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+The Project Gutenberg EBook of The Engineering Contributions of Wendel
+Bollman, by Robert M. Vogel
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: The Engineering Contributions of Wendel Bollman
+
+Author: Robert M. Vogel
+
+Release Date: October 20, 2010 [EBook #33912]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THE ENGINEERING ***
+
+
+
+
+Produced by Colin Bell, Joseph Cooper, Louise Pattison and
+the Online Distributed Proofreading Team at
+http://www.pgdp.net
+
+
+
+
+
+
+
+
+
+Transcriber's Notes:
+
+This is Paper 36 from the Smithsonian Institution United States National
+Museum Bulletin 240, comprising Papers 34-44, which will also be
+available as a complete e-book.
+
+The front material, introduction and relevant index entries from the
+Bulletin are included in each single-paper e-book.
+
+Inconsistencies in punctuation have been corrected without note.
+Inconsistent hyphenation is as per the original.
+
+
+
+
+ SMITHSONIAN INSTITUTION
+
+ UNITED STATES NATIONAL MUSEUM
+
+ BULLETIN 240
+
+ [Illustration]
+
+ SMITHSONIAN PRESS
+
+
+
+
+ MUSEUM OF HISTORY AND TECHNOLOGY
+
+ CONTRIBUTIONS
+ FROM THE
+ MUSEUM
+ OF HISTORY AND
+ TECHNOLOGY
+
+ _Papers 34-44_
+ _On Science and Technology_
+
+ SMITHSONIAN INSTITUTION . WASHINGTON, D.C. 1966
+
+
+
+
+_Publications of the United States National Museum_
+
+
+The scholarly and scientific publications of the United States National
+Museum include two series, _Proceedings of the United States National
+Museum_ and _United States National Museum Bulletin_.
+
+In these series, the Museum publishes original articles and monographs
+dealing with the collections and work of its constituent museums--The
+Museum of Natural History and the Museum of History and
+Technology--setting forth newly acquired facts in the fields of
+anthropology, biology, history, geology, and technology. Copies of each
+publication are distributed to libraries, to cultural and scientific
+organizations, and to specialists and others interested in the different
+subjects.
+
+The _Proceedings_, begun in 1878, are intended for the publication, in
+separate form, of shorter papers from the Museum of Natural History.
+These are gathered in volumes, octavo in size, with the publication date
+of each paper recorded in the table of contents of the volume.
+
+In the _Bulletin_ series, the first of which was issued in 1875, appear
+longer, separate publications consisting of monographs (occasionally in
+several parts) and volumes in which are collected works on related
+subjects. _Bulletins_ are either octavo or quarto in size, depending on
+the needs of the presentation. Since 1902 papers relating to the
+botanical collections of the Museum of Natural History have been
+published in the _Bulletin_ series under the heading _Contributions from
+the United States National Herbarium_, and since 1959, in _Bulletins_
+titled "Contributions from the Museum of History and Technology," have
+been gathered shorter papers relating to the collections and research of
+that Museum.
+
+The present collection of Contributions, Papers 34-44, comprises
+Bulletin 240. Each of these papers has been previously published in
+separate form. The year of publication is shown on the last page of each
+paper.
+
+ FRANK A. TAYLOR
+ _Director, United States National Museum_
+
+
+
+
+ CONTRIBUTIONS FROM
+ THE MUSEUM OF HISTORY AND TECHNOLOGY:
+ PAPER 36
+
+ THE ENGINEERING CONTRIBUTIONS
+ OF WENDEL BOLLMAN
+
+ _Robert M. Vogel_
+
+
+
+
+ EARLY CAREER 80
+
+ THE BOLLMAN TRUSS 85
+
+ W. BOLLMAN AND COMPANY 91
+
+ FINAL USE OF THE BOLLMAN TRUSS 95
+
+ KNOWN BOLLMAN WORKS 99
+
+ BIBLIOGRAPHY 104
+
+
+
+
+[Illustration: Figure 1.--WENDEL BOLLMAN, C.E. (1814-1884). (_Photo
+courtesy of Dr. Stuart Christhilf._)]
+
+
+_Robert M. Vogel_
+
+
+THE ENGINEERING CONTRIBUTIONS OF WENDEL BOLLMAN
+
+
+ _The development of structural engineering has always been as
+ dependent upon the availability of materials as upon the
+ expansion of theoretical concepts. Perhaps the greatest single
+ step in the history of civil engineering was the introduction
+ of iron as a primary structural material in the 19th century;
+ it quickly released the bridge and the building from the
+ confines of a technology based upon the limited strength of
+ masonry and wood._
+
+ _Wendel Bollman, self-taught Baltimore civil engineer, was the
+ first to evolve a system of bridging in iron to be consistently
+ used on an American railroad, becoming one of the pioneers who
+ ushered in the modern period of structural engineering._
+
+ THE AUTHOR: _Robert M. Vogel is curator of civil engineering in
+ the Smithsonian Institution's Museum of History and
+ Technology._
+
+
+Wendel Bollman's name survives today solely in association with the
+Bollman truss, and even in this respect is known only to a few older
+civil and railroad engineers. The Bollman system of trussing, along with
+those of Whipple and Fink, may be said to have introduced the great age
+of the metal bridge, and thus, directly, the modern period of civil
+engineering.
+
+Bollman's bridge truss, of which the first example was built in 1850,
+has the very significant distinction of being the first bridging system
+in the world employing iron in all of its principal structural members
+that was used consistently on a railroad.
+
+The importance of the transition from wood to iron as a structural and
+bridge building material is generally recognized, but it may be well to
+mention certain aspects of this change.
+
+The tradition of masonry bridge construction never attained the great
+strength in this country which it held in Europe, despite a number of
+notable exceptions. There were several reasons for this. From the very
+beginning of colonization, capital was scarce, a condition that
+prevailed until well into the 19th century and which prohibited the use
+of masonry because of the extremely high costs of labor and transport.
+An even more important economic consideration was the rapidity with
+which it was necessary to extend the construction of railways during
+their pioneer years. Unlike the early English and European railways,
+which invariably traversed areas of dense population and industrial
+activity, and were thus assured of a significant financial return almost
+from the moment that the first rail was down, the Baltimore and Ohio
+and its contemporaries were launched upon an entirely different
+commercial prospect. Their principal business consisted not so much in
+along-the-line transactions as in haulage between principal terminals
+separated by great and largely desolate expanses. This meant that income
+was severely limited until the line was virtually complete from end to
+end, and it meant that commencement of return upon the initial
+investment was entirely dependent upon the speed of survey, graduation,
+tunneling, and bridging.
+
+[Illustration: Figure 2.--MODEL OF B. H. LATROBE'S TRUSS, built in 1838,
+over the Patapsco River at Elysville (now Daniels), Maryland. (_Photo
+courtesy of Baltimore and Ohio Railroad._)]
+
+The need for speed, the general attenuation of capital, and the simple
+fact that all the early railroads traversed thickly forested areas
+rendered wood the most logical material for bridge and other
+construction, both temporary and permanent.
+
+The use of wood as a bridge material did not, of course, originate with
+the railroads, or, for that matter, in this country. The heavily wooded
+European countries--Switzerland in particular--had a strong tradition of
+bridge construction in timber from the Renaissance on, and naturally a
+certain amount of this technique found its way to the New World with the
+colonials and immigrants.
+
+America's highway system was meager until about the time the railroad
+age itself was beginning. However, by 1812 there were, along the eastern
+seaboard, a number of fine timber bridges of truly remarkable structural
+sophistication and workmanship.
+
+It was just previous to the advent of the railroads that the erection of
+highway bridges in this country began to pass from an art to a science.
+And an art it had been in the hands of the group of skilled but
+unschooled master carpenters and masons who built largely from an
+intuitive sense of proportion, stress, and the general "fitness of
+things." It passed into an exact science under the guidance of a small
+number of men trained at first in the scientific and technical schools
+of Europe, and, after about 1820, in the few institutions then
+established in America that offered technical instruction.
+
+The increasing number of trained engineers at first affected highway
+bridge construction not so much in the materials used but in the way
+they were assembled. In a bridge designed by a self-taught constructor,
+the cheapness of wood made it entirely feasible to proportion the
+members by enlarging them to the point where there could be no question
+as to their structural adequacy. The trained engineer, on the other
+hand, could design from the standpoint of determining the entire load
+and then proportioning each element according to the increment of stress
+upon it and to the unit capacity of the material.
+
+By the time railroads had started expanding to the West there had been
+sufficient experience with the half dozen practical timber truss systems
+by then evolved, that there was little difficulty in translating them
+into bridges capable of supporting the initial light rail traffic.
+
+In spite of its inherent shortcomings, wood was so adaptable that it met
+almost perfectly the needs of the railroads during the early decades of
+their intense expansion, and, in fact, still finds limited use in the
+Northwest.
+
+
+
+
+Early Career
+
+
+Wendel Bollman was born in Baltimore of German parents in 1814. His
+father was a baker, who in the same year had aided in the city's defense
+against the British. Wendel's education, until about the age of 11, was
+more or less conventionally gained in public and private schools in
+Baltimore. He then entered into informal apprenticeship, first to an
+apothecary in Sheperdstown, Virginia (now West Virginia), and then to
+one in Harpers Ferry. In 1826 or 1827 he became ill and returned to
+Baltimore for cure. From that time on his education was entirely
+self-acquired.
+
+[Illustration: Figure 3.--TRUSSED BEAM.]
+
+It is of interest, in light of his later career, to note that on the
+Fourth of July 1828, he marched with other boys in a procession that was
+part of the Baltimore and Ohio Railroad's cornerstone-laying ceremony.
+Shortly afterward, he apprenticed himself to a carpenter for a brief
+time, but when the work slacked off he obtained work with the B. & O.
+The right-of-way had been graded for about five miles by that time, but
+no rail was down. The boy was at first given manual work, but soon
+advanced to rodman and rapidly rose as he gained facility with the
+surveying apparatus. In the fall of 1829 he participated in laying the
+first track. As his mother was anxious that he continue his education in
+carpentry, he left the railroad in the spring of 1830 to again enter
+apprenticeship. He finished, became a journeyman, helped build a
+planter's mansion in Natchez, and returned to Baltimore in 1837 to
+commence his own carpentry business. The next year, while building a
+house in Harpers Ferry, he was asked to rejoin the B. & O. to rebuild
+parts of its large timber bridge over the Potomac there, which had
+fallen victim to various defects after about a year's use.
+
+[Illustration: Figure 4.--SIMPLE BEAM of 50-foot span with three
+independent trussing systems. Bollman's use of this method of support
+led to the development of his bridge truss. This drawing is of a
+temporary span used after the timber bridge at Harpers Ferry was
+destroyed during the Civil War. (In Baltimore and Ohio Collection,
+Museum of History and Technology.)]
+
+Shortly after the Harpers Ferry bridge reconstruction, Bollman was made
+foreman of bridges. It is apparent that, on the basis of his practical
+ability, enhanced by the theoretical knowledge gained by intense
+self-study, he eventually came to assist Chief Engineer Benjamin H.
+Latrobe in bridge design. He later took this work over entirely as
+Latrobe's attentions and talents were demanded in the location and
+extension of the line between Cumberland and Wheeling.
+
+[Illustration: Figure 5.--BOLLMAN'S ORIGINAL PATENT DRAWING, 1851. (In
+National Archives, Washington, D.C.)]
+
+The B. & O. did not reach its logical destination, Ohio (actually
+Wheeling, West Virginia, on the east bank of the Ohio River) until 1853.
+In the years following Bollman's return to the railroad, the design of
+bridges was an occupation of the engineering staff second in importance
+only to the location of the line itself. During this time Bollman
+continued to rise and assume greater responsibilities, being appointed
+master of road by Latrobe in 1848. In this position he was responsible
+for all railroad property that did not move, principally the
+right-of-way and its structures, including, of course, bridges.
