·11 per cent.; nickel, 1·95 per cent.; silver, 0·223 oz.;
-gold, 0·022 oz.; and metallic platinum, 0·0068 oz. per ton. The
-ore is principally worked for its nickel and copper content,
-and yields a large proportion of the world’s supply of nickel.
-The ore is first smelted at the mines, and a portion of the low-grade
-matte so produced is then shipped to South Wales for
-final treatment, the remainder being sent to the recently-constructed
-refinery of the International Nickel Co., at Port
-<span class='pageno' id='Page_25'>25</span>Colborne, Ontario, and to the United States. It was stated
-in 1903 that this matte contained on the average 1·25 oz. of
-the platinum metals per ton of nickel content of the matte,
-of which about 80 per cent. was extracted<a id='r37' /><a href='#f37' class='c011'><sup>[37]</sup></a> p. 10. The
-Victoria Mine, owned by the Mond Nickel Co., is stated to
-carry a high percentage of the precious metals, as is also the
-Vermilion Mine, although in the latter case the ore body is
-very small. In 1917 the total output of copper-nickel ore
-from these deposits amounted to 1,506,828 tons, of which the
-Canadian Copper Co. raised 1,139,629 tons, the Mond Nickel
-Co. 361,335 tons, and the Alexo Mining Co. 5,864 tons. The
-nickel content of the ore of the Canadian Copper Co. was
-about 2·5 times that of the copper, whilst the ore mined
-by the other two companies contained the two metals in
-approximately equal proportions. The matte produced by
-the Alexo Mining Co. is smelted by the Mond Nickel Co.
-According to the report of the Royal Ontario Nickel Commission,
-the matte produced by the Canadian Copper Co. in 1916
-was estimated to contain 4,640 oz. platinum and 8,460 oz.
-palladium, corresponding to 0·10 oz. platinum and 0·15 oz.
-palladium per ton of matte, the International Nickel Co.
-recovering in that year 1,093 oz. platinum and 257 oz. allied
-metals. This company is now reported to have improved its
-methods of recovery. In 1918 the total matte shipment by
-the Canadian Copper Co. is stated to have contained, among
-other precious metals, 8,677 oz. platinum and 13,016 oz.
-palladium<a id='r38' /><a href='#f38' class='c011'><sup>[38]</sup></a>.</p>
-
-<p class='c007'>According to information supplied by the Mond Nickel Co.,
-their nickel residues derived from the refining of the matte
-are taken over by Johnson, Matthey &amp; Co., Ltd. During the
-years 1915–18 the residues disposed of were estimated to contain
-the following amounts of platinum metals:</p>
-<table class='table1' summary=''>
- <tr><th class='c012' colspan='5'>(In oz. troy.)</th></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt blt c017'>1915.</th>
- <th class='btt bbt blt c017'>1916.</th>
- <th class='btt bbt blt c017'>1917.</th>
- <th class='btt bbt blt c017'>1918.</th>
- </tr>
- <tr>
- <td class='c019'>Platinum</td>
- <td class='blt c020'>3,078</td>
- <td class='blt c020'>3,782</td>
- <td class='blt c020'>4,913</td>
- <td class='blt c020'>4,465</td>
- </tr>
- <tr>
- <td class='c019'>Palladium</td>
- <td class='blt c020'>5,474</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>Iridium and Rhodium</td>
- <td class='bbt blt c020'>973</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- <td class='bbt blt c020'>&nbsp;</td>
- </tr>
-</table>
-<p class='c006'><span class='pageno' id='Page_26'>26</span>Messrs. Johnson, Matthey &amp; Co., Ltd., have kindly supplied
-the following figures of platinum-extraction from these residues:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c022'></th>
- <th class='c024'>Oz. troy.</th>
- </tr>
- <tr>
- <td class='c022'>1916</td>
- <td class='c026'>3,722</td>
- </tr>
- <tr>
- <td class='c022'>1917</td>
- <td class='c026'>4,719</td>
- </tr>
- <tr>
- <td class='c022'>1918</td>
- <td class='c026'>4,958</td>
- </tr>
-</table>
-
-<p class='c007'>The British America Nickel Corporation, who are developing
-some large deposits in the same district, are also erecting a refinery
-near Hull on the Ottawa River. It is stated that they will
-employ the Hybinette process of electrolytic refining, and expect
-to obtain a high recovery of the precious metals<a href='#f29' class='c011'><sup>[29]</sup></a> p. 425.</p>
-
-<p class='c007'>With gradual improvements in the refining process, and
-with the refining of the whole of the matte produced, instead
-of a portion only, as at present, it seems probable that the
-production of platinum metals by the three nickel companies
-may in time exceed 10,000 oz. per annum.</p>
-
-<p class='c007'>The 1919 report of the Ontario Bureau of Mines shows that
-in 1918 the International Nickel Co. treated 62,250 tons of
-matte for 650 fine oz. of platinum, 787 oz. of palladium, and
-473 oz. of metals of the rhodium group. This cannot be used
-as a basis of calculation, as the proportions are not constant.</p>
-
-<p class='c007'>On the Quinn claims, near the Crœsus Mine, Munro Township,
-is auriferous quartz containing platinum. Five assays
-gave a platinum content of value ranging from $180 to $1,800
-per ton (with platinum at from $40 to $50 per oz.)<a href='#f31' class='c011'><sup>[31]</sup></a>. The
-Abro Mine in the Timiskaming district in 1915 shipped between
-5,000 and 6,000 tons of ore, containing 0·03 oz. of palladium
-and platinum per ton. The ore consists of pyrrhotite, chalcopyrite
-and pentlandite, in a gangue of altered peridotite and
-serpentine<a href='#f7' class='c011'><sup>[7]</sup></a>.</p>
-
-<p class='c007'><i>Yukon Territory.</i>—Platinum occurs associated with gold in
-small quantities in most of the tributaries of the Yukon River,
-notably at the mouth of the Hootalinqua River, and in the
-River Lewis<a href='#f37' class='c011'><sup>[37]</sup></a> p. 12.</p>
-
-<h4 class='c008'><span class='sc'>Newfoundland</span></h4>
-
-<p class='c015'>Chromite derived from the serpentinized area in the region
-of Mount Cormack, situated in the central part of the island,
-has been found to contain small quantities of platinum<a id='r39' /><a href='#f39' class='c011'><sup>[39]</sup></a>.</p>
-
-<div>
- <span class='pageno' id='Page_27'>27</span>
- <h3 class='c016'>AUSTRALASIA</h3>
-</div>
-
-<h4 class='c008'><span class='sc'>Australia</span></h4>
-
-<p class='c015'>The most important occurrences of platinum in the Commonwealth
-are at Fifield and at Platina, in New South Wales.</p>
-
-<p class='c007'>The outputs of crude platinum in Australia in recent years
-were all exported to the United Kingdom as under:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='btt bbt c023'>Year.</th>
- <th class='btt bbt c024'>Troy oz.</th>
- </tr>
- <tr>
- <td class='c022'>1910</td>
- <td class='c026'>332</td>
- </tr>
- <tr>
- <td class='c022'>1911</td>
- <td class='c026'>470</td>
- </tr>
- <tr>
- <td class='c022'>1912</td>
- <td class='c026'>610</td>
- </tr>
- <tr>
- <td class='c022'>1913</td>
- <td class='c026'>442</td>
- </tr>
- <tr>
- <td class='c022'>1914</td>
- <td class='c026'>244</td>
- </tr>
- <tr>
- <td class='c022'>1915</td>
- <td class='c026'>56</td>
- </tr>
- <tr>
- <td class='c022'>1916</td>
- <td class='c026'>82</td>
- </tr>
- <tr>
- <td class='c022'>1917</td>
- <td class='c026'>259</td>
- </tr>
- <tr>
- <td class='bbt c022'>1918</td>
- <td class='bbt c026'>607</td>
- </tr>
-</table>
-<p class='c027'><i>Note.</i>—These figures do not include the osmiridium produced in Tasmania.</p>
-<p class='c007'>Recent imports of manufactured platinum were as under:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='btt bbt c022'></th>
- <th class='btt bbt c024'>Oz.</th>
- </tr>
- <tr>
- <td class='c022'>1910</td>
- <td class='c026'>320</td>
- </tr>
- <tr>
- <td class='c022'>1911</td>
- <td class='c026'>504</td>
- </tr>
- <tr>
- <td class='c022'>1912</td>
- <td class='c026'>318</td>
- </tr>
- <tr>
- <td class='c022'>1913</td>
- <td class='c026'>301</td>
- </tr>
- <tr>
- <td class='c022'>1914–15</td>
- <td class='c026'>223</td>
- </tr>
- <tr>
- <td class='c022'>1915–16</td>
- <td class='c026'>89</td>
- </tr>
- <tr>
- <td class='bbt c022'>1917–18</td>
- <td class='bbt c026'>18</td>
- </tr>
-</table>
-
-<p class='c007'>The question of the refining of platinum in Australia has
-been under consideration for some time; so far the crude
-material has all been sent to England. The outlook for
-future production of crude platinum in Australia is not
-promising, with the exception of that of Bald Hill district,
-Tasmania.</p>
-
-<p class='c007'><i>New South Wales.</i>—Platinum is obtained at Platina, in the
-Fifield division, in the east central part of the State, from a
-buried gravel channel, in which it occurs in association with
-gold and osmiridium. The rocks in the vicinity of the “leads”
-consist chiefly of slates, but the source of the platinum is not
-known<a href='#f4' class='c011'><sup>[4]</sup></a> p. 557. These deposits were first exploited in 1894,
-and from that year to 1918 inclusive, the total output of
-platinum from New South Wales was 14,680 oz.<a id='r40' /><a href='#f40' class='c011'><sup>[40]</sup></a>. The
-gravels have yielded amounts of 6 dwt. platinum and 2 dwt.
-<span class='pageno' id='Page_28'>28</span>gold per ton, but according to Government reports the richer
-deposits are nearly worked out; mining operations are carried
-on with great difficulty, as there is a great scarcity of water
-and a deep overburden, varying from 20 to 80 ft. in depth.
-It is estimated that there are 200 acres of platinum-country
-available, sufficiently rich to pay, were it worked on a large
-scale with an abundant supply of water<a id='r41' /><a href='#f41' class='c011'><sup>[41]</sup></a>.</p>
-
-<p class='c007'>A new occurrence has recently been discovered about 1
-mile distant from the old Platina deep “lead,” the platinum
-being associated with small quantities of gold. The “lead”
-has so far been proved to extend over an area about 1 mile
-in length, and from 60 to 150 ft. in width, the wash varying
-in depth from a few feet to up to about 80 ft. The pay gravels,
-which rest on shales and sandstones of Silurian and Devonian
-age, intruded by dioritic dykes, are stated to be from 1 to 3 ft.
-thick. The following analysis is representative of the crude
-platinum produced:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c022'></th>
- <th class='c024'>Per cent.</th>
- </tr>
- <tr>
- <td class='c022'>Platinum</td>
- <td class='c026'>75·90</td>
- </tr>
- <tr>
- <td class='c022'>Iridium</td>
- <td class='c026'>1·30</td>
- </tr>
- <tr>
- <td class='c022'>Rhodium</td>
- <td class='c026'>1·30</td>
- </tr>
- <tr>
- <td class='c022'>Palladium</td>
- <td class='c026'>trace</td>
- </tr>
- <tr>
- <td class='c022'>Osmiridium</td>
- <td class='c026'>9·30</td>
- </tr>
- <tr>
- <td class='c022'>Iron</td>
- <td class='c026'>10·15</td>
- </tr>
- <tr>
- <td class='c022'>Silica</td>
- <td class='c026'>1·12</td>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr><td class='c012' colspan='2'><a id='r42' /><a href='#f42' class='c011'><sup>[42]</sup></a> p. 14.</td></tr>
-</table>
-
-<p class='c007'>Platinum is frequently found in beach sand deposits on the
-coastal border between Queensland and New South Wales,
-notably at Ballina, close to the mouth of the Richmond River;
-at Evans Head, further south; and at Currumbin, near the
-mouth of the Tweed River. In this locality black sands containing
-platinum, associated with gold, cassiterite, monazite
-and osmiridium, accumulate on the beaches during stormy
-weather. At Ballina and Evans Head, the platinum predominates
-over the gold, but at Currumbin, further south, the
-gold is in the greater quantity<a href='#f4' class='c011'><sup>[4]</sup></a> p. 557. The minerals are
-present in a very finely-divided state, and separation of the
-valuable metals is a matter of considerable difficulty. The
-problem does not appear to have been satisfactorily solved up
-to the present time, although promising experiments have
-recently been carried out with screening and magnetic treatment.