+
+The recognition of Bollman's abilities was in the well-established
+tradition of the B. & O., long known as America's first "school of
+engineering," having sponsored many early experiments in motive power,
+trackwork, and other fundamental elements of railroad engineering. It
+furnished the means of expression for such men as Knight, Wright,
+Whistler, Latrobe, and Winans.
+
+[Illustration: Figure 6.--PLAN OF HARPERS FERRY BRIDGE as built by
+Latrobe. The second Winchester track was later removed.]
+
+Of these pioneer civil and mechanical engineers, some were formally
+trained but most were self-taught. Bollman's career on the B. & O. is of
+particular interest not only because he was perhaps the most successful
+of the latter class but because he was probably also the last. He may be
+said to be a true representative of the transitional period between
+intuitive and exact engineering. Actually, his designing was a composite
+of the two methods. While making consistent use of mathematical
+analysis, he was at the same time more or less dependent upon empirical
+methods. For years, B. & O. employees told stories of his sessions in
+the tin shop of the railroad's main repair facility at Mount Clair in
+Baltimore, where he built models of bridges from scraps of metal and
+then tested them to destruction to locate weaknesses. It seems most
+likely, however, that the empirical studies were used solely as checks
+against the mathematical.
+
+[Illustration: Figure 7.--RECENT MODEL of Bollman's Winchester span.
+Only two of the three lines of trussing are shown. The model is based on
+Bollman's published description and drawings of the structure. (USNM
+318171; Smithsonian photo 46941.)]
+
+In the period when Bollman began designing--about 1840--there were fewer
+than ten men in the country designing bridges by scientifically correct
+analytical methods, Whipple and Roebling the most notable of this group.
+By 1884, the year of Bollman's death, the age of intuitive design had
+been dead for a decade or longer.
+
+[Illustration: Figure 8.--THE BALTIMORE AND OHIO RAILROAD'S Potomac
+River crossing at Harpers Ferry, about 1860. Bollman's iron "Winchester
+span" of 1851 is seen at the right end of Latrobe's timber structure of
+1836, which forms the body of the bridge. (_Photo courtesy of Harpers
+Ferry National Historical Park._)]
+
+The B. & O. was in every way a truly pioneer enterprise. It was the
+first practical railroad in America; the first to use an American
+locomotive; the first to cross the Alleghenies. The spirit of innovation
+had been encouraged by the railroad's directors from the outset. It
+could hardly have been otherwise in light of the project's elemental
+daring.
+
+The first few major bridges beyond the line's starting point on Pratt
+Street, in Baltimore, were of rather elaborate masonry, but this may be
+explained by the projectors' consciousness of the railroad's
+significance and their desire for permanence. However, the
+aforementioned economic factors shortly made obvious the necessity of
+departure from this system, and wood was thereafter employed for most
+long spans on the line as far as Harpers Ferry and beyond. Only the most
+minor culverts and short spans, and those only in locations near
+suitable quarries, were built of stone.
+
+In addition to the economic considerations which prompted the company to
+revert to timber for the major bridges, there were several situations in
+which masonry construction was unsuitable for practical reasons. If
+stone arches were used in locations where the grade of the line was a
+relatively short distance above the surface of the stream to be crossed,
+a number of short arches would have been necessary to avoid a very flat
+single arch. In arch construction, the smaller the segment of a circle
+represented by the arch (that is, the flatter the arch), the greater the
+stress in the arch ring and the resulting horizontal thrust on the
+abutments.
+
+[Illustration: Figure 9.--BOLLMAN SKEW BRIDGE at Elysville (now
+Daniels), Maryland, built in 1853-1854. (_Photo courtesy of Maryland
+Historical Society._)]
+
+The piers for the numerous arches necessary to permit an optimum amount
+of rise relative to the span would have presented a dangerous
+restriction to stream flow in time of flood. By the use of timber
+trusses such crossings could be made in one or two spans with, at the
+most, one pier in the stream, thus avoiding the problem.
+
+The principal timber bridges as far west as Cumberland were of Latrobe's
+design. These were good, solid structures of composite construction, in
+which a certain amount of cast iron was used in joints and wrought iron
+for certain tension members. They were, however, more empirical than
+efficient and, for the most part, not only grossly overdesigned but of
+decidedly difficult fabrication and construction.
+
+What is interesting about the Latrobian timber trusses, however, is the
+effect they appear to have had upon Bollman's subsequent work in the
+design of his own truss. This effect is evidenced by the marked analogy
+between the primary structural elements of the two types. The Latrobe
+truss at Elysville (fig. 2) was only partially a truss, inasmuch as the
+greater part of the load was not carried from panel to panel, finally to
+appear at the abutments as a pure vertical reaction, but was carried
+from each panel (except the four at the center) directly to the bearing
+points at the piers by heavy diagonal struts, after the fashion of the
+famous 18th-century Swiss trusses of the Grubenmanns. It was a
+legitimate structural device, and the simplest means of extending the
+capacity of a spanning system. However, it was defective in that the
+struts applied considerable horizontal thrust to the abutments,
+requiring heavier masonry than would otherwise have been necessary.
+
+It is quite likely that Latrobe did not have absolute confidence in the
+various pure truss systems already patented by Town, Long, and others,
+and preferred for such strategic service a structure in which the panel
+members acted more or less independently of one another. It will be seen
+that, similarly, the individual panel loads in Bollman's truss were
+carried to the ends of the frame by members acting independently of one
+another.
+
+
+
+
+The Bollman Truss
+
+
+There had never been any question about the many serious inadequacies of
+wood as a bridge material. Decay and fire risk, always present, were the
+principal ones, involving continuous expenditure for replacement of
+defective members and for fire watches. It was, in fact, understood by
+the management and engineering staff of the B. & O. that their timber
+bridge superstructures, though considered the finest in the country,
+were more or less expedient and were eventually to be replaced. In this
+regard it is not surprising that Latrobe, a man of considerable
+foresight, had, at an early date, given serious thought to the possible
+application of iron here.
+
+[Illustration: Figure 10.--POTOMAC RIVER CROSSING of the Baltimore and
+Ohio at North Branch, Maryland, built in 1856. There are three Bollman
+deck trusses. (_Photo courtesy of Baltimore and Ohio Railroad._)]
+
+[Illustration: Figure 11.--THE FINK TRUSS. (_Smithsonian photo
+41436._)]
+
+[Illustration: WENDEL BOLLMAN'S
+
+Patent Iron Suspension Railroad Bridge.
+
+The undersigned would inform the officers of Railroads and others, that
+he is prepared to furnish Drawings and Estimates for Bridges, Roofs,
+etc., on the plan of Bollman's Patent.
+
+The performance of these bridges, some of which have been in use for six
+years, has given entire satisfaction. Their simplicity of construction
+renders repairs easy and cheap, and by a peculiar connection of the Main
+and Panel Rods at the bottom of the Posts, all danger from the effects
+of expansion, which has heretofore been the chief objection to Iron
+Bridges, is entirely removed.
+
+ J. H. TEGMEYER,
+ Baltimore, Md.
+
+Figure 12.--ADVERTISEMENT in the _Railroad Advocate_, August 1855.]
+
+The world's first major iron bridge, the famed cast-iron arch at
+Coalbrookdale, England, had been constructed in 1779. Its erection was
+followed by rather sporadic interest in this use of the material. The
+first significant use of iron in this country was in a series of small
+trussed highway arches erected by Squire Whipple over the Erie Canal in
+the early 1840's, over 60 years later. In these, as in most of the
+earlier iron structures, an arch of cast iron was the primary support.
+The thrust of the arches was counteracted by open wrought-iron links
+with other wrought- and cast-iron members contributing to the truss
+action.
+
+The Whipple bridges promoted a certain amount of interest in the
+material. In the B. & O.'s annual report for the fiscal year 1849
+appears the first record of Latrobe's interest in this important matter.
+In the president's message is found the following, rather offhand,
+statement:
+
+ $6,183.19 have been expended toward the renewal of the Stone
+ Bridges on the Washington Branch, carried off by the flood of
+ Oct. 7th, 1847. Preparations are made and contracts entered
+ into, for the reconstruction of the large Bridges at Little
+ Patuxent and at Bladensburg which will be executed in a few
+ months.... It is proposed to erect a superstructure of Iron
+ upon stone abutments, at each place--with increased span, for
+ greater security against future floods.
+
+It is interesting to note that it was indeed Bollman trusses to which
+the president of the railroad had referred. How much earlier than this
+date Bollman had evolved his peculiar trussing system is not clear. The
+certain influence of Latrobe's radiating strut system of trussing has
+been mentioned. As likely an influence was another basic technique
+commonly used to increase the capacity of a simple timber beam--that of
+trussing--i.e., placing beneath the beam a rod of iron that was anchored
+at the ends of the beam and held a certain distance below it at the
+center by a vertical strut or post. This combination thus became a truss
+in that the timber portion was no longer subject to a bending stress but
+to a simple one of compression, the rod absorbing the tensile stress of
+the combination. The effect was to deepen the beam, increasing the
+distance between its extreme fibers and--by thus reducing the bending
+moment--reducing the stress in them (see fig. 3).
+
+[Illustration: Figure 13.--THE FOUR BOLLMAN SPANS at Harpers Ferry that
+survived the Civil War. The spans were completed in 1862-1863. (_Photo
+courtesy of Baltimore and Ohio Railroad._)]
+
+It apparently occurred to Bollman that by extending the number of rods
+in a longitudinal direction, this effect could be practically amplified
+to such an extent as to be capable of spanning considerable distances.
+He almost certainly did not at first contemplate an all-iron system, but
+rather a composite one such as described. It is entirely likely that
+such trussed beams, with multiple systems of tension rods, were used by
+Bollman as bridging in temporary trestlework along the line as early as
+1845 (see fig. 4).
+
+It is impossible to say whether Bollman himself, or Latrobe, was struck
+with the logic of further elaborating upon the system and,
+simultaneously, translating the timber compression member into one of
+cast iron. Cast iron would naturally have been selected for a member
+that resisted a compressive stress, as it was considerably cheaper than
+wrought iron. But more important, at that time wrought iron was not
+available in shapes of sufficient sectional area to resist the
+appreciable buckling stresses induced in long compression members. The
+cost of building up members to sufficient size from the very limited
+selection of small shapes then rolled would have been prohibitive.
+
+The trussing rods, subjected to tension, were of wrought iron inasmuch
+as the sectional area had only to be sufficient to resist the primary
+axial stress.
+
+The first all-iron Bollman truss was constructed over the Little
+Patuxent River at Savage Factory, near Laurel, Maryland, in 1850. In the
+chief engineer's report for the year 1850, Latrobe was able to state
+that the truss had been completed and was giving "much satisfaction."
+He went on at some length to praise the "valuable mechanical features"
+embodied therein, and expressed great confidence that iron would become
+as important a material in the field of civil engineering as it was in
+mechanical engineering.
+
+[Illustration: Figure 14.--THE HARPERS FERRY BRIDGE as completed after
+the Civil War. It was used by the Baltimore and Ohio until 1894, and as
+a highway bridge until 1936. (Photo 690, Baltimore and Ohio Collection,
+Museum of History and Technology.)]
+
+The cost of this first major Bollman bridge was $23,825.00. Its span was
+76 feet. Latrobe's confidence was well placed. The Savage span and
+another at Bladensburg may be considered successful pilot models, for,
+in spite of a certain undercurrent of mistrust of iron bridges within
+the engineering profession--due mainly to a number of failures of
+improperly designed spans--Latrobe felt there was sufficient
+justification for the unqualified adoption of iron in all subsequent
+major bridge structures on the B. & O.
+
+Almost immediately following completion of the Savage Bridge, Bollman
+undertook the design of replacements for the large Patapsco River span
+at Elysville (now Daniels), Maryland, and the so-called Winchester span
+of the B. & O.'s largest and most important bridge, that over the
+Potomac at Harpers Ferry. Harpers Ferry bridge, a timber structure, had
+been designed by Latrobe and built in 1836-1837 by the noted bridge
+constructor Lewis Wernwag. It was peculiar in having a turnout, near the
+Virginia shore, whereby a subsidiary road branched off to Winchester
+(see fig. 6). Only the single span on this line, situated between the
+midriver switch and the shore, was slated for replacement, as the other
+seven spans of the bridge had been virtually reconstructed in the decade
+or so of their history and were in sound condition at the time.
+
+The Winchester span (fig. 8), which was the first Bollman truss to
+embody sufficient refinement of detail to be considered a prototype, was
+completed in 1851. Bollman was extremely proud of the work, with perfect
+justification it may be said. The 124-foot span was fabricated in the
+railroad's extensive Mount Clair shops. It was subdivided into eight
+panels by seven struts and seven pairs of truss rods. An interesting
+difference between this span and Bollman's succeeding bridges was his
+use of granite rather than cast iron for the towers. The span consisted
+of three parallel lines of trussing to accommodate a common road in
+addition to the single-track Winchester line.
+
+The distinctive feature of the Bollman system was the previously
+mentioned series of diagonal truss links in combination with a cast-iron
+compression chord, which Bollman called the "stretcher." The spacing
+between the chord and the junction of each pair of links was maintained
+by a vertical post or strut, also cast.
+
+[Illustration: Figure 15.--NORTH STREET (now Guilford Avenue) bridge,
+Baltimore. In this transitional composite structure cast iron was used
+only in the relatively short sections of the upper chord. For the long
+unsupported compression members of the web system, standard wrought-iron
+angles and channels were built up into a large section. The decorative
+cast-iron end posts were non-structural. (Photo in the L. N. Edwards
+Collection, Museum of History and Technology.)]
+
+Much of the appeal of this design lay unquestionably in the sense of
+security derived from the fact that each of the systems acted
+independently to carry its load to the abutments. The lower chords,
+actually nonfunctional in the primary structure, were included merely to
+preserve the proper longitudinal spacing between the lower ends of the
+struts. A certain lack of rigidity was inherent in the system due to
+that very discontinuity which characterized its action; however, this
+was compensated for by a pair of light diagonal stay rods crossing each
+panel. These rods served the additional function of distributing
+concentrated loads to adjacent struts much in the manner of the bridging
+between floor joists in a building.
+
+In the Winchester span the floor system was of timber for reasons of
+economy. This was a very minor weakness inasmuch as any stick could be
+quickly replaced, and without disturbing the function of the structure.
+Bollman received a patent for his truss in January 1852, and in the same
+year published a booklet describing his system in general and the
+Harpers Ferry span in particular. Here, he first calls it a "suspension
+and trussed bridge," which is indeed an accurate designation for a
+system which is not strictly a truss because it has no active lower
+chord. (The analogy to a suspension bridge is quite clear, each pair of
+primary rods being comparable to a suspension cable.) Thereafter,
+Bollman's invention was generally termed a suspension truss.
+
+
+INFLUENCE OF THE TRUSS
+
+Bollman's 1852 publication was widely disseminated here and abroad and
+studied with respectful interest by the engineering profession. Its
+drawings of the structure were copied in a number of leading technical
+journals in England and Germany. Although there is no record that the
+type was ever reproduced in Europe, there can be little doubt that this
+successful structural use of iron by the most eminent railroad in the
+United States and its endorsement by an engineer of Latrobe's status
+gave great impetus to the general adoption of the material. This
+influence was certainly equal to that of Stephenson's tubular iron
+bridge of 1850 over the Menai Strait, or Roebling's iron-wire suspension
+bridge of 1855 over Niagara gorge. The Bollman design had perhaps even
+greater influence, as the B. & O. immediately launched the system with
+great energy and in great numbers to replace its timber spans; on the
+other hand, Roebling's structure was never duplicated in railroad
+service, and Stephenson's only once.
+
+[Illustration: Figure 16.--_Left:_ CONJECTURAL SECTION of Bollman's
+segmental wrought-iron column, about 1860, and section of the standard
+Phoenix column; _right:_ Phoenix column as used in truss-bridge
+compression members.]
+
+
+EVALUATION OF THE TRUSS
+
+By the late 1850's iron was well established as a bridge material
+throughout the world. Once the previous fears of iron had been stilled
+and the attention of engineers was directed to the interpretation of
+existing and new spanning methods into metal, the Bollman truss began to
+suffer somewhat from the comparison. Although its components were simple
+to fabricate and its analysis and design were straightforward, it was
+less economical of material than the more conventional panel trusses
+such as the Pratt and Whipple types. Additionally, there was the
+requisite amount of secondary metal in lower chords and braces necessary
+for stability and rigidity.
+
+A factor difficult to assess is Bollman's handling of his patent, which
+was renewed in 1866. There is sufficient evidence to conclude that he
+considered the patent valuable because it was based upon a sound design.
+Therefore, he probably established a high license fee which, with the
+truss's other shortcomings, was sufficient to discourage its use by
+other railroads. As patron, the B. & O. had naturally had full rights to
+its use.
+
+An additional defect, acknowledged even by Bollman, arose because of the
+unequal length of the links in each group except the center one. This
+caused an unevenness in the thermal expansion and contraction of the
+framework, with the result that the bridges were difficult to keep in
+adjustment. This had the practical effect of virtually limiting the
+system to intermediate span lengths, up to about 150 feet. For longer
+spans the B. & O. employed the truss of another of Latrobe's assistants,
+German-born and technically trained Albert Fink.
+
+The Fink truss was evolved contemporaneously with Bollman's and was
+structurally quite similar, being a suspension truss with no lower
+chord. The principal difference was the symmetry of Fink's plan, which
+was achieved by carrying the individual panel loads from the panel
+points to increasingly longer panel units before having them appear at
+the end bearings. This eliminated the weakness of unequal strains. The
+design was basically a more rational one, and it came to be widely used
+in spans of up to 250 feet, generally as a deck-type truss (see fig.
+11).
+
+
+
+
+W. Bollman and Company
+
+
+Bollman resigned from the Baltimore and Ohio in 1858 to form, with John
+H. Tegmeyer and John Clark, two of his former B. & O. assistants, a
+bridge-building firm in Baltimore known as W. Bollman and Company. This
+was apparently the first organization in the United States to design,
+fabricate, and erect iron bridges and structures, pioneering in what 25
+years later had become an immense industry. The firm had its foundation
+at least as early as 1855 when advertisements to supply designs and
+estimates for Bollman bridges appeared over Tegmeyer's name in several
+railroad journals (see fig. 12).
+
+Bollman's separation from the B. & O. was not a complete one. The
+railroad continued its program of replacing timber bridges with Bollman
+trusses, and contracted with W. Bollman and Company for design and a
+certain amount of fabrication. There is some likelihood that eventually
+fabrication was entirely discontinued at Mount Clair, and all parts
+subsequently purchased from Bollman.
+
+The firm prospered, erecting a number of major railroad bridges in
+Mexico, Cuba, and Chile. Operations ceased from 1861 to 1863 because of
+difficult wartime conditions in the border city of Baltimore. Following
+this, Bollman reentered business as sole proprietor of the Patapsco
+Bridge and Iron Works.
+
+[Illustration: QUINCY BAY BRIDGE
+
+Figure 17.--CHICAGO, BURLINGTON AND QUINCY RAILROAD BRIDGE over Quincy
+Bay (branch of the Mississippi River) at Quincy, Illinois. The pivot
+draw-span was formed of two Bollman deck trusses supported at their
+outer ends by hog chains. The bridge was built in 1867-1868 by the
+Detroit Bridge and Iron Co., Bollman licensee. (Clarke, _Account of the
+Iron Railway Bridge ... at Quincy, Illinois_.)]
+
+The most noteworthy of Bollman's works in this period was a series of
+spans at Harpers Ferry. The B. & O.'s timber bridge had been destroyed
+by Confederate forces in June 1861, and the crossing was thereafter made
+upon temporary trestlework. This was a constant source of trouble, with
+continuing interruptions of the connection from high water, washouts,
+and military actions. The annoyance and expense of this became so great
+that the company decided to risk an iron bridge at the crossing. In July
+and August 1862, two sections of Bollman truss, spans no. 4 and no. 5
+were completed. As this occurred during the time when W. Bollman and
+Company was inoperative, the work was produced at Mount Clair to
+Bollman's design and, undoubtedly, erected under his supervision. Five
+weeks later, on September 24, these and Bollman's famous Winchester span
+of 1851 were blown up by the Confederates, and the line's business was
+again placed at the mercy of trestling.
+
+The spirit of the B. & O. administration indeed seems to have been
+unshakable when, in the face of such heartbreaking setbacks, it
+determined to again bridge the river with iron, even at the height of
+the hostilities. In November, span no. 5 was erected, and by April 1863
+nos. 3, 4, and 6 also. These were the four straight spans in midriver
+between the "wide" (or "branch," or "wye") span and the span on the
+Maryland shore over the Chesapeake and Ohio Canal (see fig. 13).
+Although the wood floor system of these spans was burned for strategic
+reasons by U.S. troops later in 1863, they survived the war.
+
+In 1868 the remaining trestlework was replaced with Bollman trusses.
+This magnificent structure served the railroad until 1894 when the
+right-of-way was realigned at Harpers Ferry. However, the half used by
+the common road remained in use until carried away by the disastrous
+flood in 1936. The piers may still be seen.
+
+During the prewar years, Bollman evolved a structural development of
+most profound importance, which is usually associated with the Phoenix
+Iron Works and its founder, Samuel J. Reeves. In the erection of a high
+trestlework viaduct for the Havana Railroad, Bollman apparently became
+concerned with the tensile weakness of cast iron when applied in long,
+unsupported columns. Although a column is normally subjected to
+compressive stresses, when the slenderness ratio--that is, the length
+divided by the radius of gyration of the cross section--becomes great, a
+secondary bending stress may be produced. If this stress becomes great
+enough, the value of the tensile stress in one side of the column may
+actually exceed the principal compressive stress, and a net effect of
+tension result.
+
+[Illustration: Figure 18.--OHIO RIVER CROSSING of the Baltimore and Ohio
+at Benwood, West Virginia, completed in 1870. Bollman deck trusses were
+used in the approaches on both sides. (Photo 693, Baltimore and Ohio
+Collection, Museum of History and Technology.)]
+
+[Illustration: Figure 19.--PATAPSCO RIVER crossing of the Baltimore and
+Ohio between Thistle and Ilchester, Maryland. (Photo 695, Baltimore and
+Ohio Collection, Museum of History and Technology.)]
+
+As already mentioned, the few available rolled-iron shapes were of
+relatively small area and quite unsuitable for use as columns unless
+combined and built up in complex fabrications. The normal practice at
+the time was to use cast compression members in iron bridges and
+structures, with their sectional area so proportioned to the length that
+a state of tension could not exist. In the case of long members, this
+naturally meant that an excessive amount of material was used.
+
+[Illustration: Figure 20.--TWO VIEWS OF BOLLMAN-BUILT "water-pipe truss"
+that carries Lombard Street over Jones Falls in Baltimore. Built in
+1877.]
+
+Bollman was conscious of the problem from his experience with the
+stretchers and struts of his truss, and he must have been aware of the
+great advantage which would be obtained by a practical method of forming
+such members in wrought iron, the tensile resistance of which is
+equivalent to the compressive. He eventually developed the forerunner of
+what came to be known as the Phoenix form by having special segmental
+wrought-iron shapes rolled by Morris, Tasker and Company of
+Philadelphia, these shapes being combined into a circular section with
+outstanding flanges for riveting together. The circular section is
+theoretically the most efficient to bear compressive loading. A column
+of any required diameter could be produced by simply increasing the
+number of segments, the individual size of which never exceeded
+contemporary rolling mill capacity (see fig. 16).
+
+The design exhibits the inspired combination of functional perfection
+and simplicity that seems to characterize most great inventions.