-The deposits are, unfortunately, very low grade.</p>
-
-<p class='c007'><span class='pageno' id='Page_29'>29</span>The sources of the metals are uncertain. The platinum and
-osmiridium appear to have been derived from the western
-edge of the Clarence coal measures, which now exist only as
-fragmentary outcrops. The gold, tin and monazite may have
-their origin in granite and other rocks of the New England
-tableland. Chromite is present in some of the Currumbin
-sands, which suggests serpentine as the probable source of
-platinum<a href='#f4' class='c011'><sup>[4]</sup></a> p. 557. Other associations are zircon, garnet,
-tourmaline, ilmenite, magnetite and sapphire.</p>
-
-<p class='c007'>In the Broken Hill district, principally at Little Darling
-and Mulga Springs Creek, platinum has been proved to extend
-over a considerable area in a copper-nickel gossan, closely
-associated with gabbro, decomposed gneisses and schists. In
-addition to platinum, the amounts of which vary from a trace
-to 16 dwt. per ton, gold, silver, iridium and palladium are
-also present<a id='r43' /><a href='#f43' class='c011'><sup>[43]</sup></a>. The deposits bear some resemblance to the
-nickel deposits of Sudbury, Ontario, and it is thought that here,
-too, the platinum occurs combined with arsenic, as sperrylite.</p>
-
-<p class='c007'><i>Queensland.</i>—In addition to the beach deposits between
-Southport and Currumbin, described above, platinum has
-been found in Coopooroo and Wairamba Creeks on the Russell
-Goldfield, near Innisfail; also in the Lucknow and Alma
-“reefs” of the Gympie Goldfield, where it is present in quartz
-lodes with native gold, and arsenopyrite, the accompanying
-rocks consisting of slates, alternating with volcanic tuffs and
-conglomerates; the metal also exists in the neighbouring
-gold-bearing alluvial deposits of Brickfield Gully.</p>
-
-<p class='c007'>Another occurrence of alluvial platinum is known at the
-head of the Don River in Central Queensland<a href='#f4' class='c011'><sup>[4]</sup></a> p. 556.</p>
-
-<p class='c007'><i>Victoria.</i>—Platinum occurs in the Walhalla Copper Mine,
-where it is associated in a hornblende-diorite lode-formation
-with copper pyrites, gold and silver. The ore is stated to contain
-from 2 to 7 dwt. platinum per ton. In the Thompson
-River Copper Mine platinum is found in a hornblendic rock
-rich in chalcopyrite.</p>
-
-<p class='c007'><i>Tasmania.</i>—Iridosmine has been produced from the Bald
-Hill district near Waratah, in the north-western part of the
-state, since 1900, the metal being obtained from placer deposits
-in Nineteen Mile Creek and its tributaries, Linger-and-Die,
-<span class='pageno' id='Page_30'>30</span>McGinty’s and Barren Creeks, and from Savage River. It
-has been located <i>in situ</i> in the rocks of Bald Hill, principally
-in serpentine, but also with chalcedony and opaline silica in
-lode-formations. In the former case, it is associated with
-magnetite, pyrite, pyrrhotite, nickel and gold. The iridosmine
-in the placer deposits is sometimes coated with iron oxide, and
-is also at times found enclosed in chromite. The following
-analysis in percentages, made at the Imperial Institute, is
-typical: osmium, 57·09; iridium, 33·80; platinum, 0·37;
-ruthenium, 8·19; palladium, 0·21; gold, 0·04; iron, 0·30;
-copper, trace.</p>
-
-<p class='c007'>Other localities in Tasmania at which osmiridium has been
-located are Heazlewood River, Whyte River, Castray River,
-Huskisson River, Wilson River and Boyes River; also the
-Badger gold diggings, west of Savage River, and the Salisbury
-goldfield near Beaconsfield.</p>
-
-<p class='c007'>The following table gives the recent annual output of osmiridium
-in Tasmania:</p>
-<table class='table1' summary=''>
- <tr>
- <th class='btt bbt c017'>Year.</th>
- <th class='btt bbt blt c017'>oz. (troy).</th>
- <th class='btt bbt blt c017'>Value in £.</th>
- </tr>
- <tr>
- <td class='c029'>1910</td>
- <td class='blt c020'>120&#8196;&#8196;</td>
- <td class='blt c020'>530</td>
- </tr>
- <tr>
- <td class='c029'>1911</td>
- <td class='blt c020'>272·9</td>
- <td class='blt c020'>1,188</td>
- </tr>
- <tr>
- <td class='c029'>1912</td>
- <td class='blt c020'>778·8</td>
- <td class='blt c020'>5,742</td>
- </tr>
- <tr>
- <td class='c029'>1913</td>
- <td class='blt c020'>1,261·6</td>
- <td class='blt c020'>12,016</td>
- </tr>
- <tr>
- <td class='c029'>1914</td>
- <td class='blt c020'>1,018·8</td>
- <td class='blt c020'>10,076</td>
- </tr>
- <tr>
- <td class='c029'>1915</td>
- <td class='blt c020'>247&#8196;&#8196;</td>
- <td class='blt c020'>1,581</td>
- </tr>
- <tr>
- <td class='c029'>1916</td>
- <td class='blt c020'>222·2</td>
- <td class='blt c020'>1,899</td>
- </tr>
- <tr>
- <td class='c029'>1917</td>
- <td class='blt c020'>332·1</td>
- <td class='blt c020'>4,898</td>
- </tr>
- <tr>
- <td class='c029'>1918</td>
- <td class='blt c020'>1,607&#8196;&#8196;</td>
- <td class='blt c020'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c029'>1919</td>
- <td class='bbt blt c020'>1,669·7</td>
- <td class='bbt blt c020'>39,614</td>
- </tr>
-</table>
-
-<p class='c007'><i>South Australia.</i>—In the north-east part of the State traces
-of platinum have been recognized by analysis as occurring in
-the outcrop of a lode near Boolcoomatta. Further information
-on this occurrence is not available.</p>
-
-<p class='c007'><i>Papua.</i>—Osmiridium, associated with small amounts of
-gold only, is known to occur as alluvial in the neighbourhoods
-of various serpentine areas; in the Lakekamu district, in
-flaky form; in the Yodda Valley, in appearance similar to
-native bismuth; and in other places in shot-like granules<a id='r44' /><a href='#f44' class='c011'><sup>[44]</sup></a>.</p>
-
-<h4 class='c008'><span class='sc'>New Zealand</span></h4>
-
-<p class='c015'>Platinum is only obtained commercially in New Zealand
-from the Orepuki district of Southland, where it is produced
-<span class='pageno' id='Page_31'>31</span>by the Round Hill Gold Mining Company as a by-product in
-the washing of auriferous gravels. According to information
-recently supplied by the Mines Department, the annual output
-of crude platinum for the last ten years has averaged 30 oz.,
-but in view of the recent falling-off of the gold production in
-this locality, the prospects of any increase in the output of
-platinum seem small.</p>
-
-<p class='c007'>In South Island the presence of platinum has been reported
-on the Thames River in quartz lodes, in a region of serpentine
-and diorite, and in a pyritic lode near the Taramakau River in
-the district of Westland, in close proximity to sheets of altered
-magnesian eruptive rocks<a href='#f4' class='c011'><sup>[4]</sup></a> p. 557. The platinum in the
-latter case occurs in association with silver, in the proportions
-of about 7 parts of the latter to 1 of the former, together
-with pyrite and limonite. Samples taken from the lode have
-been stated to have an average content of 3 dwt. 8 gr. platinum
-per ton<a id='r45' /><a href='#f45' class='c011'><sup>[45]</sup></a>.</p>
-
-<p class='c007'>Other localities in South Island where platinum has been
-located are the Taraka and George Rivers, which flow into
-Awarua Bay; the east coast of Otago, in beach sands and
-river gravels; the Clutha River; and the Nelson gold district.</p>
-
-<p class='c007'>Concentrates containing up to 2·5 per oz. per ton are reported
-to have been obtained from the Parapara sub-division.
-Platinum in New Zealand is often associated with gold, and
-the deposits are in many cases similar to those of the Urals.</p>
-
-<div class='chapter'>
- <span class='pageno' id='Page_32'>32</span>
- <h2 class='c005'>CHAPTER III<br /> SOURCES OF SUPPLY OF PLATINUM METALS<br /> <br /> (<i>b</i>) FOREIGN COUNTRIES</h2>
-</div>
-
-<h3 class='c008'>EUROPE</h3>
-
-<h4 class='c008'><span class='sc'>France</span></h4>
-
-<p class='c015'>Platinum metals are not produced in France, but platinum
-is known to occur at several places. In the Department of
-Charaste and Deux Sevres it occurs associated with pyrite
-and limonite; in the Valle du Drae, Hautes Alpes, above
-Chatalard, platinum occurs in tetrahedrite in metamorphic
-limestone; at St. Arey, near La Mure (Isere), it occurs in
-bournonite, in dolomite and altered limestone. Platinum is
-found in argentiferous tetrahedrite and malachite near Presles,
-in Savoy<a href='#f31' class='c011'><sup>[31]</sup></a>.</p>
-
-<p class='c007'>As mentioned below, under Russia (p. <a href='#Page_36'>36</a>), France controlled
-the production of platinum in Russia before the war through
-the Compagnie Internationale du Platine, due to its extensive
-ownership of platinum deposits and its contracts with
-Russian companies.</p>
-
-<p class='c007'>The accompanying table gives a summary of recent imports,
-with countries of origin, as far as can be obtained.</p>
-
-<h4 class='c008'><i>Imports</i></h4>
-
-<p class='c015'>Recent imports in kilograms (42·87 troy oz.) into France
-of crude, manufactured and scrap platinum, were as under:</p>
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='9'><span class='pageno' id='Page_33'>33</span></td></tr>
- <tr>
- <th class='btt bbt c030'>From Year.</th>
- <th class='btt bbt blmd c030'>United Kingdom.</th>
- <th class='btt bbt blt c030'>Russia.</th>
- <th class='btt bbt blt c030'>Germany.</th>
- <th class='btt bbt blt c030'>Serbia.</th>
- <th class='btt bbt blt c030'>Switzerland.</th>
- <th class='btt bbt blt c030'>Austria-Hungary.</th>
- <th class='btt bbt blt c030'>Other countries.</th>
- <th class='btt bbt blmd c030'>Total.</th>
- </tr>
- <tr>
- <td class='c030'>1910</td>
- <td class='blmd c031'>480</td>
- <td class='blt c031'>5,878</td>
- <td class='blt c031'>1,104</td>
- <td class='blt c031'>204</td>
- <td class='blt c031'>85</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>44</td>
- <td class='blmd c031'>7,795</td>
- </tr>
- <tr>
- <td class='c030'>1911</td>
- <td class='blmd c031'>575</td>
- <td class='blt c031'>6,895</td>
- <td class='blt c031'>822</td>
- <td class='blt c031'>782</td>
- <td class='blt c031'>127</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>192</td>
- <td class='blmd c031'>9,393</td>
- </tr>
- <tr>
- <td class='c030'>1912</td>
- <td class='blmd c031'>&nbsp;</td>
- <td class='blt c031'>5,454</td>
- <td class='blt c031'>283</td>
- <td class='blt c031'>144</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>271</td>
- <td class='blt c031'>84</td>
- <td class='blmd c031'>6,235</td>
- </tr>
- <tr>
- <td class='c030'>1913</td>
- <td class='blmd c031'>78</td>
- <td class='blt c031'>4,500</td>
- <td class='blt c031'>220</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>2</td>
- <td class='blt c031'>171</td>
- <td class='blt c031'>97</td>
- <td class='blmd c031'>5,067</td>
- </tr>
- <tr>
- <td class='bbt c030'>1914</td>
- <td class='bbt blmd c031'>63</td>
- <td class='bbt blt c031'>2,595</td>
- <td class='bbt blt c031'>161</td>
- <td class='bbt blt c031'>&nbsp;</td>
- <td class='bbt blt c031'>&nbsp;</td>
- <td class='bbt blt c031'>&nbsp;</td>
- <td class='bbt blt c031'>102</td>
- <td class='bbt blmd c031'>2,921</td>
- </tr>
- <tr>
- <td class='c030'>1915</td>
- <td class='blmd c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031 bbt' rowspan='4'>No</td>
- <td class='blt c030 bbt' rowspan='4'>details</td>
- <td class='blt c032 bbt' rowspan='4'>available</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blmd c031'>188</td>
- </tr>
- <tr>
- <td class='c030'>1916</td>
- <td class='blmd c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
-
-
-
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blmd c031'>578</td>
- </tr>
- <tr>
- <td class='c030'>1917</td>
- <td class='blmd c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
-
-
-
- <td class='blt c031'>&nbsp;</td>
- <td class='blt c031'>&nbsp;</td>
- <td class='blmd c031'>578</td>
- </tr>
- <tr>
- <td class='bbt c030'>1918</td>
- <td class='bbt blmd c031'>&nbsp;</td>
- <td class='bbt blt c031'>&nbsp;</td>
-
-
-
- <td class='bbt blt c031'>&nbsp;</td>
- <td class='bbt blt c031'>&nbsp;</td>
- <td class='bbt blmd c031'>41</td>
- </tr>
-</table>
-<h4 class='c008'><span class='sc'>Germany</span></h4>
-
-<p class='c015'>Platinum has recently been discovered in Westphalia, deposits
-having been found in Freudenberg, Siegen, Meschede,
-in Siegerland, Sauerland and Westerwald. It occurs in a
-series of fragmental deposits, including principally slates and
-graywackes, the latter composed of quartz and slate, with an
-argillaceous cement; it is also occasionally found in the recemented
-fragments which are presumably derived from the
-basal granite formation, underlying the platinum series<a id='r46' /><a href='#f46' class='c011'><sup>[46]</sup></a> p. 606.
-The beds are believed to be of marine origin,
-and are probably of Silurian and Devonian age. The platinum,
-which is present in a very finely-disseminated state, is associated
-with chromium, nickel, arsenic, antimony, iron, copper,
-lead, zinc, silver and gold, some of which appear to have been
-introduced by solutions at a stage subsequent to sedimentation.
-Krusch investigated these deposits in 1914, and is of opinion,
-in view of the similarity of the chemical associations with those
-of the Ural and British Columbian formations, that the
-original source of the platinum was peridotite, or other form
-of basic igneous rock. A number of samples, analysed by
-Krusch, yielded values ranging from a trace to 33·5 gm.
-(1 oz. troy) platinum per ton<a id='r47' /><a href='#f47' class='c011'><sup>[47]</sup></a>. At the outbreak of war
-the capital necessary for exploitation had not been raised, but
-in 1918 it was stated that treatment works had been erected
-at Wenden<a href='#f2' class='c011'><sup>[2]</sup></a>.</p>
-
-<p class='c007'>As mentioned above, about 25 per cent. of the Russian
-output of platinum before the war was refined in Germany,
-<span class='pageno' id='Page_34'>34</span>and it is known that German capital was helping to finance
-the pre-war platinum operations of that country<a href='#f2' class='c011'><sup>[2]</sup></a>.</p>
-
-<h4 class='c008'><i>Imports</i></h4>
-
-<p class='c015'>The following is a summary of imports into Germany of
-crude, manufactured and scrap platinum in kilograms (42·87
-troy oz.) for the years 1910–13:</p>
-<table class='table1' summary=''>
- <tr>
- <th class='btt bbt c017'>From Year.</th>
- <th class='btt bbt blt c017'>United Kingdom.</th>
- <th class='btt bbt blt c017'>France.</th>
- <th class='btt bbt blt c017'>Austria-Hungary.</th>
- <th class='btt bbt blt c017'>Russia.</th>
- <th class='btt bbt blt c017'>United States.</th>
- <th class='btt bbt blt c017'>Other countries.</th>
- <th class='btt bbt blt c017'>Total.</th>
- </tr>
- <tr>
- <td class='c017'>1910</td>
- <td class='blt c020'>419</td>
- <td class='blt c020'>846</td>
- <td class='blt c020'>265</td>
- <td class='blt c020'>278</td>
- <td class='blt c020'>127</td>
- <td class='blt c020'>216</td>
- <td class='blt c020'>2,151</td>
- </tr>
- <tr>
- <td class='c017'>1911</td>
- <td class='blt c020'>292</td>
- <td class='blt c020'>895</td>
- <td class='blt c020'>451</td>
- <td class='blt c020'>190</td>
- <td class='blt c020'>255</td>
- <td class='blt c020'>239</td>
- <td class='blt c020'>2,322</td>
- </tr>
- <tr>
- <td class='c017'>1912</td>
- <td class='blt c020'>458</td>
- <td class='blt c020'>642</td>
- <td class='blt c020'>554</td>
- <td class='blt c020'>272</td>
- <td class='blt c020'>48</td>
- <td class='blt c020'>307</td>
- <td class='blt c020'>2,281</td>
- </tr>
- <tr>
- <td class='bbt c017'>1913</td>
- <td class='bbt blt c020'>191</td>
- <td class='bbt blt c020'>683</td>
- <td class='bbt blt c020'>233</td>
- <td class='bbt blt c020'>451</td>
- <td class='bbt blt c020'>236</td>
- <td class='bbt blt c020'>230</td>
- <td class='bbt blt c020'>2,024</td>
- </tr>
-</table>
-
-<h4 class='c008'><span class='sc'>Russia</span></h4>
-
-<p class='c015'>Up to the year 1914, Russia produced about 93 per cent.
-of the total world’s supply of platinum, the metal being derived
-from extensive deposits of alluvial sands in the Ural Mountains.
-The platiniferous area extends approximately 80 miles along
-the central part of the chain of mountains in the Government
-of Perm, and along the eastern slope, the principal centre of
-the placers being at Goroblagodat, and on the western side at
-Nizhni-Tagilsk.</p>
-
-<p class='c007'>Platinum was first discovered in the Urals in 1823, and
-exploitation commenced in the following year. In 1828 the
-Russian Government instituted platinum coinage, which consisted
-of 3–rouble, 6–rouble and 12–rouble pieces, the coins
-containing about 2 per cent. iridium. A 3–rouble piece
-weighed 10·31 gm., and the price paid by the Government
-to the producers was 16<i>s.</i> 10<i>d.</i> per oz.; but owing to the subsequent
-rise in value of platinum, the coinage was discontinued
-in 1845<a id='r48' /><a href='#f48' class='c011'><sup>[48]</sup></a> p. 606.</p>
-
-<p class='c007'>The platinum industry began to develop in 1869, the price
-at that time being under £5 per lb.<a id='r49' /><a href='#f49' class='c011'><sup>[49]</sup></a>, but from that year
-onwards the value, although subject to considerable fluctuations,
-has steadily increased. It has been estimated that
-since the beginning of the industry in Russia, about 6,000,000
-<span class='pageno' id='Page_35'>35</span>oz. of platinum have been recovered from 30,000,000 to
-40,000,000 c. yd. of gravel.</p>
-
-<p class='c007'>As was explained in Chapter I, the official statistics of the
-Russian output of crude platinum are considered to be low.