+
+[Illustration: Figure 21.--THE HARPERS FERRY BRIDGE toward the end of
+its career, carrying a common road over the Potomac. The westernmost
+line of trussing and span no. 1 had been removed long before. View
+through the Winchester span looking toward Maryland in 1933. (_Photo
+courtesy of Harpers Ferry National Historical Park._)]
+
+It may have been because he had no facilities for rolling that Bollman
+communicated his idea to Reeves, although this seems illogical. At any
+rate, Reeves and his associates patented the system extensively, and the
+Phoenix column was eventually employed to the virtual exclusion of
+cast-iron and other types of wrought-iron columns. By the end of the
+19th century it began to pass from use, as mills became capable of
+producing larger sections with properties relatively favorable to column
+use and more adaptable to connection with other members.
+
+
+
+
+Final Use of the Bollman Truss
+
+
+The Bollman truss found occasional use elsewhere than on the B. & O.
+lines, but generally only when erected on contract by Patapsco Bridge
+and Iron Works. However, the fact that Bollman could profitably erect
+this bridge in the severely competitive 1870's indicates that the harsh
+criticism of the system by authorities of such stature as Whipple was
+not necessarily justified. Bollman's advertisements, in fact, refer to
+the favorable recommendations of other such renowned engineers as
+Herman Haupt and M. C. Meigs.
+
+[Illustration: Figure 22.--BOLLMAN DECK TRUSSES in the North River
+Bridge built in 1873 at Mount Crawford, Virginia, on the Valley Railroad
+of Virginia (B. & O.). Each end span is 98 ft. 6 in.; the river span is
+148 ft. 9 in. (Photo 756, Baltimore and Ohio Collection, Museum of
+History and Technology.)]
+
+An interesting application of the system was in a drawbridge, formed of
+two Bollman deck spans, over an arm of the Mississippi at Quincy,
+Illinois (see fig. 17). The first iron bridge in Mexico was erected by
+Bollman over the Medellín River about 1864. Another work of this period,
+which attracted considerable attention, was a pair of bridges that
+Bollman erected over North Carolina's Cape Fear River in 1867-1868.
+These bridges were notable for their foundation on cast-iron cylinders,
+sunk pneumatically. This was one of the first instances of the use of
+the process in America, and the depth of 80 feet below the water surface
+reached by one cylinder was considered remarkable for years afterward.
+
+In the last active decade or so of his career, Bollman produced hundreds
+of minor bridges and other structures. In 1873 he supplied the castings
+for the splendid iron dome of Baltimore's City Hall and erected the
+ingenious water-main truss which carries Lombard Street over Jones Falls
+in that city. In this structure the top and bottom chords of the central
+line of trussing are cast-iron water mains, bifurcated at the abutments,
+and joined by cast- and wrought-iron web members (see fig. 20).
+
+In the mid 1870's Bollman saw his truss pass into obsolescence. This was
+due primarily to the generally increasing distrust of cast iron for
+major structural members due to its brittleness, but advances in
+structural theory, availability of a greater variety of rolled
+structural shapes, and the increasing loading patterns of the period all
+contributed.
+
+[Illustration: Figure 23.--THE ONLY SURVIVING BOLLMAN TRUSS BRIDGE, at
+Savage, Maryland. The bridge was built elsewhere in 1852 and was moved
+to this now-abandoned Baltimore and Ohio industrial siding in about
+1888.]
+
+Although no Bollman trusses were built by Bollman or the B. & O. after
+1875, those in use were only removed as required by heavier motive
+power. The Harpers Ferry span, as noted, remained in full main-line
+service until 1894. Bollman trusses on feeder lines were continued in
+use until much later; a number of them on the Valley Railroad of
+Virginia (see fig. 22) were not removed until 1923. However, only on the
+most isolated spurs was the Bollman truss permitted to reach really ripe
+age. The sole known remaining example (fig. 23) stands on such a
+branch--ironically, at Savage, over the Little Patuxent, the site of the
+first Bollman span. This is not the 1850 bridge, but one built in 1852
+and moved to the present site 30 years later. The fate of the first span
+is not known.
+
+[Illustration: Figure 24.--HOT-WATER AND CHOCOLATE PITCHERS of the
+10-piece, silver tea service presented to Bollman by his fellow
+employees when he resigned from the Baltimore and Ohio in 1858. A
+railroad motif was used throughout, each piece being circled at top and
+bottom by a track, complete with rail of accurate section and ties.
+Spouts are in simulation of hexagonal sheet-iron chimneys, with seams
+riveted, and the handles are in the form of a surveyor's telescope. On
+the various pieces are engraved the designs of the more important B. &
+O. bridges. Throughout is a wonderful profusion of bits and objects of
+railroadiana in low relief, high relief, and fully modeled. In Board of
+Directors Room, Baltimore and Ohio Railroad Company, Baltimore, Md.
+(_Photo courtesy of Baltimore and Ohio Railroad._)]
+
+
+
+
+Known Bollman Works
+
+
+(All B. & O. works listed were designed by Bollman and built by the
+railroad, unless otherwise indicated.)
+
+ Dates of Location Type No. spans Remarks
+ service / length
+ of each
+
+ 1850-? Savage, Md., Little Bollman 1/76' First Bollman truss
+ Patuxent River through erected; granite towers;
+ truss cost, $23,825. B. & O. RR.
+
+ 1851-? Bladensburg, Md., Bollman 1/? Second Bollman truss
+ Anacostia River through erected; granite towers;
+ truss cost, $19,430. B. & O. RR.
+
+ 1851-1862 Harpers Ferry, Va., Bollman 1/124' Winchester span; first
+ Potomac River through major Bollman truss; three
+ truss lines of truss; granite
+ towers; blown up by
+ Confederate Army on
+ September 24, 1862.
+ B. & O. RR.
+
+ 1851-? Baltimore, Md., Trestle -- Wood trestle bents with
+ Carey Street wrought-iron diagonals.
+ First use of iron
+ structural members in
+ trestlework. Total length
+ 76 feet. B. & O. RR.
+
+ 1852- Savage, Md., Little Bollman 2/±80' Still standing. Moved to
+ Patuxent River through Savage in 1888; original
+ truss location unknown. This and
+ succeeding Bollman trusses
+ use iron towers. B. & O.
+ RR.
+
+ 1852 (or Marriottsville, Bollman 1/50' One of first Bollman
+ 1853)-? Md., Patapsco River truss trusses with iron towers.
+ B. & O. RR.
+
+ 1853-? Zanesville, Ohio, Bollman 4/124' Double track, Central Ohio
+ Muskingum River truss (or RR. Designed by Bollman;
+ 5/160') built by Douglas, Smith &
+ Co., Zanesville.
+
+ 1854- Elysville (now Bollman 3/97'9" Upper bridge, skew. Cost,
+ 1870(?) Daniels), Md., through $24,477.59. B. & O. RR.
+ Patapsco River truss
+
+ 1854-1862 Monocacy, Md., Bollman 3/119' Blown up September 8,
+ Monocacy River truss 1862; rebuilt in 1864.
+ Cost, $22,722.59.
+ B. & O. RR.
+
+ 1854-? Eastern Ohio Bollman 1/40' C. O. RR. Section 76
+ truss(?) adjacent to 300-ft.
+ tunnel.
+
+ 1855-? Bridgeville, Ohio, Bollman 1/71' C. O. RR.
+ Salt Creek deck truss
+
+ Pre-1855-? Buffalo, N.Y. -- -- Unidentified. Mentioned by
+ George Vose in Railroad
+ Advocate (June 9, 1855).
+
+ 1856-? Elysville, Md., Bollman 3/111' Lower Bridge. B. & O. RR.
+ about 1-1/4 miles through
+ east of 1854 truss
+ bridge, Patapsco
+ River
+
+ Pre-1856-? Marriottsville, Bollman 1/48'9" Referred to as "Tunnel
+ Md. truss(?) Bridge" in B. & O. RR.
+ annual report, 1856.
+
+ 1856-? Near Ijamsville, "Iron 3/23'9" Possibly trussed beams;
+ Md., Bush Creek girders" mentioned in B. & O. RR.
+ annual report, 1856.
+
+ 1856-? Near Ijamsville, "Iron 2/23'9" As above.
+ Md., Bush Creek girders"
+
+ 1856- North Branch, Md., Bollman 3/142' Partially destroyed in
+ c.1862 Potomac River deck truss Civil War. B. & O. RR.
+
+ 1860-1906 Chile, Angostura Bollman 4/115' Chilean Railways.
+ River truss(?) Designed and built by
+ Bollman. Replaced by
+ bridge built by French
+ firm of Schneider,
+ Cruesot & Co.
+
+ 1860-1910 Chile, Paine River Bollman 1/? As above.
+ truss(?)
+
+ Post- Ilchester, Md., Bollman 1/? B. & O. RR.
+ 1860-? Patapsco River through
+ truss
+
+ Pre-1861-? Cuba Bridges -- All bridges on Havana
+ and RR., including iron
+ station station house and bridge
+ house at Guines. Designed and
+ built by Bollman.
+
+ Pre-1861-? Cuba Bridges -- All bridges on Cienfuegos
+ RR., Cárdenas RR., and
+ Havana & Matanzas RR.
+ Designed and built by
+ Bollman.
+
+ Pre-1861-? Cuba Trestle -- Trestle with wrought-iron
+ columns (the first such
+ ever constructed). Havana
+ RR. Designed and built by
+ Bollman.
+
+ 1862-1862 Harpers Ferry, Va., Bollman 2/160' Span no. 3 (July 24) and
+ Potomac River through span no. 4 (August 21).
+ truss Blown up September 24,
+ 1862. B. & O. RR.
+
+ 1862-1936 Harpers Ferry, Va., Bollman 1/160' Span no. 5 (November).
+ Potomac River through B. & O. RR.
+ truss
+
+ 1863-1936 Harpers Ferry, Va., Bollman 3/160' Spans nos. 3, 4, and 5.
+ Potomac River through Constructed previous to
+ truss April 1863. B. & O. RR.
+
+ 1863-? Berwyn, Md., Paint Bollman ? Iron bridge mentioned in
+ Branch truss(?) B. & O. RR. annual report,
+ 1863.
+
+ 1863(4?)-? Clinton, Iowa, Pivot 1/360' Built by Detroit Bridge
+ Mississippi River draw & Iron Works. It was the
+ longest in the world at
+ time of completion.
+ Designed by Bollman.
+
+ 1864-? Laurel, Md., Bollman ? Replaced stone arch that
+ Patuxent River truss had been washed out. B. &
+ O. RR.
+
+ c. 1864-? Near Veracruz, Bollman 1/115' Veracruz & Jucaro RR.
+ Mexico, Medellín through First iron bridge in
+ River truss Mexico. Designed and
+ built by Bollman.
+
+ 1864-? Near Point of Bollman 1/80'(?) Iron bridge mentioned in
+ Rocks, Md., Back truss(?) B. & O. RR. annual
+ Creek report, 1864. The span
+ length given is that of
+ previous stone arch.
+
+ 1864-? Bladensburg, Md., Bollman 1/? Span for second track, to
+ Anacostia River truss match 1851 span. B. & O.
+ RR.
+
+ 1868-? Cape Fear, N.C., Bollman 2/146'6" Wilmington Railway Bridge
+ Northeast Branch, truss(?) 1/164' Co. This bridge was
+ Cape Fear River pivot connected to that over
+ draw/150' the Northwest Branch by
+ 2-1/2 miles of timber
+ trestling. Designed and
+ built by Bollman.
+
+ 1868-? Cape Fear, N.C., Bollman 1/217'(?) See above.
+ Northwest Branch, truss(?) pivot
+ Cape Fear River draw/150'
+
+ 1868-? Quincy, Ill., Bollman 4/85' Chicago, Burlington &
+ Quincy Bay (in deck pivot Quincy RR. The pivot draw
+ Mississippi River) truss draw/190' was formed of two 85-ft.