-In the following table, the estimated and official figures of
-production are given for the years 1910–17:</p>
-<table class='table0' summary=''>
- <tr><th class='c012' colspan='3'><i>In oz. troy</i></th></tr>
- <tr>
- <th class='c023'>Year.</th>
- <th class='c023'>Estimated output.</th>
- <th class='c024'>Official output.</th>
- </tr>
- <tr>
- <td class='c023'>1910</td>
- <td class='c025'>300,000</td>
- <td class='c026'>176,334</td>
- </tr>
- <tr>
- <td class='c023'>1911</td>
- <td class='c025'>280,000</td>
- <td class='c026'>187,008</td>
- </tr>
- <tr>
- <td class='c023'>1912</td>
- <td class='c025'>300,000</td>
- <td class='c026'>177,596</td>
- </tr>
- <tr>
- <td class='c023'>1913</td>
- <td class='c025'>275,000</td>
- <td class='c026'>157,735</td>
- </tr>
- <tr>
- <td class='c023'>1914</td>
- <td class='c025'>240,000</td>
- <td class='c026'>157,182</td>
- </tr>
- <tr>
- <td class='c023'>1915</td>
- <td class='c025'>124,000</td>
- <td class='c026'>119,789</td>
- </tr>
- <tr>
- <td class='c023'>1916</td>
- <td class='c025'>90,000</td>
- <td class='c026'>78,682</td>
- </tr>
- <tr>
- <td class='c023'>1917</td>
- <td class='c025'>50,000</td>
- <td class='c026'>&nbsp;</td>
- </tr>
-</table>
-
-<p class='c007'>In the official statistics the Ural mining district is divided
-into five principal areas. The following table shows the
-annual outputs by districts in recent years:</p>
-<table class='table1' summary=''>
- <tr><th class='c012' colspan='8'><i>In oz. troy</i></th></tr>
- <tr>
- <th class='btt bbt c017'>District.</th>
- <th class='btt bbt blt c033'>1910.</th>
- <th class='btt bbt blt c033'>1911.</th>
- <th class='btt bbt blt c033'>1912.</th>
- <th class='btt bbt blt c033'>1913.</th>
- <th class='btt bbt blt c033'>1914.</th>
- <th class='btt bbt blt c033'>1915.</th>
- <th class='btt bbt blt c033'>1916.</th>
- </tr>
- <tr>
- <td class='c019'>South Verkhotur</td>
- <td class='blt c034'>111,070</td>
- <td class='blt c034'>121,314</td>
- <td class='blt c034'>118,048</td>
- <td class='blt c034'>102,552</td>
- <td class='blt c034'>106,528</td>
- <td class='blt c034'>80,985</td>
- <td class='blt c034'>52,353</td>
- </tr>
- <tr>
- <td class='c019'>Perm</td>
- <td class='blt c034'>46,068</td>
- <td class='blt c034'>46,885</td>
- <td class='blt c034'>38,709</td>
- <td class='blt c034'>36,878</td>
- <td class='blt c034'>38,050</td>
- <td class='blt c034'>22,996</td>
- <td class='blt c034'>14,818</td>
- </tr>
- <tr>
- <td class='c019'>North Verkhotur</td>
- <td class='blt c034'>11,862</td>
- <td class='blt c034'>11,362</td>
- <td class='blt c034'>13,166</td>
- <td class='blt c034'>11,376</td>
- <td class='blt c034'>7,426</td>
- <td class='blt c034'>12,288</td>
- <td class='blt c034'>9,968</td>
- </tr>
- <tr>
- <td class='c019'>Tcherdynsk</td>
- <td class='blt c034'>6,359</td>
- <td class='blt c034'>5,016</td>
- <td class='blt c034'>6,162</td>
- <td class='blt c034'>6,109</td>
- <td class='blt c034'>4,753</td>
- <td class='blt c034'>3,518</td>
- <td class='blt c034'>1,542</td>
- </tr>
- <tr>
- <td class='bbt c019'>South Ekaterinburg</td>
- <td class='bbt blt c034'>972</td>
- <td class='bbt blt c034'>1,040</td>
- <td class='bbt blt c034'>1,382</td>
- <td class='bbt blt c034'>816</td>
- <td class='bbt blt c034'>421</td>
- <td class='bbt blt c034'>2</td>
- <td class='bbt blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>Total</td>
- <td class='bbt blt c034'>176,331</td>
- <td class='bbt blt c034'>185,617</td>
- <td class='bbt blt c034'>177,467</td>
- <td class='bbt blt c034'>157,731</td>
- <td class='bbt blt c034'>157,178</td>
- <td class='bbt blt c034'>119,789</td>
- <td class='bbt blt c034'>78,681</td>
- </tr>
-</table>
-
-<p class='c007'>Exports of crude platinum from Russia for the years 1911–15
-were as follows<a href='#f15' class='c011'><sup>[15]</sup></a> p. 923:</p>
-<table class='table1' summary=''>
- <tr>
- <th class='btt bbt c017'>To.</th>
- <th class='btt bbt blt c033'>1911.</th>
- <th class='btt bbt blt c033'>1912.</th>
- <th class='btt bbt blt c033'>1913.</th>
- <th class='btt bbt blt c033'>1914.</th>
- <th class='btt bbt blt c033'>1915.</th>
- </tr>
- <tr>
- <td class='c019'>Great Britain</td>
- <td class='blt c034'>1,053</td>
- <td class='blt c034'>2,107</td>
- <td class='blt c034'>1,580</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>66,884</td>
- </tr>
- <tr>
- <td class='c019'>France</td>
- <td class='blt c034'>168,527</td>
- <td class='blt c034'>169,580</td>
- <td class='blt c034'>140,615</td>
- <td class='blt c034'>64,778</td>
- <td class='blt c034'>7,900</td>
- </tr>
- <tr>
- <td class='c019'>Germany</td>
- <td class='blt c034'>51,612</td>
- <td class='blt c034'>50,558</td>
- <td class='blt c034'>58,458</td>
- <td class='blt c034'>17,906</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='bbt c019'>United States</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>5,266</td>
- </tr>
- <tr>
- <td class='bbt c019'>Total</td>
- <td class='bbt blt c034'>221,192</td>
- <td class='bbt blt c034'>222,245</td>
- <td class='bbt blt c034'>200,653</td>
- <td class='bbt blt c034'>82,684</td>
- <td class='bbt blt c034'>80,050</td>
- </tr>
-</table>
-
-<p class='c007'><span class='pageno' id='Page_36'>36</span>The platinum industry in Russia has always been mainly
-in the hands of a few large firms of foreign countries. For a
-long time Johnson, Matthey &amp; Co., Ltd. controlled the greater
-part of the trade. In 1898 the Société Anonyme de l’Industrie
-du Platine was established in Paris, and, by purchasing a large
-number of mines, and leasing others, was able to secure a large
-share in the control of the industry.</p>
-
-<p class='c007'>The refining of the crude platinum has been, and still is,
-almost entirely in foreign hands, all but approximately 2 per
-cent. of the entire output being refined abroad. In 1915 it
-was reported that the construction of a refinery at Ekaterinburg
-was completed, which was to be placed under Government
-control. The principal platinum-refining works were formerly
-those of Johnson, Matthey &amp; Co., Ltd., of England, but early
-in the eighties this firm was, to a certain extent, superseded
-by Heraeus &amp; Co., of Hanau, Germany. They, in turn, in
-1909, were compelled to give first place to the Société Anonyme
-de l’Industrie du Platine, of Paris, which became the chief
-centre of the platinum-refining industry, a position which it
-held until the outbreak of war. France at that time had a
-monopoly of 90 per cent. of the Russian production. This
-foreign control had an unfavourable effect on the industry,
-and in 1913 the Russian Government passed a law forbidding
-the exportation of crude platinum. In July 1915, exportation
-was again permitted, subject to a 30 per cent. <i><span lang="la" xml:lang="la">ad valorem</span></i>
-export tax, and at about the same time an order was issued
-forbidding the exportation of raw platinum in quantities
-valued above 500 roubles (£53), the price of the metal to be
-fixed by the State<a href='#f15' class='c011'><sup>[15]</sup></a> p. 923. In February 1917 the
-Government further enacted an order prohibiting the importation
-of drawn and spun platinum. It was hoped by
-these means to encourage the establishment of domestic
-refineries. In 1916 the Government fixed the price at £16 10s.
-per oz. In March 1917 it was reported that the miners were
-not satisfied, and later sales were reported up to £22 per oz.
-of crude metal, 83 per cent. fine<a id='r50' /><a href='#f50' class='c011'><sup>[50]</sup></a> p. 17.</p>
-
-<p class='c007'>According to N. Vissotzki<a id='r51' /><a href='#f51' class='c011'><sup>[51]</sup></a>, the platiniferous belt
-of the Urals, geologically speaking, consists of four parallel
-bands striking, roughly, north and south; the westernmost
-<span class='pageno' id='Page_37'>37</span>of these, made up of crystalline schists, forms the watershed
-between Europe and Asia. The next band to the east comprises
-olivine- and mica-gabbros, diallage-peridotites, diorites
-and altered syenites—all of which have been erupted from a
-great depth. The third band is made up of Lower Devonian
-sedimentary rocks, shattered and buried in places by diabasic
-eruptive rocks. The eastern portion of this band is formed of
-eruptive rocks of deep-seated origin which may be gneissose
-granites. The fourth, or most easterly band, is composed
-of ancient rocks, which have been eroded by the advancing
-sea of Lower Tertiary age.</p>
-
-<p class='c007'>The area emerged from the waves as early as the Carboniferous
-period; consequently the accumulation of
-platinum, and in some localities of gold, in the surface-deposits,
-were not swept away. They were concentrated later on in the
-alluvia—perhaps at the time of the most intense glaciation,
-probably in the Pleistocene.</p>
-
-<p class='c007'>Throughout the Urals, the primary source of the platinum
-is associated with the eruptive basic rocks, among which the
-platiniferous and auriferous dunite forms three great masses.
-The principal outcrops of platiniferous dunite and platinum-bearing
-alluvia are connected with the second of the four
-parallel bands mentioned above. Towards the south, the
-band becomes discontinuous, and finally dies out altogether.
-Here a few outcrops of platiniferous olivine-rock contain a
-small percentage of platinum, with osmiridium and other
-members of the group associated with it.</p>
-
-<p class='c007'>The two principal platinum-producing districts are in the
-central Urals, and are: (1) The Shuvaloff Estates, Isov
-district, on the River Iss, near Goroblagodat. (2) The Demidoff
-Estates, Nizhni-Tagilsk district, on the Martian River in the
-South Verkhotur district. Prior to 1879 the latter field
-furnished the larger part of the platinum, but since then the
-former has been the most productive, and now supplies about
-80 per cent. of the total output. The whole of the platinum
-is derived from gravel deposits, which are usually auriferous,
-and associated with dunite.</p>
-
-<p class='c007'><i>The Isov district.</i>—Platinum is concentrated in the channels
-of the Rivers Iss, Veeya and Tura. In the north of this region
-<span class='pageno' id='Page_38'>38</span>it is obtained from the Sosnovki, Kytlymi, and Mala Kosva
-Rivers; further north again, platinum occurs with gold in the
-Vagran River, and in the system comprising the Rivers Lobva,
-Niasma, Lialia, Aktai, Emerlo and Talits, the gold here being
-predominant. Other sources of supply of platinum and gold
-in this district are on the Ivdevl River. In the south of the
-area, platinum deposits are worked on the tributaries of the
-Tagil, Salda, Imiaun and Tura Rivers<a href='#f15' class='c011'><sup>[15]</sup></a> p. 921.</p>
-
-<p class='c007'><i>The Nizhni-Tagilsk district.</i>—The richest placers occur in
-the valleys of the Visim, Martian, Sisim, Chaush and Cherna
-Rivers. Further south, platinum is found with gold in the
-gravels of the Nevian, Verkhne-Iset, Bilenibaev, Alapaev,
-Sysert, Kyshtym and Mias areas, and also in the Tanalyk,
-Sakmar and Urtazym Rivers.</p>
-
-<p class='c007'>Other localities of smaller importance are the Nikolae
-Pavdinsk and Rastes districts in the northern Urals, and the
-Systersk mining district.</p>
-
-<p class='c007'>The placers are derived from country rock, made up of
-serpentine gabbro, diallage and olivenite, the principal associated
-minerals being quartz, zircon, ilmenite, chromite,
-magnetite, spinel, native gold and palladium. Gold is present
-in the concentrate in very variable quantities, and sometimes
-contains silver, but the latter generally occurs in combination
-with palladium. The crude platinum usually includes some
-iridium, rhodium, ruthenium and iron.</p>
-
-<p class='c007'>The basic igneous rocks, from which the platinum is derived,
-are exposed in the form of discontinuous elliptical outcrops
-near the summits of the Urals, particularly on the western
-side of the mountains. These outcrops attain larger dimensions
-in the northern and central Urals than further south.
-The process of concentration of platinum in the gravels has
-clearly extended over a very long period of time, and it is
-probable that the richer gravels have been reconcentrated,
-perhaps several times<a id='r52' /><a href='#f52' class='c011'><sup>[52]</sup></a> p. 299. Platinum nuggets are
-rarely found, but three of large size were discovered in the
-Nizhni-Tagilsk district, their weights respectively being
-25½ lb., 21 lb., and 11½ lb.</p>
-
-<p class='c007'>Duparc, in a brief description of the geology of the deposits,
-states that they are essentially of magmatic origin. The
-<span class='pageno' id='Page_39'>39</span>structure of the rock is in the nature of concentric bandings;
-the felspathic rocks at the outer edge gradually grade into the
-intermediate stage of pyroxenes, until the central dunite is
-reached, composed of olivine and chromite. The richness of
-the gravels is in proportion to the size of the dunite deposits,
-and to the extent of erosion of these rocks. According to
-Duparc, platinum ore derived from a pyroxenite source usually
-contains high percentages of platinum and palladium, but
-low percentages of osmium and iron. The same writer estimated
-in 1916 that the reserves were sufficient for about
-twelve years, provided that the same methods of working and
-rate of extraction were employed during that period<a id='r53' /><a href='#f53' class='c011'><sup>[53]</sup></a>.</p>
-
-<p class='c007'>The amount of the platinum in the wash is very variable.
-The average yield was formerly over ½ oz. per c. yd., but
-latterly, owing to the gradual exhaustion of the richer deposits,
-the average returns have not exceeded from 2 to 3 dwt.
-per c. yd. The crude metal assays about 83 per cent.
-platinum, from 5 to 7 per cent. osmium and iridium, with
-small amounts of ruthenium, palladium, and gold, and about
-10 per cent. impurities, mostly iron and copper<a id='r54' /><a href='#f54' class='c011'><sup>[54]</sup></a>. The
-thickness of the pay gravels varies from 3 to 6 ft., and about
-4 ft. may be taken as the average width, the overburden
-running from a few to over 60 ft. The extent of the productive
-area is about 170 sq. miles, and from 15,000 to
-20,000 miners were employed before the war<a href='#f4' class='c011'><sup>[4]</sup></a> p. 558. It
-has been noticed that the platinum deposits are characterized
-by their uniformity, of course not being so sinuous in direction
-as gold deposits.</p>
-
-<p class='c007'>In former times mining was entirely carried on by primitive
-methods with hand labour, but the utilization of dredges
-has steadily increased, since their introduction in 1900. In
-1909, 13 per cent. of the total production was obtained by
-dredging, and in 1914 this percentage rose to one-third of the
-total output. The season during which dredges may be
-employed extends on the average from the middle of April
-to the middle of October. In the South Verkhotur and Perm
-areas dredges have been used in the large enterprises; but
-at the small mines the working is very primitive, and carried
-on largely with the help of <i>starateli</i>, or tributers. In 1914 a
-<span class='pageno' id='Page_40'>40</span>modern 7½ c. ft. dredge was installed on the Nikolaie-Pavdinsk
-Estate.</p>
-
-<p class='c007'>In mines where dredging is not in use, the gravels are mined
-by open cuts, or, if the overburden is thick, shafts are employed.
-The former method is much preferred, both on account of its
-relative cheapness, and also because it is possible to obtain
-a better clean-up of the bedrock.</p>
-
-<p class='c007'>The usual types of stationary plant in use include the <i>botchka</i>,
-or conical revolving screen; the <i>tchaska</i>, or puddling machine,
-with a bottom of perforated iron plates; and the <i>boronka</i>, or
-conical screen, on which the stones and clay are turned over
-by a double rake<a id='r55' /><a href='#f55' class='c011'><sup>[55]</sup></a>. The gold is removed by amalgamation
-with mercury in wood, iron or porcelain bowls. Special
-methods are in use in certain parts of Russia for working the
-deposits during the winter. The workings are allowed to
-freeze, and the frozen ground is mined after being partially
-thawed by means of wood fires. The method is simple, but
-care must be taken to ensure that the thawing does not proceed
-too far, otherwise the ground collapses, and the workings become
-flooded. The method is suitable for depths to 30 ft.,
-and in localities where the snowfall is comparatively slight.</p>
-
-<p class='c007'>Latest reports from Russia indicate that no dredges are
-now working there, the platinum being produced by hand
-methods only.</p>
-
-<p class='c007'>Some interesting experiments were recently carried out by
-V. N. Chorzhevski in the Nizhni-Tagilsk district, with a view
-to testing the commercial possibility of mining platinum <i><span lang="la" xml:lang="la">in
-situ</span></i>. The metal here occurs, in association with chrome iron
-ore, in dunite rock, which in this region extends over an area
-of 11½ sq. miles. The platinum appears to be present in
-quantities directly proportional to the amount of chromite in
-the rock. The dunite is first ground under runners; the
-chromite slack is separated from it; and after this has undergone
-a second grinding, the metal is separated by washing<a id='r56' /><a href='#f56' class='c011'><sup>[56]</sup></a>.
-An experimental test, carried out in March 1917, is stated to
-have produced over 200 oz. platinum from 9,720 lb. chromite
-slack. Another experiment with 3,600 lb. of grey slack, “or
-fines,” consisting chiefly of undecomposed dunite obtained from
-the dredges, is reported to have yielded ⅓ oz. of platinum.</p>
-
-<p class='c007'><span class='pageno' id='Page_41'>41</span><i>Lapland.</i>—Platinum occurs associated with chromite and
-diamonds, in alluvial deposits on the Ivalo River. It is believed
-to be derived from serpentine rock, of which the neighbouring
-country is largely composed<a href='#f4' class='c011'><sup>[4]</sup></a> p. 556.</p>
-
-<p class='c007'><i>Finland.</i>—Platinum has been found in the south in a lode-formation
-containing quartz, siderite, calcite and dolomite.
-Gold and carbonate of copper are also present in small quantities.<a href='#f4' class='c011'><sup>[4]</sup></a> p. 557.</p>
-
-<h4 class='c008'><span class='sc'>Platinum Currency</span></h4>
-
-<p class='c015'>In a dispatch to the Great Powers on February 26, 1920,
-the Soviet Government promised to withdraw the decree
-annulling Russia’s foreign debt, to pay arrears of interest, and
-giving as a guarantee to an Anglo-American syndicate certain
-important platinum and silver-mining concessions, in return
-for which the abandonment of intervention in Russia’s internal
-affairs was demanded. To be used in payment of foreign
-purchases, the Government was about to issue “platinum”
-credit notes of 50, 100, 500, and 5,000 roubles, the issue to be
-limited to 65,000,000 roubles, and backed by platinum reserves
-of 37,500,000 roubles. The Government would be ready to
-convert the platinum reserves into coin if required<a id='r57' /><a href='#f57' class='c011'><sup>[57]</sup></a>.</p>
-
-<h4 class='c008'><span class='sc'>Spain</span></h4>
-
-<p class='c015'>Promising deposits of platinum have recently been reported
-at Ronda, in the province of Malaga. Domingo de Orueta, a
-Government geologist, having noticed the similarity of the
-geology of this district to that of the platiniferous deposits
-of the Urals, proceeded, a few years ago, to explore the area
-systematically, and was soon rewarded, in the discovery of the
-metal. The deposits, which are alluvial, extend along the
-Verde and Guadaiza rivers, and are derived from serpentine and
-peridotite rocks, the latter composed principally of rhombic
-pyroxene, with some spinel and some dunite. Chromite occurs
-in association with the platinum. The pay gravels contain
-about 8 gr. platinum per ton, and are stated to have an average
-thickness of 5 ft., the depth of overburden in the Guadaiza
-area, where apparently the richer gravels are found, being
-about 33 ft., as compared with 49 ft. in the Verde locality<a href='#f10' class='c011'><sup>[10]</sup></a>
-<span class='pageno' id='Page_42'>42</span>p. 547. The Spanish Government have taken over the
-exploitation of these deposits, and no public prospecting,
-without Government permission, is allowed.</p>
-
-<p class='c007'>Platinum is known to exist in a number of other localities
-in Spain, especially in the northern districts; but so far as is
-known, it occurs in very small quantities of no commercial
-importance. The metal has been recognized in the following
-rivers: Minho, Luna, Sil, Orbigo, Gallego, Cinca Darro and
-Lower Jenil, where it occurs in the concentrate sands, accompanied
-by magnetite, ilmenite, zircon and, frequently, gold<a id='r58' /><a href='#f58' class='c011'><sup>[58]</sup></a>.</p>
-
-<h3 class='c016'>ASIA</h3>
-
-<h4 class='c008'><span class='sc'>Armenia</span></h4>
-
-<p class='c015'>Platinum, in association with gold, is reported to occur
-in the district of Batum and Sasun, on the Charokh River<a href='#f46' class='c011'><sup>[46]</sup></a> p. 610.</p>
-
-<h4 class='c008'><span class='sc'>Borneo</span></h4>
-
-<p class='c015'>Platinum was discovered in south-eastern Borneo in 1831,
-in the gravels of Gunung Lawack, but for a long time the
-natives were ignorant of its value. In recent years it has been
-obtained on a small scale as a by-product in the process of
-gold-washing, carried on in the province of Tanah-Laut, in
-the south-eastern extremity of the island<a id='r59' /><a href='#f59' class='c011'><sup>[59]</sup></a>. The deposits
-occur in streams, which rise in the Bobaris Mountains, where
-the country rocks are composed of schists and gneisses, intruded
-by serpentine gabbro and diorite dykes<a href='#f52' class='c011'><sup>[52]</sup></a> p. 298.
-Platinum has, however, not yet been located <i>in situ</i>. In
-addition to gold, the platinum is associated with osmiridium
-in the gravels, the two former being frequently found intimately
-intergrown. The platinum content of the native
-metal has been found by a number of analyses to vary from
-about 57 to 83 per cent., and that of osmiridium from 0·18
-to 10·07 per cent.<a id='r60' /><a href='#f60' class='c011'><sup>[60]</sup></a>.</p>
-
-<p class='c007'>The rare mineral <i>laurite</i>, a sulphide of ruthenium and
-osmium, was discovered in these deposits.</p>
-
-<p class='c007'>According to L. Hundeshagen<a id='r61' /><a href='#f61' class='c011'><sup>[61]</sup></a>, the platinum occurring
-in the diamond placers of western and south-eastern Borneo
-<span class='pageno' id='Page_43'>43</span>is in the form of thin scales, ranging from 0·1 to 1·0 mm. in
-length. These platinum scales contain from 3·8 to 4·5 per
-cent. of copper, evidently as an alloy.</p>
-
-<h4 class='c008'><span class='sc'>China</span></h4>
-
-<p class='c015'>In the Uryanchai district of Mongolia, situated on the
-Russian border, deposits of auriferous gravels have been
-worked on a fairly extensive scale for some time past. It
-was announced a few years ago that platinum and iridium
-had been found in appreciable quantities, associated with the
-gold, some large platinum nuggets being obtained from this
-region in 1911. Although no attempt at commercial development
-has yet been made, the prospects of profitable extraction
-appear to be hopeful. Extensive outcrops of olivine rocks
-have been noticed in the vicinity, and the nature of the occurrence
-is stated to bear some resemblance to that of the platiniferous
-fields of the southern Urals<a href='#f8' class='c011'><sup>[8]</sup></a> p. 107.</p>
-
-<h4 class='c008'><span class='sc'>Japan</span></h4>
-
-<p class='c015'>Platinum occurs in the Yubari-garva, Pechau and other
-rivers in the province of Hokkaido. It is also found in Nishi-Mikawa,
-province of Sado. In the former locality gold and
-iridosmine are associated with the platinum, and in the latter
-gold and iron sands are present<a id='r62' /><a href='#f62' class='c011'><sup>[62]</sup></a>. In no case has the metal
-been traced to its parent source. In the Hokkaido deposits
-the average quantity of platinum present is only 2 or 3 per
-cent. of the iridosmine content. It is possible that further
-exploration in these areas will reveal occurrences of greater
-importance<a href='#f9' class='c011'><sup>[9]</sup></a> p. 597.</p>
-
-<h4 class='c008'><span class='sc'>Sumatra</span></h4>
-
-<p class='c015'>Platinum is obtained at Sipongi, where it occurs with
-wollastonite and grossularite in limestones and schists, near
-intrusions of granodiorite and augite diorite. Gold is also
-present.</p>
-
-<p class='c007'>L. Hundeshagen<a href='#f61' class='c011'><sup>[61]</sup></a> is of opinion that the present ore deposit
-was originally a layer, or a big lens, of limestone embedded
-<span class='pageno' id='Page_44'>44</span>in the old schists, which has, by apophyses of granite, been
-altered into garnet and wollastonite, being at the same time,
-or very soon afterwards, mineralized by hot solutions carrying
-copper, gold, platinum, etc. A sample of slightly decomposed
-wollastonite with no copper, or only minute traces of that
-metal, proved to be richest in platinum, the assay showing
-6 gm. of platinum per 1,000 kg., while samples with 2 to 10
-per cent. of bornite and malachite contained only traces of
-platinum; and none could be detected in auriferous garnet,
-poor in wollastonite. About 10 to 25 metres from the outcrop
-the concentrated river sand shows small particles of whitish
-crystalline gold and rounded grains of white platinum, the
-latter varying from 0·1 to 0·3 mm. in size.</p>
-
-<h3 class='c016'>AFRICA</h3>
-
-<h4 class='c008'><span class='sc'>Congo Free State</span></h4>
-
-<p class='c015'>In the Katanga district, platinum and palladium have been
-reported to occur in certain alluvial gravels, accompanied by
-gold and silver. One sample from this locality is stated to
-have yielded the following amounts per metric ton: 3·4
-gr. platinum, 12·3 gr. gold, 8·3 gr. silver. It has also been
-located <i>in situ</i> in sandstones containing gold.</p>
-
-<h4 class='c008'><span class='sc'>Madagascar</span></h4>
-
-<p class='c015'>Platinum is produced on a small scale as a by-product in
-alluvial gold mining on the Vatana River, near the village of
-Ambia, in the Vatomandry district. Traces of the metal have
-also been found in auriferous gravels in the regions of Fenerive,
-Marolambo, and Vandrozo, over an area extending along the
-eastern side of the island for a length of about 450 miles.