+ simple Bollman deck spans
+ whose outer ends hung from
+ hog chains. Designed by
+ Bollman; built by Detroit
+ Bridge & Iron Works.
+
+ 1869- Baltimore, Md., Warren 2/100' North Avenue Bridge.
+ c.1892 over Jones Falls, truss 2/55'6" Composite double
+ B. & O. RR., and intersection truss;
+ Northern Central timber top chord and
+ RR. posts, wrought-iron lower
+ chord and ties. In 55-ft.
+ spans, both chords
+ timber. Cost, $73,588.
+ Built by Bollman.
+
+ c.1869- Harpers Ferry, Va., Bollman 4/? Canal span (no. 8), Wide
+ 1936 Potomac River through span (no. 2), Winchester
+ truss span, and West End span.
+ Destroyed by flood in
+ 1936. B. & O. RR.
+
+ 1870- Baltimore, Md., Iron 1/108' Charles Street Bridge.
+ c.1895 Jones Falls "Isometrical Three lines of trussing.
+ truss" Cost, $20,297. Built by
+ (probably Bollman.
+ Pratt type)
+
+ 1870- Bellaire, Ohio- Bollman 9/107'- In approaches; 2 spans on
+ 1893 & Benwood W. Va., deck 125' Ohio side; 7 on West
+ 1900 Ohio River truss Virginia side. B. & O. RR.
+
+ 1870- Belpre, Ohio- Bollman 16/? In approaches; 7 spans on
+ c.1895 Parkersburg, W. deck Ohio side; 9 on West
+ Va., Ohio River truss Virginia side. B. & O. RR.
+
+ 1870-? Elysville, Md., Bollman 4/? Skew; replacement of
+ Patapsco River through Upper Bridge(?). B. & O.
+ truss RR.
+
+ 1871- Baltimore, Md., Timber ? Decker Street (now
+ c.1895 Jones Falls and iron Maryland Avenue) Bridge.
+ truss Cost, $24,975. Built by
+ Bollman.
+
+ 1871- Baltimore, Md., Warren 1/100' North Avenue Bridge.
+ c.1892 over Northern truss Composite double
+ Central RR. at intersection truss;
+ Jones Falls cast-iron top chord and
+ posts; wrought-iron
+ bottom chord and ties.
+ West span. Built by
+ Bollman.
+
+ 1873-1923 Cave Station, Va., Bollman 1/98'7" Valley Railroad of
+ Middle River deck 1/63'5" Virginia (B. & O.) Bridge
+ truss no. 120. The main span
+ was a Whipple deck truss.
+ Replaced with plate
+ girders. Designed by
+ Bollman.
+
+ 1873-1923 Mount Crawford, Bollman 2/98'6" Valley Railroad of
+ Va., North River deck 1/148'9" Virginia (B. & O.) Bridge
+ truss no. 117. Designed by
+ Bollman.
+
+ 1873-1923 Verona, Va., North Bollman 3/98'7" Valley Railroad of
+ River deck Virginia (B. & O.) Bridge
+ truss no. 129. The main span
+ was a 147-ft. Whipple
+ deck truss. Designed by
+ Bollman.
+
+ 1873-? Wadesville, Va., Bollman 1/147'8" Span length given is that
+ Opequon Creek through of previous wood span
+ truss that burned in 1862. B.
+ & O. RR.
+
+ c. 1873- Baltimore, Md. Iron roof ? First Presbyterian
+ trusses Church. Built by Bollman;
+ possibly designed by him.
+
+ 1873- Baltimore, Md. Cast-iron City Hall. Cost, $12,840.
+ stairs Designed by George A.
+ Frederick, architect;
+ built by Bollman.
+
+ 1873- Baltimore, Md. Cast-iron Dome of the City Hall.
+ framework Cost, $70,525. Designed
+ by George A. Frederick;
+ built by Bollman.
+
+ 1875- Baltimore, Md., Iron truss 1/? Fayette Street Bridge.
+ c.1913 Jones Falls Cost, $9,396. Built by
+ Bollman.
+
+ 1876- Baltimore, Md., "Single- 1/? Canton Avenue (now Fleet
+ c.1913 Jones Falls beam iron Street) Bridge. Cost,
+ bridge" $8,904. Built by Bollman.
+ (truss?)
+
+ 1876- Baltimore, Md., "Single- 1/? Eastern Avenue Bridge.
+ c.1913 Jones Falls beam iron Cost, $12,382. Built by
+ bridge" Bollman.
+ (truss?)
+
+ 1877- Baltimore, Md., Pratt and 1/88'6" Lombard Street Bridge.
+ Jones Falls bowstring Three lines of truss;
+ truss two outer trusses,
+ composite cast- and
+ wrought-iron polygonal
+ Pratt type; center
+ composite bowstring with
+ Pratt-system web. Both
+ chords are cast-iron
+ water mains, bifurcated
+ at the end bearings;
+ cast-iron posts and
+ wrought-iron ties. In
+ service. Cost, $7,632.
+ Designed by Jas. Curran,
+ Baltimore water
+ department; built by
+ Bollman.
+
+ 1877- Baltimore, Md., Iron truss 1/? Bath Street Bridge. Cost,
+ c.1913 Jones Falls $4,172. Built by Bollman.
+
+ 1879-? Baltimore, Md. Drawbridge 1/? Over entrance to City
+ Dock. Cost, $13,182.
+ Built by Bollman.
+
+ 1879- Baltimore, Md., Warren 2/173'9" North Street (now
+ c.1930 over Jones Falls truss Guilford Avenue) Bridge.
+ and railroad Composite trusses;
+ tracks cast-iron top chord and
+ end posts; wrought-iron
+ bottom chord and web
+ members. Cost, $38,772.45.
+ Built by Bollman;
+ designed by Latrobe.
+
+ 1881-1960 Baltimore, Md., Wrought- 1/? Union Avenue Bridge.
+ (Woodberry), iron Pratt Built by Bollman;
+ Jones Falls truss possibly designed by him.
+
+ ?-? Harpers Ferry, Va., Bollman 1/148' Arsenal Branch, B. & O.
+ Arsenal Canal through RR. Skew type. Span
+ truss length is that of
+ previous timber span.
+
+ ?-? Baltimore, Md., Bollman 2/? B. & O. RR.
+ Gwynns Falls through
+ truss
+
+
+
+
+BIBLIOGRAPHY
+
+
+_A history and description of the Baltimore and Ohio Railroad by a
+citizen of Baltimore._ Baltimore, 1853.
+
+Baltimore and Ohio Railroad Company. _A list of the officers and
+employees of the Baltimore and Ohio Railroad for November, 1857._
+Baltimore, 1857.
+
+----. _Third annual report of the president and directors to the
+stockholders of the Baltimore and Ohio Rail Road Company._ Baltimore:
+1829. (Also the fourth through 38th annual reports. Baltimore,
+1830-1864.)
+
+----. _Baltimore and Ohio exhibits at the Century of Progress._ Chicago,
+1934.
+
+_Biographical cyclopedia of representative men of Maryland and the
+District of Columbia._ Baltimore, 1879.
+
+BOLLMAN, WENDEL. _Iron suspension and trussed bridge as constructed for
+the Baltimore and Ohio Rail Road Co. at Harper's Ferry, and on the
+Washington branch of this road._ Baltimore, 1852.
+
+----. Letter to John W. Garrett dated June 17, 1862. In files of
+Division of Mechanical and Civil Engineering, United States National
+Museum, Washington, D.C.
+
+----. _Report of Mr. Bollman in relation to Central Ohio Rail Road._
+Baltimore, 1854.
+
+BRYANT, WILLIAM C. _Picturesque America._ New York, 1874.
+
+CLARKE, THOMAS CURTIS. _An account of the iron railway bridge across the
+Mississippi River at Quincy, Illinois._ New York, 1869.
+
+COLBURN, ZERAH. American iron bridges. _Minutes of the proceedings of
+the Institution of Mechanical Engineers_ (1863), vol. 22, pp. 540-573.
+
+CONDIT, CARL. _American building art:--The nineteenth century._ New
+York: Oxford Press, 1960.
+
+GRAY, GEORGE E. Notes on early practice in bridge building.
+_Transactions of the American Society of Civil Engineers_ (1897), vol.
+37, pp. 2-16.
+
+GREINER, JOHN E. The American railroad viaduct--Its origin and
+evolution. _Transactions of the American Society of Civil Engineers_
+(1891), vol. 25, pp. 349-372.
+
+LANG, PHILIP GEORGE. Bollman trusses on Valley of Virginia Branch will
+soon be memories. _Baltimore and Ohio Magazine_ (October 1923), pp.
+18-19.
+
+----. The old Baltimore and Ohio bridge crossing the Potomac River at
+Harpers Ferry, West [sic] Virginia. _Engineering News-Record_ (September
+17, 1931), p. 446.
+
+MALEZIEUX, EMILE. _Travaux publics des Etats-Unis d'Amerique en 1870._
+Paris, 1873.
+
+MCDOWELL, W. H. Unpublished engineer's report to the president and
+directors of Wilmington Railway Bridge Company, Wilmington, North
+Carolina, dated March 12, 1868. Typewritten copy in files of Division of
+Mechanical and Civil Engineering, U.S. National Museum, Washington, D.C.
+
+SMITH, CHARLES SHALER. _Comparative analysis of the Fink, Murphy,
+Bollman and triangular trusses._ Baltimore, 1865.
+
+SMITH, WILLIAM P. _The book of the great railway celebrations of 1857._
+Baltimore, 1858.
+
+TYRRELL, HENRY G. _History of bridge engineering._ Chicago, 1911.
+
+WHIPPLE, SQUIRE. _Bridge building._ Albany, New York, 1869.