-The platinum is apparently derived from the decomposition of
-pegmatite. It is rarely found pure, being usually coated with
-iron oxide, and strongly magnetic, a property which is utilized
-in the process of separation from the gold<a id='r63' /><a href='#f63' class='c011'><sup>[63]</sup></a>.</p>
-
-<div>
- <span class='pageno' id='Page_45'>45</span>
- <h3 class='c016'>NORTH AMERICA</h3>
-</div>
-
-<h4 class='c008'><span class='sc'>Mexico</span></h4>
-
-<p class='c015'>Platinum has been shown to exist in the states of Guerrero
-and Hidalgo in deposits of ferrous clays, which are of undoubted
-sedimentary origin, and are apparently laterites. The metal
-exists in a very finely disseminated state, invisible to the
-naked eye<a id='r64' /><a href='#f64' class='c011'><sup>[64]</sup></a>.</p>
-
-<h4 class='c008'><span class='sc'>United States</span></h4>
-
-<p class='c015'>At the beginning of the war there was a considerable shortage
-of platinum in the country, caused partly by the falling-off of
-the imports, and in part owing to the increased demand in
-connexion with munition manufacture.</p>
-
-<p class='c007'>California is the principal producer of crude platinum, and
-in 1917 this State supplied 460 oz. out of the total output of
-605 oz.; with the exception of a few ounces from the State
-of Washington, Alaska and Oregon provided the balance.</p>
-
-<p class='c007'>A considerable quantity of foreign crude and manufactured
-platinum is imported annually, as shown in the following
-tables:</p>
-
-<table class='table1' summary=''>
- <tr><th class='c012' colspan='9'><i>Imports of Manufactured Platinum into the United States</i></th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><th class='c012' colspan='9'>(In troy oz.)</th></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt c019'>&nbsp;</th>
- <th class='btt bbt blt c033'>1912.</th>
- <th class='btt bbt blt c033'>1913.</th>
- <th class='btt bbt blt c033'>1914.</th>
- <th class='btt bbt blt c033'>1915.</th>
- <th class='btt bbt blt c033'>1916.</th>
- <th class='btt bbt blt c033'>1917.</th>
- <th class='btt bbt blt c033'>1918.</th>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From British countries</i>:</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Canada</td>
- <td class='blt c034'>777</td>
- <td class='blt c034'>582</td>
- <td class='blt c034'>55</td>
- <td class='blt c034'>139</td>
- <td class='blt c034'>511</td>
- <td class='blt c034'>332</td>
- <td class='blt c034'>253</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>United Kingdom</td>
- <td class='blt c034'>19,169</td>
- <td class='blt c034'>16,595</td>
- <td class='blt c034'>6,476</td>
- <td class='blt c034'>7,692</td>
- <td class='blt c034'>9,513</td>
- <td class='blt c034'>3,195</td>
- <td class='blt c034'>357</td>
- </tr>
- <tr>
- <td class='bbt c019'>&nbsp;</td>
- <td class='bbt c019'>Other British countries</td>
- <td class='bbt blt c034'>4</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>5</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>25</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Total, British countries</td>
- <td class='bbt blt c034'>19,950</td>
- <td class='bbt blt c034'>17,177</td>
- <td class='bbt blt c034'>6,531</td>
- <td class='bbt blt c034'>7,831</td>
- <td class='bbt blt c034'>9,569</td>
- <td class='bbt blt c034'>3,527</td>
- <td class='bbt blt c034'>635</td>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From foreign countries</i>:</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>France</td>
- <td class='blt c034'>25,723</td>
- <td class='blt c034'>24,519</td>
- <td class='blt c034'>16,570</td>
- <td class='blt c034'>3,480</td>
- <td class='blt c034'>3,395</td>
- <td class='blt c034'>2,507</td>
- <td class='blt c034'>814</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Germany</td>
- <td class='blt c034'>22,673</td>
- <td class='blt c034'>29,075</td>
- <td class='blt c034'>30,015</td>
- <td class='blt c034'>2,350</td>
- <td class='blt c034'>10</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Netherlands</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>159</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Norway</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>258</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>120</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Russia (European)</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>815</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Colombia</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>480</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>207</td>
- <td class='blt c034'>1,665</td>
- </tr>
- <tr>
- <td class='bbt c019'>&nbsp;</td>
- <td class='bbt c019'>Other foreign countries</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>63</td>
- <td class='bbt blt c034'>512</td>
- <td class='bbt blt c034'>57</td>
- <td class='bbt blt c034'>3</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Total, foreign countries</td>
- <td class='bbt blt c034'>48,396</td>
- <td class='bbt blt c034'>53,594</td>
- <td class='bbt blt c034'>47,658</td>
- <td class='bbt blt c034'>6,373</td>
- <td class='bbt blt c034'>4,076</td>
- <td class='bbt blt c034'>2,891</td>
- <td class='bbt blt c034'>2,482</td>
- </tr>
- <tr>
- <td class='bbt c017' colspan='2'>Grand total, oz.</td>
- <td class='bbt blt c034'>68,346</td>
- <td class='bbt blt c034'>70,771</td>
- <td class='bbt blt c034'>54,189</td>
- <td class='bbt blt c034'>14,204</td>
- <td class='bbt blt c034'>13,645</td>
- <td class='bbt blt c034'>6,418</td>
- <td class='bbt blt c034'>3,117</td>
- </tr>
-</table>
-
-<table class='table1' summary=''>
- <tr><td class='c012' colspan='10'><span class='pageno' id='Page_46'>46</span></td></tr>
- <tr><th class='c012' colspan='10'><i>Imports of Crude Platinum into United States</i></th></tr>
- <tr><td>&nbsp;</td></tr>
- <tr><th class='c012' colspan='10'>(In troy oz.)</th></tr>
- <tr>
- <th class='btt bbt c019'></th>
- <th class='btt bbt c019'>&nbsp;</th>
- <th class='btt bbt blt c033'>1911<a id='rN' /><a href='#fN' class='c011'><sup>[N]</sup></a>.</th>
- <th class='btt bbt blt c033'>1912.</th>
- <th class='btt bbt blt c033'>1913.</th>
- <th class='btt bbt blt c033'>1914.</th>
- <th class='btt bbt blt c033'>1915.</th>
- <th class='btt bbt blt c033'>1916.</th>
- <th class='btt bbt blt c033'>1917.</th>
- <th class='btt bbt blt c033'>1918.</th>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From British countries</i>:</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Canada</td>
- <td class='blt c034'>554</td>
- <td class='blt c034'>45</td>
- <td class='blt c034'>314</td>
- <td class='blt c034'>535</td>
- <td class='blt c034'>139</td>
- <td class='blt c034'>91</td>
- <td class='blt c034'>25</td>
- <td class='blt c034'>76</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>United Kingdom</td>
- <td class='blt c034'>28,153</td>
- <td class='blt c034'>19,951</td>
- <td class='blt c034'>8,368</td>
- <td class='blt c034'>7,084</td>
- <td class='blt c034'>6,805</td>
- <td class='blt c034'>36,703</td>
- <td class='blt c034'>1,561</td>
- <td class='blt c034'>1,073</td>
- </tr>
- <tr>
- <td class='bbt c019'>&nbsp;</td>
- <td class='bbt c019'>Other British possessions</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>7</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>5</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'><hr /></td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Total, British countries</td>
- <td class='bbt blt c034'>28,707</td>
- <td class='bbt blt c034'>20,003</td>
- <td class='bbt blt c034'>8,682</td>
- <td class='bbt blt c034'>7,619</td>
- <td class='bbt blt c034'>6,949</td>
- <td class='bbt blt c034'>36,794</td>
- <td class='bbt blt c034'>1,586</td>
- <td class='bbt blt c034'>1,149</td>
- </tr>
- <tr>
- <td class='c019' colspan='2'><i>From foreign countries</i>:</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>France</td>
- <td class='blt c034'>44,964</td>
- <td class='blt c034'>10,178</td>
- <td class='blt c034'>7,284</td>
- <td class='blt c034'>4,921</td>
- <td class='blt c034'>3,507</td>
- <td class='blt c034'>13,014</td>
- <td class='blt c034'>52</td>
- <td class='blt c034'>166</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Germany</td>
- <td class='blt c034'>37,041</td>
- <td class='blt c034'>15,335</td>
- <td class='blt c034'>23,345</td>
- <td class='blt c034'>15,105</td>
- <td class='blt c034'>2,366</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'><hr /></td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Norway</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>200</td>
- <td class='blt c034'>442</td>
- <td class='blt c034'>285</td>
- <td class='blt c034'>302</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'><hr /></td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Panama</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>160</td>
- <td class='blt c034'>105</td>
- <td class='blt c034'>92</td>
- <td class='blt c034'>12</td>
- <td class='blt c034'>372</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Brazil</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>118</td>
- <td class='blt c034'>103</td>
- <td class='blt c034'>27</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Chile</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>9</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>&nbsp;</td>
- <td class='blt c034'>766</td>
- <td class='blt c034'>3</td>
- </tr>
- <tr>
- <td class='c019'>&nbsp;</td>
- <td class='c019'>Colombia</td>
- <td class='blt c034'>5,503</td>
- <td class='blt c034'>6,627</td>
- <td class='blt c034'>10,461</td>
- <td class='blt c034'>12,387</td>
- <td class='blt c034'>13,121</td>
- <td class='blt c034'>25,588</td>
- <td class='blt c034'>21,071</td>
- <td class='blt c034'>25,365</td>
- </tr>
- <tr>
- <td class='bbt c019'>&nbsp;</td>
- <td class='bbt c019'>Other foreign countries</td>
- <td class='bbt blt c034'>17</td>
- <td class='bbt blt c034'>13</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>&nbsp;</td>
- <td class='bbt blt c034'>1</td>
- <td class='bbt blt c034'>103</td>
- <td class='bbt blt c034'>99</td>
- <td class='bbt blt c034'>21,663</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Total, foreign countries</td>
- <td class='bbt blt c034'>87,525</td>
- <td class='bbt blt c034'>32,162</td>
- <td class='bbt blt c034'>41,290</td>
- <td class='bbt blt c034'>33,015</td>
- <td class='bbt blt c034'>19,385</td>
- <td class='bbt blt c034'>39,217</td>
- <td class='bbt blt c034'>22,103</td>
- <td class='bbt blt c034'>47,596</td>
- </tr>
- <tr>
- <td class='bbt c019' colspan='2'>Grand total, oz.</td>
- <td class='bbt blt c034'>116,232</td>
- <td class='bbt blt c034'>52,165</td>
- <td class='bbt blt c034'>49,972</td>
- <td class='bbt blt c034'>40,634</td>
- <td class='bbt blt c034'>26,334</td>
- <td class='bbt blt c034'>76,011</td>
- <td class='bbt blt c034'>23,689</td>
- <td class='bbt blt c034'>48,745</td>
- </tr>
-</table>
-
-<div class='footnote' id='fN'>
-<p class='c007'><a href='#rN'>N</a>. Including manufactured platinum.</p>
-</div>
-
-<p class='c007'><span class='pageno' id='Page_47'>47</span>In 1917, 38,831 oz. of refined platinum metals, of which
-7,384 oz. is believed to have been of domestic origin, were
-recovered from alloy with other metals, and 72,186 oz. were
-obtained from the refining of scrap metal, and sweepings.
-The shortage was also to some extent relieved by the receipt
-from Russia early in 1918 of a special consignment of 20,922
-oz. of crude platinum, which had been collected in 1917 by the
-Russian-English Bank, and which was taken out of Russia by
-F. W. Draper and delivered to the United States Government.
-It yielded 17,640 oz. platinum, 64·75 oz. palladium, 182·11 oz.
-iridium and 48·56 oz. of rhodium, a total of 85·725 per cent.
-of platinum metals, slightly above the usual 83 per cent.<a id='r65' /><a href='#f65' class='c011'><sup>[65]</sup></a>.</p>
-
-<p class='c007'><i>Alaska.</i>—The first production of platinum in Alaska was in
-1916, in which year about 12 oz. were shipped to the United
-States. In 1917 the output rose to 81 oz., of which 66 oz.
-were obtained from the Seward Peninsula and 15 oz. from the
-Copper River country.</p>
-
-<p class='c007'>In 1918 an increased output of 135 oz. was partly obtained
-from alluvial deposits and partly as a by-product in the
-treatment of copper ore of the Salt Chuck mine, Ketchikan<a id='r66' /><a href='#f66' class='c011'><sup>[66]</sup></a>.</p>
-
-<p class='c007'>This mine is a palladium-copper mine containing mainly
-bornite with a little chalcopyrite, and the alteration products
-covellite and chalcocite, the metals present being, besides
-copper and palladium, gold, silver and platinum. The ratio
-of palladium to platinum averages 50 to 1. The concentrates
-produced, representing about 3½ per cent. of the weight of
-the ore, contain: copper, 40 per cent.; gold, 1·2 oz.; silver,
-5·3 oz.; and platinum metals, 3·15 oz. per ton<a id='r67' /><a href='#f67' class='c011'><sup>[67]</sup></a>.</p>
-
-<p class='c007'>In the Seward Peninsula the larger portion is derived from
-placer deposits in Dyme Creek, Koyuk district, where the
-gravels are primarily worked for gold, 1 oz. platinum being
-obtained for every $5,000 worth of gold. In 1918, 56 oz.
-were recovered. Bear Creek and Sweepstake Creek have
-also supplied small quantities of platinum, and a little is
-derived from placers on Boob Creek, in the Tolstoi district
-<a href='#f50' class='c011'><sup>[50]</sup></a> p. 19.</p>
-
-<p class='c007'>A possible source of platinum appears to lie in the neighbourhood
-of the Red Mountain, on the Kenai Peninsula. The
-mountain is composed of fine-grained dunite, in which abundant
-<span class='pageno' id='Page_48'>48</span>chromite occurs. Up to 1917 no placer mining had been
-attempted in this locality<a id='r68' /><a href='#f68' class='c011'><sup>[68]</sup></a>.</p>
-
-<p class='c007'>In the Goodro Mine, at the head of Kasaan Bay, Prince of
-Wales Island, were found in 1918 both platinum and palladium,
-the latter in greater amount, and carried in bornite and chalcopyrite;
-some chalcocite and covellite are present also in the
-ore. The copper minerals are disseminated through pyroxenite,
-and the country rock consists of limestones, slates and other
-sedimentaries. The platinum content is small, but regular,
-whilst the amount of palladium present is proportional to the
-amount of copper, there being about 1 oz. of palladium to
-every 8 to 12 per cent. (units) of copper<a id='r69' /><a href='#f69' class='c011'><sup>[69]</sup></a>.</p>
-
-<p class='c007'>A Bill has been introduced into Congress providing for the
-incorporation of the United States Platinum Corporation, with
-capital stock of $30,000,000, the object of which is to secure
-a concession from the Government of land areas in Alaska
-containing platinum sands, and to pay for such privilege, as a
-royalty or subsidy, one-eighth of the net profits obtained
-from the working of the concession<a id='r70' /><a href='#f70' class='c011'><sup>[70]</sup></a>.</p>
-
-<p class='c007'><i>California and Oregon.</i>—Platinum has been proved to exist
-over a wide area in placer deposits associated with gold, but
-the proportion of the platinum metals to the gold is usually
-small. Platinum is obtained from sands in streams rising in
-the belt of serpentine rocks in central California, and from the
-serpentine areas in the Siskiyou and Trinity counties in the
-north-west of the State, which continue north-east into Curry,
-Josephine and Jackson counties in south-western Oregon<a href='#f52' class='c011'><sup>[52]</sup></a> p. 300.
-The sources of the platinum obtained along the
-foot-hills of the Sierra Nevada were old stream channels on
-the western slopes of the mountains, which are now buried
-beneath lava several hundred feet deep. These “deep
-leads” are also mined by drifting for their gold and platinum
-contents, and in a few cases a fair amount of the metals is
-extracted from them. Some platinum is obtained by hydraulic
-mining, but this is carried on with difficulty, owing to the
-prevailing scarcity of water<a href='#f50' class='c011'><sup>[50]</sup></a> p. 18.</p>
-
-<p class='c007'>Platinum occurs in black sands found on the Pacific coast
-in the counties of Coos, Curry and Josephine, Oregon and Del
-Norte, California. Formerly these beach deposits were rich
-<span class='pageno' id='Page_49'>49</span>in platinum, but at the present small quantities only are
-obtainable after stormy weather. This area has recently been
-examined by the United States Bureau of Mines, but the
-results were disappointing.</p>
-
-<p class='c007'>In California most of the output of platinum is produced by
-dredging for gold in the Butte, Calaveras and Stanislaus
-counties<a href='#f50' class='c011'><sup>[50]</sup></a> p. 19. In Trinity county mining is in progress
-on the Trinity River, about 4 miles below Junction City,
-by the Valdos Dredging Co. The output from this source
-for sixteen months in 1916–17 was stated to be 1,950 gm.
-Platinum, with gold and osmiridium, is also obtained on
-the Yuba River, about 12 miles east of Marysville in Yuba
-county, by the Yuba Consolidated Goldfields<a href='#f10' class='c011'><sup>[10]</sup></a> p. 540.
-Some alluvial platinum has been recovered at the Bean Hill
-Gold Mine, situated 12 miles south-east of Placerville, and this
-locality is at present under investigation<a id='r71' /><a href='#f71' class='c011'><sup>[71]</sup></a>. Californian
-metal contains from 25 to 45 per cent. iridium. Its origin is
-believed to be the serpentine- and olivine-bearing rocks of the
-Sierra Nevada and other ranges.</p>
-
-<p class='c007'>In Oregon, in addition to the platinum obtained from the
-beach deposits near Bullards and Marshfield<a href='#f50' class='c011'><sup>[50]</sup></a> p. 20, it
-occurs in placer deposits, rich in chromite, in south-west
-Oregon, the principal output being derived from the Waldo
-district.</p>
-
-<p class='c007'>Platinum also exists in small quantities in streams in the
-neighbourhood of the Blue Mountains, eastern Oregon, where
-the Powder River Gold Dredging Co., in Sumpter district,
-produces on a small scale. Other platiniferous localities in
-eastern Oregon are the Granite and Canyon districts, and
-Spanish Gulch in Wheeler county<a href='#f10' class='c011'><sup>[10]</sup></a> p. 541.</p>
-
-<p class='c007'><i>Colorado.</i>—Platinum is known to exist in the black sands
-from Clear Creek. Its presence has also been reported in the
-gold gravels of the Iron Hill placer at Como, where it occurs
-mechanically combined with magnetite. Another occurrence
-recently discovered is in a vein worked by the Rollcall Mining
-Co., near Villa Grove. An assay of material from this vein,
-taken at a depth of 1,500 ft., showed the following values:
-gold, 3·2 oz.; platinum, 5·09 oz.; silver, 3·05 oz.; and copper, 3·5
-per cent.<a href='#f9' class='c011'><sup>[9]</sup></a> p. 592.</p>
-
-<p class='c007'><span class='pageno' id='Page_50'>50</span><i>Nevada.</i>—In 1909 the occurrence of platinum in Clark
-county was noticed by the United States Geological Survey to
-be in association with copper, nickel and cobalt ores from the
-Key West and Great Eastern Mines, near Bunkerville. The
-ore bodies are contained in pegmatites and basic intrusions,
-which carry pyrrhotite and chalcopyrite, the platinum content
-in the ore averaging about 0·2 oz. per ton<a id='r72' /><a href='#f72' class='c011'><sup>[72]</sup></a>.</p>
-
-<p class='c007'>In 1914 platinum, with palladium, was discovered at the
-Boss Gold Mine, situated 10 miles west of Goodsprings, in
-Clark county. The mine was originally worked for copper,
-and later for its copper and gold contents. The country
-rock consists of limestone of middle Carboniferous age, intruded
-by sills of quartz monzonite porphyry, the ore bodies
-occurring in a fault zone in the limestone. The copper ores
-comprise mainly chrysocolla and malachite, and contain traces
-only of platinum. The gold ore occurs in a fine-grained
-siliceous matrix, containing a bismuth-bearing variety of
-<i>plumbo-jarosite</i> (a hydrous sulphate of iron and lead). The
-rare metals are present in the free state, being apparently
-alloys of gold, platinum and palladium<a id='r73' /><a href='#f73' class='c011'><sup>[73]</sup></a>.</p>
-
-<p class='c007'>In 1919 the Boss Mine shipped $22,365 worth of platinum-bearing
-ore<a id='r74' /><a href='#f74' class='c011'><sup>[74]</sup></a>. A plant of 300 tons monthly capacity has
-recently been erected at Los Angeles, California, for the
-treatment of its complex ores, which average 7 per cent. of
-copper, 4 per cent. bismuth, and 1·0 oz. of platinum and
-palladium, 0·75 oz. of gold, and 3 oz. of silver per ton. The
-pulp from ore pulverized to 80 mesh is agitated with sulphuric
-acid (2 per cent.). The acid solution contains the copper
-and about 20 per cent. of the platinum. The copper is precipitated
-as cement copper, together with the platinum, by
-means of scrap-iron. The remainder of the platinum, together
-with the gold and silver, is first leached with, and then precipitated
-from, a neutral solution of calcium chloride. The
-inventors of the process claim that approximately 92 per cent.
-of the copper, 96 per cent. of the platinum metals, gold and
-silver, and over 90 per cent. of the bismuth are recovered by
-this process<a id='r75' /><a href='#f75' class='c011'><sup>[75]</sup></a>.</p>
-
-<p class='c007'>Metals of the platinum group have recently been shown to
-exist in small quantities in the ore of the Oro Amigo Mine,
-<span class='pageno' id='Page_51'>51</span>situated between 1 and 2 miles north-east of the Boss
-Mine. This ore differs from that of the Boss Mine, in that
-bismuth and plumbo-jarosite are absent. According to H. K.
-Riddell, the platinum metals content averages from a trace
-to 0·1 oz. per ton of ore.</p>
-
-<p class='c007'><i>North Carolina.</i>—At Mason Mountain, in Mason county,
-platinum occurs associated with rhodonite, garnet, biotite and
-iron sulphides in metamorphic deposits.</p>
-
-<p class='c007'><i>New York.</i>—It was reported a few years ago that platinum
-existed in large quantities in alluvial sands of the Adirondack
-region. J. M. Clarke, the New York State Geologist, examined
-the occurrence in 1917, and found that platinum was present
-in traces only, the deposits being of no economic importance
-<a href='#f10' class='c011'><sup>[10]</sup></a> p. 541.</p>
-
-<p class='c007'><i>Pennsylvania.</i>—At Lancaster county platinum is associated
-with pyrite, chalcopyrite and galena in mica-schist, and also
-at Boyertown in black Triassic shale.</p>
-
-<p class='c007'><i>Washington.</i>—The production of platinum on a small scale
-has been reported from beach deposits at the mouth of the
-south fork of the Lewis River near Yacolt, and also on beaches
-southward from the Straits of Juan de Fuca<a href='#f10' class='c011'><sup>[10]</sup></a> p. 542. The
-metal has also been located at various places in the Cascade
-Mountains in the central part of the State.</p>
-
-<p class='c007'><i>Wyoming.</i>—Palladium and platinum, in the proportion of
-3 to 1, are obtained at the Rambler Mine, in Albany county,
-the metals occurring as sperrylite in copper ore, contained in
-the kaolinized portion of a dunite dyke, intrusive into granite
-gneiss. The ore consists of covellite, chalcocite, chalcopyrite
-and tetrahedrite, with nickel and gold<a id='r76' /><a href='#f76' class='c011'><sup>[76]</sup></a>. It is stated that
-the platinum and palladium contents vary directly with the
-percentage of copper present, a typical assay giving the following
-values: copper, 5 per cent.; gold, 0·02 oz.; silver, 1 oz.;
-palladium, 0·4 oz.; and platinum, 0·6 oz. per ton<a id='r77' /><a href='#f77' class='c011'><sup>[77]</sup></a>.</p>
-
-<p class='c007'><i>Utah.</i>—Platinum and gold in very fine particles occur in the
-Green River, east of Vernal; also in the Colorado River, near
-Hite, below the mouth of the Green River. Attempts to mine
-these deposits have so far proved unsuccessful, due largely to
-the inaccessibility of the region, as well as the finely-divided
-condition of the platinum<a href='#f42' class='c011'><sup>[42]</sup></a> p. 11.</p>
-
-<div>
- <span class='pageno' id='Page_52'>52</span>
- <h3 class='c016'>SOUTH AMERICA</h3>
-</div>
-
-<h4 class='c008'><span class='sc'>Brazil</span></h4>
-
-<p class='c015'>José Vieira do Couto, in 1801, first pointed out that platinum
-occurs in the sands of the Lages River, near Conceiçao, Minas
-Geraes. According to E. Hussak<a id='r78' /><a href='#f78' class='c011'><sup>[78]</sup></a>, platinum in that
-region occurs only in the alluvium of rivers having their rise
-on the eastern slope of the Serra do Espinhaço. The platinum
-is accompanied by black pebbles of quartz-tourmaline rocks,
-magnetite, hematite, rutile, octahedrite, xenotime, monazite,
-senaite, pseudomorphs of rutile after octahedrite (<i><span lang="la" xml:lang="la">captivos</span></i>),
-zircon and gold, which is sometimes of a copper-red colour
-(palladium-gold). Palladic gold was formerly called <i><span lang="pt" xml:lang="pt">ouro
-branco</span></i> (white gold), by the miners.</p>
-
-<p class='c007'>At Condado, further north on the eastern slope of the same
-Serra, platinum also occurs with very similar associations.
-The platinum from both localities occurs in bunchy, mammillated
-and globular forms, concave within, with thin walls,
-having a radiated fibrous structure under the microscope. It
-is frequently in thin foliated crusts, having the characteristic
-structure of hematite. It was accurately described by
-Wollaston in 1805 and 1809. Hussak thinks the primary
-formation was an olivine rock, or gabbro, while the platinum
-is secondary, having been most probably re-deposited from
-solutions resulting from the decomposition of platiniferous
-pyrites or of sperrylite (PtAs<sub>2</sub>), minerals derived, possibly,
-from the neighbouring schistose quartzite, or from the overlying
-conglomeratic quartzite.</p>
-
-<p class='c007'>The platinum of Condado, although comparable, as regards
-density, to the Russian platinum, is very rich in palladium, is
-non-magnetic and contains practically no iron. An analysis
-by G. Florence gave the following percentages: insoluble
-residue, 0·92; platinum, 73·99; iridium, 0·08; palladium, 21·77;
-iron, 0·10 (= 96·86), undetermined (rhodium and osmium), 3·14.</p>
-
-<p class='c007'>In the Rio Abaeté, Minas Geraes, platinum—very different
-in appearance and chemical composition from that of the
-Serra do Espinhaço—occurs in placer deposits, associated with
-gold, diamonds and the following minerals: rolled pieces of a
-<span class='pageno' id='Page_53'>53</span>hydro-phosphate of barium and aluminium (<i>gorceixite</i> =
-“marumbé” of miners), garnet, almandite, pyrope, ashy-blue
-oxide of titanium (<i>bagageira</i>—regarded as a good indicator for
-diamonds), magnetite, chromite and calcium-titanate (<i><span lang="it" xml:lang="it">perovskite</span></i>).
-Pyroxene-olivine rock, a typical picrite-porphyry, rich
-in perovskite, and granular magnetite rocks, rich in titanium,
-have been observed by Oliveira in the vicinity. Hence it is
-highly probable that the platinum, as in the Urals, came from
-olivine rocks. The platinum occurs in thin laminæ, strongly
-rolled, and, rarely, in cubical crystals with the edges visibly
-rounded. It is strongly magnetic and contains no palladium.
-Minute crystals of osmiridium may occur with those of platinum,
-and in the platinum particles are found regular inclusions of
-osmiridium, as at Nizhne Turinsk, in the Urals, the platinum
-of which locality it resembles in chemical composition, magnetic
-properties and crystalline structure. The following analysis
-shows the percentage and composition of a general sample:
-insoluble residue, 7·57; iron, 9·62; palladium, trace; copper,
-trace; platinum metals, 82·81.</p>
-
-<p class='c007'>The auriferous alluvial of the Cuyabá and Coxim rivers in
-the southern part of the State of Matto-Grosso, also contain
-some platinum. According to Luiz Caetano Ferraz<a id='r79' /><a href='#f79' class='c011'><sup>[79]</sup></a>,
-platinum occurs in the River Coxipó-Mirim, where golddredging
-is carried on, combined with palladium, iron, osmium
-and iridium in small spherical grains, flattened on one side, of
-a brilliant white colour and strongly magnetic. It is found in
-alluvial deposits, associated with various kinds of quartz and
-oxides of iron, marcasite, arsenopyrite, rutile, anatase, almandine,
-garnet, black tourmaline, monazite, staurolite, white
-topaz, sphene, cassiterite, wolfram, graphite, galena and native
-silver.</p>
-
-<p class='c007'>In the State of Bahia, platinum has been found in Ituassú,
-Feira de S. Anna and Serra do Assuruá, and it is said to
-occur at Sâo Bartholomeu, and in the Serras do Pitango and
-Macahubes<a id='r80' /><a href='#f80' class='c011'><sup>[80]</sup></a>.</p>
-
-<p class='c007'>Platinum also occurs in Brazil as rare disseminations in the
-gold-bearing <i><span lang="pt" xml:lang="pt">jacutinga</span></i>, intercalated in the itabirites (e.g. at
-Gongo Socco Mine, long since abandoned). The jacutinga
-occurs as narrow bands and nuclei in the itabirites, containing
-<span class='pageno' id='Page_54'>54</span>a high percentage of gold, with much talc, clay and pulverulent
-pyrolusite. As accessory minerals zircon, rutile, cassiterite
-and tourmaline occur. Hussak thinks that the gold-bearing
-jacutinga has been derived from altered pegmatite veins.</p>
-
-<p class='c007'>From analyses made by Johnson (1833–41) on the Gongo
-Socco bullion, it would appear that the percentages of silver
-and platinum decreased while those of copper and palladium
-increased with depth (Henwood). The percentages of palladium
-varied from 3·89 to 4·80, and that of platinum from
-0·04 to 0·12.</p>
-
-<p class='c007'>At Candonga, gold occurs in an eruptive rock rich in
-magnetite enclosed in itabirite, and is probably of contact-metamorphic
-origin. The gold occurs in grains of high standard,
-and with it are found fine indented scales of palladic gold, of a
-bright copper-red colour.</p>
-
-<p class='c007'>At Itabira do Matto Dentro gold occurs in jacutinga, lying
-between a micaceous iron schist, rich in quartz, and an enormous
-solid bed of itabirite. The palladium-gold may be copper-red,
-dark-brown or silver-white in colour. Native platinum also
-occurs with the gold.</p>
-
-<p class='c007'>Grains of platinum have also been found in the most
-northerly of the auriferous lenticular masses, which occur near
-the Bruscus River, near Pernambuco, in Cambrian crystalline
-schists. The matrix is a coarse white quartz containing small
-quantities of the arsenides and sulphides of iron, and the
-sulphides of copper, lead and zinc.</p>
-
-<p class='c007'>Platinum, although widely distributed in Brazil, occurs in
-such small quantities that so far there has been no production;
-but in the near future richer and more extensive deposits may
-be discovered, or it may be found practicable to win the metal
-from those already known, as an important by-product.</p>
-
-<p class='c007'>Palladium-gold, or <i>porpezite</i>, is a natural alloy of palladium
-and gold, and may contain up to 10 per cent. of the former
-metal. It is found in Brazil, in gold-washings, and also in
-the gold-bearing jacutinga reefs at Gongo Socco, Candonga
-and Itabira do Matto Dentro. In 1870 Henwood showed
-that the palladic gold from Gongo Socco contained, to a
-moderate depth from surface, from 0·04 to 0·12 per cent. of
-platinum. (Palladium-gold has also been reported from gold-washings
-<span class='pageno' id='Page_55'>55</span>in the Caucasus, near Batoum.) Ruer concludes,
-from an examination of the freezing-point curves of artificial
-alloys of gold and palladium, that these alloys form a continuous
-series of mixed crystals, and that there is no indication
-of chemical combinations<a id='r81' /><a href='#f81' class='c011'><sup>[81]</sup></a>.</p>
-
-<h4 class='c008'><span class='sc'>Colombia</span></h4>
-
-<p class='c015'>This republic is the second largest producer of platinum
-in the world, and in pre-war years supplied about 5 per cent.