+
+
+U.S. GOVERNMENT PRINTING OFFICE: 1964
+
+For sale by the Superintendent of Documents, U.S. Government Printing
+Office Washington D.C. 20402 - Price 70 cents
+
+
+
+
+INDEX
+
+
+Bollman, W., and Company, 91, 92
+
+Bollman, Wendel, 79, 80, 85, 88, 94
+
+
+Clark, John, 91
+
+
+Fink, Albert, 79, 91
+
+
+Grubenmann, Hans, 85
+
+Grubenmann, Johann Ulrich, 85
+
+
+Haupt, Herman, 96
+
+
+Knight, ----, 83
+
+
+Latrobe, Benjamin H., 82, 83, 85, 87
+
+Long, Stephen H., 85
+
+
+Meigs, M. C., 96
+
+Morris, Tasker and Company, 94
+
+Mount Clair shops, 83, 89, 92
+
+
+Patapsco Bridge and Iron Works, 92, 95
+
+Phoenix Iron Works, 92
+
+Pratt, Thomas W., 91
+
+
+Reeves, Samuel J., 92, 95
+
+Roebling, John A., 83, 90
+
+
+Savage Factory, 88
+
+Stephenson, Robert, 90
+
+
+Tegmeyer, John H., 91
+
+Town, Ithiel, 85
+
+
+Wernwag, Lewis, 89
+
+Whipple, Squire, 79, 83, 87, 91, 95
+
+Whistler, George W., 83
+
+Winans, Ross, 83
+
+Wright, Benjamin, 83
+
+
+
+
+
+End of the Project Gutenberg EBook of The Engineering Contributions of
+Wendel Bollman, by Robert M. Vogel
+
+*** END OF THIS PROJECT GUTENBERG EBOOK THE ENGINEERING ***
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+<pre>
+
+The Project Gutenberg EBook of The Engineering Contributions of Wendel
+Bollman, by Robert M. Vogel
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: The Engineering Contributions of Wendel Bollman
+
+Author: Robert M. Vogel
+
+Release Date: October 20, 2010 [EBook #33912]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THE ENGINEERING ***
+
+
+
+
+Produced by Colin Bell, Joseph Cooper, Louise Pattison and
+the Online Distributed Proofreading Team at
+http://www.pgdp.net
+
+
+
+
+
+
+</pre>
+
+
+<div class="tnote">
+<h3>Transcriber&rsquo;s Notes:</h3>
+
+<p>This is Paper 36 from the Smithsonian Institution United States
+National Museum Bulletin 240, comprising Papers 34-44, which will
+also be available as a complete e-book.</p>
+
+<p>The front material, introduction and relevant index entries from
+the Bulletin are included in each single-paper e-book.</p>
+
+<p>Inconsistencies in punctuation have been corrected without note. Inconsistent hyphenation is as per the original.</p>
+
+</div>
+
+
+<hr style="width: 65%;" />
+
+<h1>SMITHSONIAN INSTITUTION<br />
+UNITED STATES NATIONAL MUSEUM<br />
+BULLETIN 240</h1>
+
+<div class="figright">
+ <img src="images/cover.png" alt="Smithsonian Press Logo" title="" />
+</div>
+
+<p class="right" style="clear:both;">SMITHSONIAN PRESS<br /></p>
+
+<p>MUSEUM OF HISTORY AND TECHNOLOGY</p>
+
+<p style="font-size: 2em; font-weight: bold;" class="smcap">Contributions<br />
+From the<br />
+Museum<br />
+of History and<br />
+Technology</p>
+
+<p style="font-size: 1.25em;"><em>Papers 34-44<br />
+On Science and Technology</em></p>
+
+<p>SMITHSONIAN INSTITUTION &middot; WASHINGTON, D.C. 1966</p>
+
+<hr style="width: 65%;" />
+
+<p class="center" style="font-size: 1.25em;"><em>Publications of the United States National Museum</em></p>
+
+<p>The scholarly and scientific publications of the United States National Museum
+include two series, <cite>Proceedings of the United States National Museum</cite> and <cite>United States
+National Museum Bulletin</cite>.</p>
+
+<p>In these series, the Museum publishes original articles and monographs dealing
+with the collections and work of its constituent museums&mdash;The Museum of Natural
+History and the Museum of History and Technology&mdash;setting forth newly acquired
+facts in the fields of anthropology, biology, history, geology, and technology. Copies
+of each publication are distributed to libraries, to cultural and scientific organizations,
+and to specialists and others interested in the different subjects.</p>
+
+<p>The <cite>Proceedings</cite>, begun in 1878, are intended for the publication, in separate
+form, of shorter papers from the Museum of Natural History. These are gathered
+in volumes, octavo in size, with the publication date of each paper recorded in the
+table of contents of the volume.</p>
+
+<p>In the <cite>Bulletin</cite> series, the first of which was issued in 1875, appear longer, separate
+publications consisting of monographs (occasionally in several parts) and volumes
+in which are collected works on related subjects. <cite>Bulletins</cite> are either octavo or
+quarto in size, depending on the needs of the presentation. Since 1902 papers relating
+to the botanical collections of the Museum of Natural History have been
+published in the <cite>Bulletin</cite> series under the heading <cite>Contributions from the United States
+National Herbarium</cite>, and since 1959, in <cite>Bulletins</cite> titled &ldquo;Contributions from the Museum
+of History and Technology,&rdquo; have been gathered shorter papers relating to the collections
+and research of that Museum.</p>
+
+<p>The present collection of Contributions, Papers 34-44, comprises Bulletin 240.
+Each of these papers has been previously published in separate form. The year of
+publication is shown on the last page of each paper.</p>
+
+<p class="right"><span class="smcap">Frank A. Taylor</span><br />
+<em>Director, United States National Museum</em></p>
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_77" id="Page_77">[Pg 77]</a></span></p>
+
+<h1><a name="Paper_36" id="Paper_36"></a><span class="smcap">Contributions from<br />
+The Museum of History and Technology</span>:<br />
+<span class="smcap">Paper</span> 36<br />
+<br /><br />
+<span class="smcap">The Engineering Contributions<br />
+of Wendel Bollman<br /></span>
+</h1>
+<p><span class="rnum" style="font-size: larger;"><em>Robert M. Vogel</em></span><br /><br/>
+</p>
+<p><span class="rnum">EARLY CAREER&nbsp; &nbsp;<a href="#Page_80">80</a></span><br /></p>
+<p><span class="rnum">THE BOLLMAN TRUSS&nbsp; &nbsp;<a href="#Page_85">85</a></span><br /></p>
+<p><span class="rnum">W. BOLLMAN AND COMPANY&nbsp; &nbsp;<a href="#Page_91">91</a></span><br /></p>
+<p><span class="rnum">FINAL USE OF THE BOLLMAN TRUSS&nbsp; &nbsp;<a href="#Page_95">95</a></span><br /></p>
+<p><span class="rnum">KNOWN BOLLMAN WORKS&nbsp; &nbsp;<a href="#Page_99">99</a></span><br /></p>
+<p><span class="rnum">BIBLIOGRAPHY&nbsp; <a href="#Page_104">104</a></span><br /></p>
+
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_78" id="Page_78">[Pg 78]</a></span></p>
+
+<div class="figcenter" style="width: 400px;">
+<img src="images/i_078.png" width="400" height="607" alt="Figure 1.&mdash;Wendel Bollman, C.E. (1814-1884). (Photo
+courtesy of Dr. Stuart Christhilf.)" title="Figure 1." />
+<p class="caption">Figure 1.&mdash;<span class="smcap">Wendel Bollman, C.E.</span> (1814-1884). (<i>Photo
+courtesy of Dr. Stuart Christhilf.</i>)</p>
+</div>
+
+<hr style="width: 65%;" />
+
+<p><span class="pagenum"><a name="Page_79" id="Page_79">[Pg 79]</a></span></p>
+
+<p>&nbsp;<span class="rnum"><em><big>Robert M. Vogel</big></em></span><br /></p>
+
+
+<h2>THE ENGINEERING CONTRIBUTIONS OF WENDEL BOLLMAN</h2>
+
+
+<div class="blockquotn"><p><i>The development of structural engineering has always been as
+dependent upon the availability of materials as upon the
+expansion of theoretical concepts. Perhaps the greatest single
+step in the history of civil engineering was the introduction
+of iron as a primary structural material in the 19th century;
+it quickly released the bridge and the building from the
+confines of a technology based upon the limited strength of
+masonry and wood.</i></p>
+
+<p><i>Wendel Bollman, self-taught Baltimore civil engineer, was the
+first to evolve a system of bridging in iron to be consistently
+used on an American railroad, becoming one of the pioneers who
+ushered in the modern period of structural engineering.</i></p>
+
+<p><span class="smcap">The Author:</span> <i>Robert M. Vogel is curator of civil engineering in
+the Smithsonian Institution&rsquo;s Museum of History and
+Technology.</i></p></div>
+
+
+<p>Wendel Bollman&rsquo;s name survives today solely in association with the
+Bollman truss, and even in this respect is known only to a few older
+civil and railroad engineers. The Bollman system of trussing, along with
+those of Whipple and Fink, may be said to have introduced the great age
+of the metal bridge, and thus, directly, the modern period of civil
+engineering.</p>
+
+<p>Bollman&rsquo;s bridge truss, of which the first example was built in 1850,
+has the very significant distinction of being the first bridging system
+in the world employing iron in all of its principal structural members
+that was used consistently on a railroad.</p>
+
+<p>The importance of the transition from wood to iron as a structural and
+bridge building material is generally recognized, but it may be well to
+mention certain aspects of this change.</p>
+
+<p>The tradition of masonry bridge construction never attained the great
+strength in this country which it held in Europe, despite a number of
+notable exceptions. There were several reasons for this. From the very
+beginning of colonization, capital was scarce, a condition that
+prevailed until well into the 19th century and which prohibited the use
+of masonry because of the extremely high costs of labor and transport.
+An even more important economic consideration was the rapidity with
+which it was necessary to extend the construction of railways during
+their pioneer years. Unlike the early English and European railways,
+which invariably traversed areas of dense population and industrial
+activity, and were thus assured of a significant financial return almost
+from the moment that the first rail was down, the<span class="pagenum"><a name="Page_80" id="Page_80">[Pg 80]</a></span> Baltimore and Ohio
+and its contemporaries were launched upon an entirely different
+commercial prospect. Their principal business consisted not so much in
+along-the-line transactions as in haulage between principal terminals
+separated by great and largely desolate expanses. This meant that income
+was severely limited until the line was virtually complete from end to
+end, and it meant that commencement of return upon the initial
+investment was entirely dependent upon the speed of survey, graduation,
+tunneling, and bridging.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_080.png" width="600" height="152" alt="Figure 2.&mdash;Model of B. H. Latrobe&rsquo;s truss, built in 1838,
+over the Patapsco River at Elysville (now Daniels), Maryland. (Photo
+courtesy of Baltimore and Ohio Railroad.)" title="Figure 2." />
+<p class="caption2">Figure 2.&mdash;<span class="smcap">Model of B. H. Latrobe&rsquo;s truss</span>, built in 1838,
+over the Patapsco River at Elysville (now Daniels), Maryland. (<i>Photo
+courtesy of Baltimore and Ohio Railroad.</i>)</p>
+</div>
+
+<p>The need for speed, the general attenuation of capital, and the simple
+fact that all the early railroads traversed thickly forested areas
+rendered wood the most logical material for bridge and other
+construction, both temporary and permanent.</p>
+
+<p>The use of wood as a bridge material did not, of course, originate with
+the railroads, or, for that matter, in this country. The heavily wooded
+European countries&mdash;Switzerland in particular&mdash;had a strong tradition of
+bridge construction in timber from the Renaissance on, and naturally a
+certain amount of this technique found its way to the New World with the
+colonials and immigrants.</p>
+
+<p>America&rsquo;s highway system was meager until about the time the railroad
+age itself was beginning. However, by 1812 there were, along the eastern
+seaboard, a number of fine timber bridges of truly remarkable structural
+sophistication and workmanship.</p>
+
+<p>It was just previous to the advent of the railroads that the erection of
+highway bridges in this country began to pass from an art to a science.
+And an art it had been in the hands of the group of skilled but
+unschooled master carpenters and masons who built largely from an
+intuitive sense of proportion, stress, and the general &ldquo;fitness of
+things.&rdquo; It passed into an exact science under the guidance of a small
+number of men trained at first in the scientific and technical schools
+of Europe, and, after about 1820, in the few institutions then
+established in America that offered technical instruction.</p>
+
+<p>The increasing number of trained engineers at first affected highway
+bridge construction not so much in the materials used but in the way
+they were assembled. In a bridge designed by a self-taught constructor,
+the cheapness of wood made it entirely feasible to proportion the
+members by enlarging them to the point where there could be no question
+as to their structural adequacy. The trained engineer, on the other
+hand, could design from the standpoint of determining the entire load
+and then proportioning each element according to the increment of stress
+upon it and to the unit capacity of the material.</p>
+
+<p>By the time railroads had started expanding to the West there had been
+sufficient experience with the half dozen practical timber truss systems
+by then evolved, that there was little difficulty in translating them
+into bridges capable of supporting the initial light rail traffic.</p>
+
+<p>In spite of its inherent shortcomings, wood was so adaptable that it met
+almost perfectly the needs of the railroads during the early decades of
+their intense expansion, and, in fact, still finds limited use in the
+Northwest.</p>
+
+
+<h3>Early Career</h3>
+
+<p>Wendel Bollman was born in Baltimore of German parents in 1814. His
+father was a baker, who in the same year had aided in the city&rsquo;s defense
+against the<span class="pagenum"><a name="Page_81" id="Page_81">[Pg 81]</a></span> British. Wendel&rsquo;s education, until about the age of 11, was
+more or less conventionally gained in public and private schools in
+Baltimore. He then entered into informal apprenticeship, first to an
+apothecary in Sheperdstown, Virginia (now West Virginia), and then to
+one in Harpers Ferry. In 1826 or 1827 he became ill and returned to
+Baltimore for cure. From that time on his education was entirely
+self-acquired.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_081a.png" width="600" height="95" alt="Figure 3.&mdash;Trussed beam." title="Figure 3." />
+<p class="caption">Figure 3.&mdash;<span class="smcap">Trussed beam.</span></p>
+</div>
+
+<p>It is of interest, in light of his later career, to note that on the
+Fourth of July 1828, he marched with other boys in a procession that was
+part of the Baltimore and Ohio Railroad&rsquo;s cornerstone-laying ceremony.
+Shortly afterward, he apprenticed himself to a carpenter for a brief
+time, but when the work slacked off he obtained work with the B. &amp; O.
+The right-of-way had been graded for about five miles by that time, but
+no rail was down. The boy was at first given manual work, but soon
+advanced to rodman and rapidly rose as he gained facility with the
+surveying apparatus. In the fall of 1829 he participated in laying the
+first track. As his mother was anxious that he continue his education in
+carpentry, he left the railroad in the spring of 1830 to again enter
+apprenticeship. He finished, became a journeyman, helped build a
+planter&rsquo;s mansion in Natchez, and returned to Baltimore in 1837 to
+commence his own carpentry business. The next year, while building a
+house in Harpers Ferry, he was asked to rejoin the B. &amp; O. to rebuild
+parts of its large timber bridge over the Potomac there, which had
+fallen victim to various defects after about a year&rsquo;s use.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_081.png" width="600" height="243" alt="Figure 4.&mdash;Simple beam of 50-foot span with three
+independent trussing systems. Bollman&rsquo;s use of this method of support
+led to the development of his bridge truss. This drawing is of a
+temporary span used after the timber bridge at Harpers Ferry was
+destroyed during the Civil War. (In Baltimore and Ohio Collection,
+ Museum of History and Technology.)" title="Figure 4." />
+
+<p class="caption2">Figure 4.&mdash;<span class="smcap">Simple beam</span> of 50-foot span with three
+independent trussing systems. Bollman&rsquo;s use of this method of support
+led to the development of his bridge truss. This drawing is of a
+temporary span used after the timber bridge at Harpers Ferry was
+destroyed during the Civil War. (In Baltimore and Ohio Collection,
+Museum of History and Technology.)</p>
+</div>
+
+<p>Shortly after the Harpers Ferry bridge reconstruction, Bollman was made
+foreman of bridges. It is apparent that, on the basis of his practical
+ability,<span class="pagenum"><a name="Page_82" id="Page_82">[Pg 82]</a></span> enhanced by the theoretical knowledge gained by intense
+self-study, he eventually came to assist Chief Engineer Benjamin H.
+Latrobe in bridge design. He later took this work over entirely as
+Latrobe&rsquo;s attentions and talents were demanded in the location and
+extension of the line between Cumberland and Wheeling.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_082.png" width="600" height="523" alt="Figure 5.&mdash;Bollman&rsquo;s original patent drawing, 1851. (In
+National Archives, Washington, D.C.)" title="Figure 5." />
+<p class="caption">Figure 5.&mdash;<span class="smcap">Bollman&rsquo;s original patent drawing, 1851.</span> (In
+National Archives, Washington, D.C.)</p>
+</div>
+
+<p>The B. &amp; O. did not reach its logical destination, Ohio (actually
+Wheeling, West Virginia, on the east bank of the Ohio River) until 1853.
+In the years following Bollman&rsquo;s return to the railroad, the design of
+bridges was an occupation of the engineering staff second in importance
+only to the location of the line itself. During this time Bollman
+continued to rise and assume greater responsibilities, being appointed
+master of road by Latrobe in 1848. In this position he was responsible
+for all railroad property that did not move, principally the
+right-of-way and its structures, including, of course, bridges.</p>
+
+<p>The recognition of Bollman&rsquo;s abilities was in the well-established
+tradition of the B. &amp; O., long known as America&rsquo;s first &ldquo;school of
+engineering,&rdquo; having sponsored many early experiments in motive power,
+trackwork, and other fundamental elements of railroad<span class="pagenum"><a name="Page_83" id="Page_83">[Pg 83]</a></span> engineering. It
+furnished the means of expression for such men as Knight, Wright,
+Whistler, Latrobe, and Winans.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/fig_6_600.png" width="600" height="235" alt="Figure 6.&mdash;Plan of Harpers Ferry bridge as built by
+Latrobe. The second Winchester track was later removed." title="Figure 6." />
+<p class="caption"><a href="images/fig_6_1500.png" title="Click to view larger image">
+Figure 6.</a>&mdash;<span class="smcap">Plan of Harpers Ferry bridge</span> as built by
+Latrobe. The second Winchester track was later removed.</p>
+</div>
+
+<p>Of these pioneer civil and mechanical engineers, some were formally
+trained but most were self-taught. Bollman&rsquo;s career on the B. &amp; O. is of
+particular interest not only because he was perhaps the most successful
+of the latter class but because he was probably also the last. He may be
+said to be a true representative of the transitional period between
+intuitive and exact engineering. Actually, his designing was a composite
+of the two methods. While making consistent use of mathematical
+analysis, he was at the same time more or less dependent upon empirical
+methods. For years, B. &amp; O. employees told stories of his sessions in
+the tin shop of the railroad&rsquo;s main repair facility at Mount Clair in
+Baltimore, where he built models of bridges from scraps of metal and
+then tested them to destruction to locate weaknesses. It seems most
+likely, however, that the empirical studies were used solely as checks
+against the mathematical.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_083.png" width="600" height="167" alt="Figure 7.&mdash;Recent model of Bollman&rsquo;s Winchester span.
+Only two of the three lines of trussing are shown. The model is based on
+Bollman&rsquo;s published description and drawings of the structure. (USNM
+318171; Smithsonian photo 46941.)" title="Figure 7." />
+<p class="caption2">Figure 7.&mdash;<span class="smcap">Recent model</span> of Bollman&rsquo;s Winchester span.
+Only two of the three lines of trussing are shown. The model is based on
+Bollman&rsquo;s published description and drawings of the structure. (USNM
+318171; Smithsonian photo 46941.)</p>
+</div>
+
+<p>In the period when Bollman began designing&mdash;about 1840&mdash;there were fewer
+than ten men in the country designing bridges by scientifically correct
+analytical methods, Whipple and Roebling the most notable of this group.
+By 1884, the year of Bollman&rsquo;s death,<span class="pagenum"><a name="Page_84" id="Page_84">[Pg 84]</a></span> the age of intuitive design had
+been dead for a decade or longer.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_084.png" width="600" height="452" alt="Figure 8.&mdash;The Baltimore and Ohio Railroad&rsquo;s Potomac
+River crossing at Harpers Ferry, about 1860. Bollman&rsquo;s iron &ldquo;Winchester
+span&rdquo; of 1851 is seen at the right end of Latrobe&rsquo;s timber structure of
+1836, which forms the body of the bridge. (Photo courtesy of Harpers
+Ferry National Historical Park.)" title="Figure 8." />
+<p class="caption2">Figure 8.&mdash;<span class="smcap">The Baltimore and Ohio Railroad&rsquo;s</span> Potomac
+River crossing at Harpers Ferry, about 1860. Bollman&rsquo;s iron &ldquo;Winchester
+span&rdquo; of 1851 is seen at the right end of Latrobe&rsquo;s timber structure of
+1836, which forms the body of the bridge. (<i>Photo courtesy of Harpers
+Ferry National Historical Park.</i>)</p>
+</div>
+
+<p>The B. &amp; O. was in every way a truly pioneer enterprise. It was the
+first practical railroad in America; the first to use an American
+locomotive; the first to cross the Alleghenies. The spirit of innovation
+had been encouraged by the railroad&rsquo;s directors from the outset. It
+could hardly have been otherwise in light of the project&rsquo;s elemental
+daring.</p>
+
+<p>The first few major bridges beyond the line&rsquo;s starting point on Pratt
+Street, in Baltimore, were of rather elaborate masonry, but this may be
+explained by the projectors&rsquo; consciousness of the railroad&rsquo;s
+significance and their desire for permanence. However, the
+aforementioned economic factors shortly made obvious the necessity of
+departure from this system, and wood was thereafter employed for most
+long spans on the line as far as Harpers Ferry and beyond. Only the most
+minor culverts and short spans, and those only in locations near
+suitable quarries, were built of stone.</p>
+
+<p>In addition to the economic considerations which prompted the company to
+revert to timber for the major bridges, there were several situations in
+which masonry construction was unsuitable for practical reasons. If
+stone arches were used in locations where the grade of the line was a
+relatively short distance above the surface of the stream to be crossed,
+a number of short arches would have been necessary to avoid a very flat
+single arch. In arch construction,<span class="pagenum"><a name="Page_85" id="Page_85">[Pg 85]</a></span> the smaller the segment of a circle
+represented by the arch (that is, the flatter the arch), the greater the
+stress in the arch ring and the resulting horizontal thrust on the
+abutments.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_085.png" width="600" height="257" alt="Figure 9.&mdash;Bollman skew bridge at Elysville (now
+Daniels), Maryland, built in 1853-1854. (Photo courtesy of Maryland
+Historical Society.)" title="Figure 9." />
+<p class="caption">Figure 9.&mdash;<span class="smcap">Bollman skew bridge</span> at Elysville (now
+Daniels), Maryland, built in 1853-1854. (<i>Photo courtesy of Maryland
+Historical Society.</i>)</p>
+</div>
+
+
+<p>The piers for the numerous arches necessary to permit an optimum amount
+of rise relative to the span would have presented a dangerous
+restriction to stream flow in time of flood. By the use of timber
+trusses such crossings could be made in one or two spans with, at the
+most, one pier in the stream, thus avoiding the problem.</p>
+
+<p>The principal timber bridges as far west as Cumberland were of Latrobe&rsquo;s
+design. These were good, solid structures of composite construction, in
+which a certain amount of cast iron was used in joints and wrought iron
+for certain tension members. They were, however, more empirical than
+efficient and, for the most part, not only grossly overdesigned but of
+decidedly difficult fabrication and construction.</p>
+
+<p>What is interesting about the Latrobian timber trusses, however, is the
+effect they appear to have had upon Bollman&rsquo;s subsequent work in the
+design of his own truss. This effect is evidenced by the marked analogy
+between the primary structural elements of the two types. The Latrobe
+truss at Elysville (fig. 2) was only partially a truss, inasmuch as the
+greater part of the load was not carried from panel to panel, finally to
+appear at the abutments as a pure vertical reaction, but was carried
+from each panel (except the four at the center) directly to the bearing
+points at the piers by heavy diagonal struts, after the fashion of the
+famous 18th-century Swiss trusses of the Grubenmanns. It was a
+legitimate structural device, and the simplest means of extending the
+capacity of a spanning system. However, it was defective in that the
+struts applied considerable horizontal thrust to the abutments,
+requiring heavier masonry than would otherwise have been necessary.</p>
+
+<p>It is quite likely that Latrobe did not have absolute confidence in the
+various pure truss systems already patented by Town, Long, and others,
+and preferred for such strategic service a structure in which the panel
+members acted more or less independently of one another. It will be seen
+that, similarly, the individual panel loads in Bollman&rsquo;s truss were
+carried to the ends of the frame by members acting independently of one
+another.</p>
+
+
+<h3>The Bollman Truss</h3>
+
+<p>There had never been any question about the many serious inadequacies of
+wood as a bridge material. Decay and fire risk, always present, were the
+principal ones, involving continuous expenditure for replacement of
+defective members and for fire watches. It was, in fact, understood by
+the management and engineering staff of the B. &amp; O. that their timber
+bridge superstructures, though considered the finest in the country,
+were more or less expedient and were eventually to be replaced. In this
+regard it is not surprising that Latrobe, a man of considerable
+foresight, had, at an early date, given serious thought to the possible
+application of iron here.</p>
+
+<p><span class="pagenum"><a name="Page_86" id="Page_86">[Pg 86]</a></span></p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_086.png" width="600" height="372" alt="Figure 10." title="Figure 10." />
+<p class="caption2">Figure 10.&mdash;<span class="smcap">Potomac River crossing</span> of the Baltimore and
+Ohio at North Branch, Maryland, built in 1856. There are three Bollman
+deck trusses. (<i>Photo courtesy of Baltimore and Ohio Railroad.</i>)</p>
+</div>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_086a.png" width="600" height="301" alt="Figure 11." title="Figure 11." />
+<p class="caption">Figure 11.&mdash;<span class="smcap">The Fink truss.</span> (<i>Smithsonian photo
+41436.</i>)</p>
+</div>
+
+<p><span class="pagenum"><a name="Page_87" id="Page_87">[Pg 87]</a></span></p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_087.png" width="600" height="517" alt="Figure 12.