-of the world’s total output. Owing to the decline of the
-Russian supply, and the increased demand for the metal, the
-industry has in recent years received a considerable stimulus,
-and in 1916 Colombia’s production rose to approximately one-third
-of the Russian output.</p>
-
-<p class='c007'>Platinum was first introduced into Europe from Colombia
-in 1735, although the metal was known in America for some
-time previously<a href='#f48' class='c011'><sup>[48]</sup></a> p. 608. In 1810 the value of platinum
-stood at $5 to $6 (U.S.) per oz., and in 1823 the price had further
-dropped to from $3 to $4 per oz. As a result, platinum was
-rejected as waste in the operation of refining gold by the
-“dry-blowing” system. Later, when platinum became valuable,
-much of this dumped metal was recovered, notably in
-Quibdo, the capital of the Chocó district, where much gold-refining
-was carried on.</p>
-
-<p class='c007'>The following table gives the outputs of crude platinum
-from Colombia, in recent years, principally produced in the
-Chocó district:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c023'>Year.</th>
- <th class='c024'>Oz. (troy).</th>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c023'>1911</td>
- <td class='c035'>12,000</td>
- </tr>
- <tr>
- <td class='c023'>1912</td>
- <td class='c035'>12,000</td>
- </tr>
- <tr>
- <td class='c023'>1913</td>
- <td class='c035'>15,000</td>
- </tr>
- <tr>
- <td class='c023'>1914</td>
- <td class='c035'>17,500</td>
- </tr>
- <tr>
- <td class='c023'>1915</td>
- <td class='c035'>18,000</td>
- </tr>
- <tr>
- <td class='c023'>1916</td>
- <td class='c035'>25,000</td>
- </tr>
- <tr>
- <td class='c023'>1917</td>
- <td class='c035'>32,000</td>
- </tr>
- <tr>
- <td class='c023'>1918</td>
- <td class='c035'>35,000 (estimated)</td>
- </tr>
-</table>
-
-<p class='c007'>The larger portion of the production is shipped to the
-United States, the exports to that country for the years 1910–18
-being as follows:</p>
-<table class='table0' summary=''>
- <tr>
- <th class='c023'>Year.</th>
- <th class='c024'>Oz. (troy).</th>
- </tr>
- <tr><td>&nbsp;</td></tr>
- <tr>
- <td class='c023'>1910</td>
- <td class='c026'>1,600</td>
- </tr>
- <tr>
- <td class='c023'>1911</td>
- <td class='c026'>5,503</td>
- </tr>
- <tr>
- <td class='c023'>1912</td>
- <td class='c026'>6,627</td>
- </tr>
- <tr>
- <td class='c023'>1913</td>
- <td class='c026'>10,461</td>
- </tr>
- <tr>
- <td class='c023'>1914</td>
- <td class='c026'>12,387</td>
- </tr>
- <tr>
- <td class='c023'>1915</td>
- <td class='c026'>13,121</td>
- </tr>
- <tr>
- <td class='c023'>1916</td>
- <td class='c026'>25,588</td>
- </tr>
- <tr>
- <td class='c023'>1917</td>
- <td class='c026'>21,278</td>
- </tr>
- <tr>
- <td class='c023'>1918</td>
- <td class='c026'>27,030</td>
- </tr>
-</table>
-
-<p class='c007'><span class='pageno' id='Page_56'>56</span>The crude platinum is estimated at 84 to 85 per cent. fine.
-The price in 1917 fluctuated from £16 to £20 10<i>s.</i> per oz., the
-average for the year being nearer the latter amount.</p>
-
-<p class='c007'>During 1918 the United States Government fixed the price
-at $105 per oz., which stimulated production.</p>
-
-<p class='c007'>The deposits are alluvial, and consist of re-concentrates of
-older gravels. The principal source of supply is at the head
-of the San Juan River, which enters the Pacific Ocean north
-of Buenaventura, the richest deposits occurring in the Condoto,
-Opagado and Tamanal Rivers, tributaries of the San Juan<a id='r82' /><a href='#f82' class='c011'><sup>[82]</sup></a>.
-Platinum is also obtained in the Upper Atrato River,
-which flows northward to the Caribbean Sea. It is nearly
-always found associated with gold. In the gravels of the
-San Juan River the two metals are present in about equal
-proportions, and in those of the Atrato the ratio is approximately
-85 of gold to 15 of platinum.</p>
-
-<p class='c007'>The area including the watersheds of the San Juan and
-Upper Atrato Rivers is known as the Chocó district. T.
-Ospina, Director of the Colombian School of Mines<a id='r83' /><a href='#f83' class='c011'><sup>[83]</sup></a>, estimates
-that in the area are 5,000 sq. miles of gold and
-platinum deposits, the Mira River forming the southern
-boundary of the area. In 1916 he estimated that there were
-in it 68,000,000 c. yd. of actually profitable gravel, with
-a reserve of 336,000,000 yd. of possibly profitable ground.
-Platinum has also been recovered in much smaller amounts
-on the Micay River in the Barbacoas district, near the frontier
-of Ecuador. The stream beds in which platinum occurs are
-those in which Tertiary conglomerates have become eroded;
-the river gravels about the areas underlain by that formation
-are barren. The conglomerates are composed of rounded
-boulders of basic rocks, such as diabase, melaphyre, peridotite
-and dunite<a href='#f48' class='c011'><sup>[48]</sup></a> p. 620.</p>
-
-<p class='c007'>At Novita Vieja, in the centre of the Chocó district, a bed
-of conglomerate 6 to 12 ft. thick has been laid bare, over an
-area 2½ miles long and ½ mile wide, through the sluicing away
-of the overlying sands. It contains 0·5 oz. of gold, and
-0·5 oz. of platinum, per ton<a id='r84' /><a href='#f84' class='c011'><sup>[84]</sup></a>. According to Castillo, the
-parent rock is a typical gabbro, pyroxene predominating over
-the felspar<a id='r85' /><a href='#f85' class='c011'><sup>[85]</sup></a> p. 826.</p>
-
-<p class='c007'><span class='pageno' id='Page_57'>57</span>Platinum has been found in the Chocó district in serpentine
-rock. Granite also occurs in the same district, traversed
-by quartz lodes containing palladium, iridium, osmium and
-rhodium.</p>
-
-<p class='c007'>Colombian crude platinum contains from 80 to 85 per cent.
-platinum, the remaining 15 to 20 per cent. consisting chiefly
-of iridium and osmium. The sands in which it occurs are
-described as brown in colour, and carrying, besides platinum
-and gold, the heavy minerals chromite, magnetite and ilmenite
-<a href='#f85' class='c011'><sup>[85]</sup></a> p. 384.</p>
-
-<p class='c007'>In the past, mining operations have been very irregularly
-carried on, by primitive methods of working, but dredges are
-now being employed in increasing numbers. In 1915 a dredge
-was operated on the Condoto River, in the province of Chocó,
-by the Anglo-Colombian Development Company, and showed
-good results. Native methods of working are very simple.
-The alluvial gravels derived from dried-up beds of ancient
-rivers are hand-washed with the use of the <i><span lang="es" xml:lang="es">batea</span></i> or dish.
-Where the metal occurs in the bed of a river it is obtained by
-diving girls, who work down to the platiniferous gravels,
-removing the gravel in small dishes, the men being employed
-in washing the gravels on the river banks<a id='r86' /><a href='#f86' class='c011'><sup>[86]</sup></a>. About 90 per
-cent. of the total output is recovered by these primitive
-methods.</p>
-
-<p class='c007'>A large portion of the industry is in the hands of two companies,
-one of which is the South American Gold and Platinum
-Company, of New York, a Lewisohn company, which has
-absorbed the interests of the above-mentioned Anglo-Colombian
-Development Company, Ltd., the Gold Fields American
-Development Company, Ltd., and Johnson, Matthey &amp; Co.,
-Ltd., of London. The second company—the British Platinum
-and Gold Corporation, Ltd.—has recently amalgamated with
-the Paris (Transvaal) Gold Mines, Ltd., taking in the latter’s
-interests on the Opogodo and other places.</p>
-
-<p class='c007'>The question of transporting platinum concentrate to the
-coast is not a matter of much difficulty, as the Atrato River
-is navigable as far as Quibdo, and the San Juan can be ascended
-by vessels of moderate draught for over 140 miles inland.</p>
-
-<p class='c007'>An estimate of average working costs appears to be 6<i>d.</i> per
-<span class='pageno' id='Page_58'>58</span>c. yd. for dredging, and 3<i>d.</i> for hydraulicking<a id='r87' /><a href='#f87' class='c011'><sup>[87]</sup></a>. In 1917
-new platiniferous deposits were discovered in the Caceres
-district, between the Cauca and Nechi Rivers, in the department
-of Antioquia. The mineralized area extends along the
-Caceri River, a distance of 14¼ miles, the width at the north
-end being 1¼ miles, and 300 ft. at the southern extremity
-<a href='#f10' class='c011'><sup>[10]</sup></a> p. 545.</p>
-
-<h4 class='c008'><span class='sc'>Ecuador</span></h4>
-
-<p class='c015'>Platinum occurs, in association with the gold obtained from
-steam gravels, in the area covered by the Rivers Bogota,
-Cachabi, Uimbi, Santiago and Cayapas, but it has not so far
-been found in sufficient quantities to be of economic importance.</p>
-
-<p class='c007'>Dredging has been employed in mining these deposits, but
-does not appear to have been a success, and operations are now
-largely confined to native washings<a id='r88' /><a href='#f88' class='c011'><sup>[88]</sup></a>.</p>
-
-<h4 class='c008'><span class='sc'>French Guiana</span></h4>
-
-<p class='c015'>Platiniferous gold-bearing sands are found in the Aporuague
-River, the metal, according to an analysis by A. Danmer,
-having the following composition in percentages: platinum,
-41·96; gold, 18·18; silver, 18·39; copper, 20·56<a id='r89' /><a href='#f89' class='c011'><sup>[89]</sup></a>.</p>
-
-<div class='chapter'>
- <span class='pageno' id='Page_59'>59</span>
- <h2 class='c005'>WORLD MAP OF PLATINUM DEPOSITS</h2>
-</div>
-<div class='figcenter id002'>
-<img src='images/i_059.jpg' alt='' class='ig001' />
-<div class='ic002'>
-<p><span class='sc'>Map showing the platinum-bearing districts referred to in the Text.</span><br /><br />(British Empire and Protectorates shaded.)</p>
-</div>
-</div>
-
-<div class='chapter'>
- <span class='pageno' id='Page_60'>60</span>
- <h2 class='c005'>REFERENCES TO LITERATURE ON THE PLATINUM METALS</h2>
-</div>
-
-<hr class='c036' />
-<div class='footnote' id='f1'>
-<p class='c007'><a href='#r1'>1</a>. Lindgren, W.: “Platinum and Allied Metals,” <cite>U.S. Geol.
-Surv., Min. Res. of U.S.</cite>, 1911.</p>
-</div>
-<div class='footnote' id='f2'>
-<p class='c007'><a href='#r2'>2</a>. Thomas and MacAlister: <cite>The Geology of Ore Deposits</cite>,
-London, 1909.</p>
-</div>
-<div class='footnote' id='f3'>
-<p class='c007'><a href='#r3'>3</a>. Gowland, W.: <cite>Metallurgy of Non-Ferrous Metals</cite>, London, 1918.</p>
-</div>
-<div class='footnote' id='f4'>
-<p class='c007'><a href='#r4'>4</a>. Dunstan, B.: <cite>Queensland Govt. Min. Journ.</cite>, 1917, <b>18</b>.</p>
-</div>
-<div class='footnote' id='f5'>
-<p class='c007'><a href='#r5'>5</a>. Lindgren, W.: “Platinum and Allied Metals,” <cite>U.S. Geol.
-Surv., Min. Res. of U.S.</cite>, 1910.</p>
-</div>
-<div class='footnote' id='f6'>
-<p class='c007'><a href='#r6'>6</a>. Rose, T. K.: “Electrolytic Refining of Gold,” <cite>Trans. Inst.
-Min. and Met.</cite>, 1914–15, <b>24</b>, p. 45.</p>
-</div>
-<div class='footnote' id='f7'>
-<p class='c007'><a href='#r7'>7</a>. Hill, Jas. M.: “The Platinum Situation,” <cite>Eng. Min. Journ.</cite>,
-July 26, 1919.</p>
-</div>
-<div class='footnote' id='f8'>
-<p class='c007'><a href='#r8'>8</a>. Hautpick, E. de: <cite>Mining Journ.</cite>, Feb. 1, 1913.</p>
-</div>
-<div class='footnote' id='f9'>
-<p class='c007'><a href='#r9'>9</a>. <cite>Mineral Industry</cite>, 1916, <b>25</b>.</p>
-</div>
-<div class='footnote' id='f10'>
-<p class='c007'><a href='#r10'>10</a>. <cite>Mineral Industry</cite>, 1917, <b>26</b>.</p>
-</div>
-<div class='footnote' id='f11'>
-<p class='c007'><a href='#r11'>11</a>. <cite>Review of Foreign Press, Technical Supplement</cite>, War Office,
-May 27, 1919, p. 395.</p>
-</div>
-<div class='footnote' id='f12'>
-<p class='c007'><a href='#r12'>12</a>. <cite>Mining Journ.</cite>, Dec. 27, 1919.</p>
-</div>
-<div class='footnote' id='f13'>
-<p class='c007'><a href='#r13'>13</a>. <cite>Chem. and Met. Eng.</cite>, Oct. 15, 1918, p. 607.</p>
-</div>
-<div class='footnote' id='f14'>
-<p class='c007'><a href='#r14'>14</a>. Hill, Jas. M.: “Platinum Deposits of the World,” <cite>Eng. Min.
-Journ.</cite>, June 30, 1917.</p>
-</div>
-<div class='footnote' id='f15'>
-<p class='c007'><a href='#r15'>15</a>. Merz, A. R.: <cite>Journ. Ind. and Eng. Chem.</cite>, Nov. 1918, <b>10</b>,
-No. 11.</p>
-</div>
-<div class='footnote' id='f16'>
-<p class='c007'><a href='#r16'>16</a>. <cite>Annual Statements of Trade of the United Kingdom.</cite></p>
-</div>
-<div class='footnote' id='f17'>
-<p class='c007'><a href='#r17'>17</a>. Spurr, J. E.: “Who Owns the Earth?” <cite>Eng. Min. Journ.</cite>,
-Feb. 7, 1920.</p>
-</div>
-<div class='footnote' id='f18'>
-<p class='c007'><a href='#r18'>18</a>. <cite>Records Geol. Surv. of India</cite>, 1916, <b>47</b>, pt. 3, p. 163.</p>
-</div>
-<div class='footnote' id='f19'>
-<p class='c007'><a href='#r19'>19</a>. <cite>Records Geol. Surv. of India</cite>, 1919, <b>50</b>, pt. 3, p. 156.</p>
-</div>
-<div class='footnote' id='f20'>
-<p class='c007'><a href='#r20'>20</a>. <cite>Records Geol. Surv. of India</cite>, 1915, <b>46</b>, p. 284.</p>
-</div>
-<div class='footnote' id='f21'>
-<p class='c007'><a href='#r21'>21</a>. Zealley, A. E. V.: <cite>South Rhod. Geol. Surv., Short Rept.</cite> No. 3,
-March 20, 1918.</p>
-</div>
-<div class='footnote' id='f22'>
-<p class='c007'><a href='#r22'>22</a>. <cite>Bull. Imp. Inst.</cite>, 1907, <b>5</b>, p. 137.</p>
-</div>
-<div class='footnote' id='f23'>
-<p class='c007'><a href='#r23'>23</a>. “Geology of the Selukwe Mineral Belt,” <cite>Geol. Surv. Bull.
-South Rhod.</cite>, 1919, No. 3, p. 65.</p>
-</div>
-<div class='footnote' id='f24'>
-<p class='c007'><a href='#r24'>24</a>. <span class='pageno' id='Page_61'>61</span>Versfield, W.: Rept. on Metal Resources of Union of S.
-Africa, 1918.</p>
-</div>
-<div class='footnote' id='f25'>
-<p class='c007'><a href='#r25'>25</a>. Goodchild, W. H.: <cite>Trans. Inst. Min. and Met.</cite>, 1916–17, <b>26</b>.</p>
-</div>
-<div class='footnote' id='f26'>
-<p class='c007'><a href='#r26'>26</a>. Bettel, W.: <cite>S. African Mines</cite>, Nov. 10, 1916.</p>
-</div>
-<div class='footnote' id='f27'>
-<p class='c007'><a href='#r27'>27</a>. Hall, A., and Humphrey, W. A.: “The Chromite Deposits of
-the Bushveld Plutonic Complex,” <cite>Trans. Geol. Soc. S.
-Africa</cite>, 1908, <b>11</b>, pp. 75–6.</p>
-</div>
-<div class='footnote' id='f28'>
-<p class='c007'><a href='#r28'>28</a>. <cite>Mining Journ.</cite>, Feb. 29, 1913.</p>
-</div>
-<div class='footnote' id='f29'>
-<p class='c007'><a href='#r29'>29</a>. Mackenzie, G. C.: <cite>Can. Min. Inst. Bull.</cite>, April 1919.</p>
-</div>
-<div class='footnote' id='f30'>
-<p class='c007'><a href='#r30'>30</a>. Camsell, C.: <cite>Mining Journ.</cite>, May 1914, p. 523.</p>
-</div>
-<div class='footnote' id='f31'>
-<p class='c007'><a href='#r31'>31</a>. Uglow, W. L.: “Geology of Platinum Deposits,” <cite>Eng. Min.
-Journ.</cite>, Aug. 30, 1919; Sept. 6, 1919.</p>
-</div>
-<div class='footnote' id='f32'>
-<p class='c007'><a href='#r32'>32</a>. <cite>Chem. Trade Journ.</cite>, 1911, <b>49</b>, p. 271.</p>
-</div>
-<div class='footnote' id='f33'>
-<p class='c007'><a href='#r33'>33</a>. <cite>Min. Sci. Press</cite>, April 10, 1920, p. 536.</p>
-</div>
-<div class='footnote' id='f34'>
-<p class='c007'><a href='#r34'>34</a>. <cite>Board of Trade Journ.</cite>, 1917, <b>99</b>, p. 156.</p>
-</div>
-<div class='footnote' id='f35'>
-<p class='c007'><a href='#r35'>35</a>. <cite>Can. Min. Journ.</cite>, 1916, <b>37</b>, p. 548.</p>
-</div>
-<div class='footnote' id='f36'>
-<p class='c007'><a href='#r36'>36</a>. <cite>Can. Min. Inst. Bull.</cite>, 1918, No. 63, p. 99.</p>
-</div>
-<div class='footnote' id='f37'>
-<p class='c007'><a href='#r37'>37</a>. <cite>Geol. Surv. of Canada, Min. Res. of Canada</cite>, 1903, No. 818.</p>
-</div>
-<div class='footnote' id='f38'>
-<p class='c007'><a href='#r38'>38</a>. <cite>Board of Trade Journ.</cite>, April 17, 1919, p. 504.</p>
-</div>
-<div class='footnote' id='f39'>
-<p class='c007'><a href='#r39'>39</a>. Howley, G. P.: <cite>Mining World</cite>, 1907, <b>26</b>, p. 783.</p>
-</div>
-<div class='footnote' id='f40'>
-<p class='c007'><a href='#r40'>40</a>. <cite>N.S.W. Dept. of Mines, Ann. Rept. for 1918</cite>, p. 52.</p>
-</div>
-<div class='footnote' id='f41'>
-<p class='c007'><a href='#r41'>41</a>. <cite>N.S.W. Dept. of Mines, Ann. Rept. for 1915</cite>, p. 59.</p>
-</div>
-<div class='footnote' id='f42'>
-<p class='c007'><a href='#r42'>42</a>. Hill, Jas. M.: “Platinum and Allied Metals in 1916,” <cite>U.S.
-Geol. Surv.</cite>, July 12, 1917.</p>
-</div>
-<div class='footnote' id='f43'>
-<p class='c007'><a href='#r43'>43</a>. <cite>Rec. of Geol. Surv. N.S.W.</cite>, 1916, <b>9</b>, pt. 3, p. 127.</p>
-</div>
-<div class='footnote' id='f44'>
-<p class='c007'><a href='#r44'>44</a>. <cite>Min. and Sci. Press</cite>, April 10, 1919.</p>
-</div>
-<div class='footnote' id='f45'>
-<p class='c007'><a href='#r45'>45</a>. Bell, G. M.: <cite>Economic Geology</cite>, 1906, <b>1</b>, No. 8, p. 749.</p>
-</div>
-<div class='footnote' id='f46'>
-<p class='c007'><a href='#r46'>46</a>. <cite>Mineral Industry</cite>, 1914, <b>23</b>.</p>
-</div>
-<div class='footnote' id='f47'>
-<p class='c007'><a href='#r47'>47</a>. Krusch, P.: “The Platinum Deposits of Germany’s Palæozoic”
-(trans. by F. S. Schmidt), <cite>Min. and Sci. Press</cite>,
-1914, <b>109</b>, p. 880.</p>
-</div>
-<div class='footnote' id='f48'>
-<p class='c007'><a href='#r48'>48</a>. <cite>Pan-American Union</cite>, 1917, <b>45</b>.</p>
-</div>
-<div class='footnote' id='f49'>
-<p class='c007'><a href='#r49'>49</a>. <cite>Mining Journ.</cite>, 1904, <b>76</b>, p. 597.</p>
-</div>
-<div class='footnote' id='f50'>
-<p class='c007'><a href='#r50'>50</a>. Hill, Jas. M.: “Platinum and Allied Metals in 1917,” <cite>U.S.
-Geol. Surv., Min. Res.</cite>, 1917, pt. 1, p. 11.</p>
-</div>
-<div class='footnote' id='f51'>
-<p class='c007'><a href='#r51'>51</a>. Vissotzki, N.: <cite><span lang="fr" xml:lang="fr">Bull. du Comité géologique</span></cite>, St. Petersburg, <b>22</b>,
-1903 (abstract in <cite>Trans. Inst. M.E.</cite>, 1903, <b>27</b>, p. 660).</p>
-</div>
-<div class='footnote' id='f52'>
-<p class='c007'><a href='#r52'>52</a>. Hill, G. M.: <cite>U.S. Comm. Repts.</cite>, 1917, No. 94.</p>
-</div>
-<div class='footnote' id='f53'>
-<p class='c007'><a href='#r53'>53</a>. Duparc, L.: <cite>Soc. Ings. Civils, France, Mem. 1916, Bull.</cite>
-Janv.-Mars.</p>
-</div>
-<div class='footnote' id='f54'>
-<p class='c007'><a href='#r54'>54</a>. Ball, S. H., and Low, B.: <cite>Eng. and Min. Journ.</cite>, March 10,
-1917, p. 407.</p>
-</div>
-<div class='footnote' id='f55'>
-<p class='c007'><a href='#r55'>55</a>. Tovey, L.: <cite>Eng. and Min. Journ.</cite>, Oct. 10, 1908, p. 704.</p>
-</div>
-<div class='footnote' id='f56'>
-<p class='c007'><a href='#r56'>56</a>. <cite>Chem. Trade Journ.</cite>, 1917, <b>60</b>, No. 1,562, p. 362.</p>
-</div>
-<div class='footnote' id='f57'>
-<p class='c007'><a href='#r57'>57</a>. <cite>Eng. and Min. Journ.</cite>, Mar. 6, 1920.</p>
-</div>
-<div class='footnote' id='f58'>
-<p class='c007'><a href='#r58'>58</a>. <cite>Mineral Industry</cite>, 1915, <b>24</b>, p. 580.</p>
-</div>
-<div class='footnote' id='f59'>
-<p class='c007'><a href='#r59'>59</a>. Posewitz, T.: <cite>Geology and Mineral Resources of Borneo</cite>, 1892
-(trans. by F. H. Hatch).</p>
-</div>
-<div class='footnote' id='f60'>
-<p class='c007'><a href='#r60'>60</a>. <cite>Mineral Industry</cite>, 1913, <b>22</b>, p. 597.</p>
-</div>
-<div class='footnote' id='f61'>
-<p class='c007'><a href='#r61'>61</a>. Hundeshagen, L.: “The Occurrence of Platinum in Wollastonite,
-Sumatra, N.E.I.,” <cite>Trans. Inst. Min. and Met.,
-1903–4</cite>, <b>13</b>, p. 550–2.</p>
-</div>
-<div class='footnote' id='f62'>
-<p class='c007'><a href='#r62'>62</a>. Wada, Tsumashire: <cite>Minerals of Japan</cite>, 1904, p. 89 (trans.
-by Takudgi Okawa).</p>
-</div>
-<div class='footnote' id='f63'>
-<p class='c007'><a href='#r63'>63</a>. <cite>Bull. Econ. de Madagascar</cite>, 1912, No. 2, p. 86.</p>
-</div>
-<div class='footnote' id='f64'>
-<p class='c007'><a href='#r64'>64</a>. Hautpick, E. de: <cite>Min. Journ.</cite>, July 27, 1912, <b>98</b>, p. 747.</p>
-</div>
-<div class='footnote' id='f65'>
-<p class='c007'><a href='#r65'>65</a>. <cite>Mineral Industry</cite>, 1918, <b>27</b>, p. 571.</p>
-</div>
-<div class='footnote' id='f66'>
-<p class='c007'><a href='#r66'>66</a>. <cite>Eng. and Min. Journ.</cite>, Jan. 11, 1919, p. 107.</p>
-</div>
-<div class='footnote' id='f67'>
-<p class='c007'><a href='#r67'>67</a>. Mertie, J. B., Jr.: “The Salt Chuck Palladium-Copper Mine,”
-<cite>Eng. and Min. Journ.</cite>, July 3, 1920.</p>
-</div>
-<div class='footnote' id='f68'>
-<p class='c007'><a href='#r68'>68</a>. Martin, Johnson and Grant: <cite>U.S. Geol. Surv., 1917</cite>, <cite>Bull.</cite>
-No. 587, p. 238.</p>
-</div>
-<div class='footnote' id='f69'>
-<p class='c007'><a href='#r69'>69</a>. Campbell, Donald G.: “Palladium in Alaskan Lode Deposits,”
-<cite>Min. and Sci. Press</cite>, Oct. 11, 1919.</p>
-</div>
-<div class='footnote' id='f70'>
-<p class='c007'><a href='#r70'>70</a>. <cite>Board of Trade Journ.</cite>, Dec. 11, 1919, <b>103</b>.</p>
-</div>
-<div class='footnote' id='f71'>
-<p class='c007'><a href='#r71'>71</a>. <cite>Min. and Sci. Press</cite>, Mar. 15, 1919, p. 367.</p>
-</div>
-<div class='footnote' id='f72'>
-<p class='c007'><a href='#r72'>72</a>. Hall, F. A.: <cite>Eng. and Min. Journ.</cite>, Oct. 10, 1914, p. 642.</p>
-</div>
-<div class='footnote' id='f73'>
-<p class='c007'><a href='#r73'>73</a>. Knopf, A.: <cite>Min. and Sci. Press</cite>, June 5, 1915, p. 878.</p>
-</div>
-<div class='footnote' id='f74'>
-<p class='c007'><a href='#r74'>74</a>. <cite>Chem. and Met. Eng.</cite>, March 24, 1920.</p>
-</div>
-<div class='footnote' id='f75'>
-<p class='c007'><a href='#r75'>75</a>. <cite>Min. and Sci. Press</cite>, March 9, 1920.</p>
-</div>
-<div class='footnote' id='f76'>
-<p class='c007'><a href='#r76'>76</a>. <cite>Eng. and Min. Journ.</cite>, May 25, 1905, p. 985.</p>
-</div>
-<div class='footnote' id='f77'>
-<p class='c007'><a href='#r77'>77</a>. Taft, H. H.: <cite>Eng. and Min. Journ.</cite>, 1918, <b>106</b>, No. 21, p. 900.</p>
-</div>
-<div class='footnote' id='f78'>
-<p class='c007'><a href='#r78'>78</a>. <span class='pageno' id='Page_62'>62</span>Hussak, Euginio: “O Palladio e a Platina no Brasil,” <cite><span lang="pt" xml:lang="pt">Annas
-da Escola de Minas de Ouro Preto</span></cite>, 1916, No. 8, 85–188.</p>
-</div>
-<div class='footnote' id='f79'>
-<p class='c007'><a href='#r79'>79</a>. Ferraz, Luiz Caetano: <cite><span lang="pt" xml:lang="pt">Annas da Escola de Minas de Ouro
-Preto</span></cite>, 1909, No. 11.</p>
-</div>
-<div class='footnote' id='f80'>
-<p class='c007'><a href='#r80'>80</a>. Carneiro, A. J. de Sousa: <cite><span lang="pt" xml:lang="pt">Riquezas Mineraes do Estado da
-Bahia</span></cite>, 1908.</p>
-</div>
-<div class='footnote' id='f81'>
-<p class='c007'><a href='#r81'>81</a>. Maclaren, J. M.: <cite>Gold: Its Geological Occurrence and Geographical
-Distribution</cite>, London, 1908, p. 25.</p>
-</div>
-<div class='footnote' id='f82'>
-<p class='c007'><a href='#r82'>82</a>. <cite>Journ. of the Royal Society of Arts</cite>, 1908, <b>56</b>, p. 884.</p>
-</div>
-<div class='footnote' id='f83'>
-<p class='c007'><a href='#r83'>83</a>. Ospina, T.: Paper read before second Pan-American Congr.,
-Jan. 3, 1916.</p>
-</div>
-<div class='footnote' id='f84'>
-<p class='c007'><a href='#r84'>84</a>. White, R. W.: <cite>Eng. and Min. Journ.</cite>, 1897, <b>63</b>, p. 189.</p>
-</div>
-<div class='footnote' id='f85'>
-<p class='c007'><a href='#r85'>85</a>. Castillo, J. C.: <cite>Min. and Sci. Press</cite>, 1909, <b>98</b>.</p>
-</div>
-<div class='footnote' id='f86'>
-<p class='c007'><a href='#r86'>86</a>. “Platinum-seeking in Colombia,” <cite>The Times</cite>, Nov. 26, 1912.</p>
-</div>
-<div class='footnote' id='f87'>
-<p class='c007'><a href='#r87'>87</a>. <cite>Mining Journ.</cite>, Nov. 30, 1918, p. 700.</p>
-</div>
-<div class='footnote' id='f88'>
-<p class='c007'><a href='#r88'>88</a>. <span class='pageno' id='Page_63'>63</span>Millar and Singewald: <cite>Mineral Deposits of South America</cite>,
-New York, 1919, p. 405.</p>
-</div>
-<div class='footnote' id='f89'>
-<p class='c007'><a href='#r89'>89</a>. Kunz, George F.: “Platinum and Palladium in Brazil,”
-<cite>Pan-American Bull.</cite>, April 1919, p. 408.</p>
-</div>
-<div class='footnote' id='f90'>
-<p class='c007'><a href='#r90'>90</a>. <cite>U.S. Comm. Repts.</cite>, 1919, No. 21, p. 387.</p>
-</div>
-
-<div class='nf-center-c0'>
-<div class='nf-center c002'>
- <div><span class='pageno' id='Page_64'>64</span><span class='small'>PRINTED BY</span></div>
- <div><span class='small'>HAZELL, WATSON AND VINEY, LD.,</span></div>
- <div><span class='small'>LONDON AND AYLESBURY,</span></div>
- <div><span class='small'>ENGLAND.</span></div>
- </div>
-</div>
-
-<div class='pbb'>
- <hr class='pb c004' />
-</div>
-<div class='tnotes'>
-
-<div class='section ph2'>
-
-<div class='nf-center-c0'>
-<div class='nf-center c001'>
- <div>TRANSCRIBER’S NOTES</div>
- </div>
-</div>
-
-</div>
-
- <ol class='ol_1 c002'>
- <li>Footnote <a id='r90' /><a href='#f90' style='text-decoration: none;
- '><sup>[90]</sup></a> (was 64) was unanchored.
-
- </li>
- <li>P. <a href='#Page_59'>59</a>, added missing title “WORLD MAP OF PLATINUM DEPOSITS.”
-
- </li>
- <li>Silently corrected typographical errors and variations in spelling.
-
- </li>
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