+WENDEL BOLLMAN&rsquo;S
+
+Patent Iron Suspension Railroad Bridge.
+
+The undersigned would inform the officers of Railroads and others, that
+he is prepared to furnish Drawings and Estimates for Bridges, Roofs,
+etc., on the plan of Bollman&rsquo;s Patent.
+
+The performance of these bridges, some of which have been in use for six
+years, has given entire satisfaction. Their simplicity of construction
+renders repairs easy and cheap, and by a peculiar connection of the Main
+and Panel Rods at the bottom of the Posts, all danger from the effects
+of expansion, which has heretofore been the chief objection to Iron
+Bridges, is entirely removed.
+
+J. H. TEGMEYER,
+Baltimore, Md." title="Figure 12." />
+
+<p class="caption">Figure 12.&mdash;<span class="smcap">Advertisement</span> in the <i>Railroad Advocate</i>, August 1855.</p>
+</div>
+
+<p>The world&rsquo;s first major iron bridge, the famed cast-iron arch at
+Coalbrookdale, England, had been constructed in 1779. Its erection was
+followed by rather sporadic interest in this use of the material. The
+first significant use of iron in this country was in a series of small
+trussed highway arches erected by Squire Whipple over the Erie Canal in
+the early 1840&rsquo;s, over 60 years later. In these, as in most of the
+earlier iron structures, an arch of cast iron was the primary support.
+The thrust of the arches was counteracted by open wrought-iron links
+with other wrought- and cast-iron members contributing to the truss
+action.</p>
+
+<p>The Whipple bridges promoted a certain amount of interest in the
+material. In the B. &amp; O.&rsquo;s annual report for the fiscal year 1849
+appears the first record of Latrobe&rsquo;s interest in this important matter.
+In the president&rsquo;s message is found the following, rather offhand,
+statement:</p>
+
+<blockquote><p>$6,183.19 have been expended toward the renewal of the Stone
+Bridges on the Washington Branch, carried off by the flood of
+Oct. 7th, 1847. Preparations are made and<span class="pagenum"><a name="Page_88" id="Page_88">[Pg 88]</a></span> contracts entered
+into, for the reconstruction of the large Bridges at Little
+Patuxent and at Bladensburg which will be executed in a few
+months.... It is proposed to erect a superstructure of Iron
+upon stone abutments, at each place&mdash;with increased span, for
+greater security against future floods.</p></blockquote>
+
+<p>It is interesting to note that it was indeed Bollman trusses to which
+the president of the railroad had referred. How much earlier than this
+date Bollman had evolved his peculiar trussing system is not clear. The
+certain influence of Latrobe&rsquo;s radiating strut system of trussing has
+been mentioned. As likely an influence was another basic technique
+commonly used to increase the capacity of a simple timber beam&mdash;that of
+trussing&mdash;i.e., placing beneath the beam a rod of iron that was anchored
+at the ends of the beam and held a certain distance below it at the
+center by a vertical strut or post. This combination thus became a truss
+in that the timber portion was no longer subject to a bending stress but
+to a simple one of compression, the rod absorbing the tensile stress of
+the combination. The effect was to deepen the beam, increasing the
+distance between its extreme fibers and&mdash;by thus reducing the bending
+moment&mdash;reducing the stress in them (see fig. 3).</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_088.png" width="600" height="251" alt="Figure 13." title="Figure 13." />
+<p class="caption2">Figure 13.&mdash;<span class="smcap">The four Bollman spans</span> at Harpers Ferry that
+survived the Civil War. The spans were completed in 1862-1863. (<i>Photo
+courtesy of Baltimore and Ohio Railroad.</i>)</p>
+</div>
+
+<p>It apparently occurred to Bollman that by extending the number of rods
+in a longitudinal direction, this effect could be practically amplified
+to such an extent as to be capable of spanning considerable distances.
+He almost certainly did not at first contemplate an all-iron system, but
+rather a composite one such as described. It is entirely likely that
+such trussed beams, with multiple systems of tension rods, were used by
+Bollman as bridging in temporary trestlework along the line as early as
+1845 (see fig. 4).</p>
+
+<p>It is impossible to say whether Bollman himself, or Latrobe, was struck
+with the logic of further elaborating upon the system and,
+simultaneously, translating the timber compression member into one of
+cast iron. Cast iron would naturally have been selected for a member
+that resisted a compressive stress, as it was considerably cheaper than
+wrought iron. But more important, at that time wrought iron was not
+available in shapes of sufficient sectional area to resist the
+appreciable buckling stresses induced in long compression members. The
+cost of building up members to sufficient size from the very limited
+selection of small shapes then rolled would have been prohibitive.</p>
+
+<p>The trussing rods, subjected to tension, were of wrought iron inasmuch
+as the sectional area had only to be sufficient to resist the primary
+axial stress.</p>
+
+<p>The first all-iron Bollman truss was constructed over the Little
+Patuxent River at Savage Factory, near Laurel, Maryland, in 1850. In the
+chief engineer&rsquo;s report for the year 1850, Latrobe was able to state
+that the truss had been completed and was giving<span class="pagenum"><a name="Page_89" id="Page_89">[Pg 89]</a></span> &ldquo;much satisfaction.&rdquo;
+He went on at some length to praise the &ldquo;valuable mechanical features&rdquo;
+embodied therein, and expressed great confidence that iron would become
+as important a material in the field of civil engineering as it was in
+mechanical engineering.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_089.png" width="600" height="277" alt="Figure 14." title="Figure 14." />
+<p class="caption2">Figure 14.&mdash;<span class="smcap">The Harpers Ferry bridge</span> as completed after
+the Civil War. It was used by the Baltimore and Ohio until 1894, and as
+a highway bridge until 1936. (Photo 690, Baltimore and Ohio Collection,
+Museum of History and Technology.)</p>
+</div>
+
+<p>The cost of this first major Bollman bridge was $23,825.00. Its span was
+76 feet. Latrobe&rsquo;s confidence was well placed. The Savage span and
+another at Bladensburg may be considered successful pilot models, for,
+in spite of a certain undercurrent of mistrust of iron bridges within
+the engineering profession&mdash;due mainly to a number of failures of
+improperly designed spans&mdash;Latrobe felt there was sufficient
+justification for the unqualified adoption of iron in all subsequent
+major bridge structures on the B. &amp; O.</p>
+
+<p>Almost immediately following completion of the Savage Bridge, Bollman
+undertook the design of replacements for the large Patapsco River span
+at Elysville (now Daniels), Maryland, and the so-called Winchester span
+of the B. &amp; O.&rsquo;s largest and most important bridge, that over the
+Potomac at Harpers Ferry. Harpers Ferry bridge, a timber structure, had
+been designed by Latrobe and built in 1836-1837 by the noted bridge
+constructor Lewis Wernwag. It was peculiar in having a turnout, near the
+Virginia shore, whereby a subsidiary road branched off to Winchester
+(see fig. 6). Only the single span on this line, situated between the
+midriver switch and the shore, was slated for replacement, as the other
+seven spans of the bridge had been virtually reconstructed in the decade
+or so of their history and were in sound condition at the time.</p>
+
+
+<p>The Winchester span (fig. 8), which was the first Bollman truss to
+embody sufficient refinement of detail to be considered a prototype, was
+completed in 1851. Bollman was extremely proud of the work, with perfect
+justification it may be said. The 124-foot span was fabricated in the
+railroad&rsquo;s extensive Mount Clair shops. It was subdivided into eight
+panels by seven struts and seven pairs of truss rods. An interesting
+difference between this span and Bollman&rsquo;s succeeding bridges was his
+use of granite rather than cast iron for the towers. The span consisted
+of three parallel lines of trussing to accommodate a common road in
+addition to the single-track Winchester line.</p>
+
+<p>The distinctive feature of the Bollman system was the previously
+mentioned series of diagonal truss links in combination with a cast-iron
+compression chord, which Bollman called the &ldquo;stretcher.&rdquo; The spacing
+between the chord and the junction of each pair of<span class="pagenum"><a name="Page_90" id="Page_90">[Pg 90]</a></span> links was maintained
+by a vertical post or strut, also cast.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_090.png" width="300" height="528" alt="Figure 15." title="Figure 15." />
+<p class="caption2">Figure 15.&mdash;<span class="smcap">North Street</span> (now Guilford Avenue) bridge,
+Baltimore. In this transitional composite structure cast iron was used
+only in the relatively short sections of the upper chord. For the long
+unsupported compression members of the web system, standard wrought-iron
+angles and channels were built up into a large section. The decorative
+cast-iron end posts were non-structural. (Photo in the L. N. Edwards
+Collection, Museum of History and Technology.)</p>
+</div>
+
+<p>Much of the appeal of this design lay unquestionably in the sense of
+security derived from the fact that each of the systems acted
+independently to carry its load to the abutments. The lower chords,
+actually nonfunctional in the primary structure, were included merely to
+preserve the proper longitudinal spacing between the lower ends of the
+struts. A certain lack of rigidity was inherent in the system due to
+that very discontinuity which characterized its action; however, this
+was compensated for by a pair of light diagonal stay rods crossing each
+panel. These rods served the additional function of distributing
+concentrated loads to adjacent struts much in the manner of the bridging
+between floor joists in a building.</p>
+
+<p>In the Winchester span the floor system was of timber for reasons of
+economy. This was a very minor weakness inasmuch as any stick could be
+quickly replaced, and without disturbing the function of the structure.
+Bollman received a patent for his truss in January 1852, and in the same
+year published a booklet describing his system in general and the
+Harpers Ferry span in particular. Here, he first calls it a &ldquo;suspension
+and trussed bridge,&rdquo; which is indeed an accurate designation for a
+system which is not strictly a truss because it has no active lower
+chord. (The analogy to a suspension bridge is quite clear, each pair of
+primary rods being comparable to a suspension cable.) Thereafter,
+Bollman&rsquo;s invention was generally termed a suspension truss.</p>
+
+
+<h4>INFLUENCE OF THE TRUSS</h4>
+
+<p>Bollman&rsquo;s 1852 publication was widely disseminated here and abroad and
+studied with respectful interest by the engineering profession. Its
+drawings of the structure were copied in a number of leading technical
+journals in England and Germany. Although there is no record that the
+type was ever reproduced in Europe, there can be little doubt that this
+successful structural use of iron by the most eminent railroad in the
+United States and its endorsement by an engineer of Latrobe&rsquo;s status
+gave great impetus to the general adoption of the material. This
+influence was certainly equal to that of Stephenson&rsquo;s tubular iron
+bridge of 1850 over the Menai Strait, or Roebling&rsquo;s iron-wire suspension
+bridge of 1855 over Niagara gorge. The Bollman design had perhaps even
+greater influence, as the B. &amp; O. immediately launched the system with
+great energy and in great numbers to replace its timber spans; on the
+other hand, Roebling&rsquo;s structure was never duplicated in railroad
+service, and Stephenson&rsquo;s only once.<span class="pagenum"><a name="Page_91" id="Page_91">[Pg 91]</a></span></p>
+
+<div class="figcenter" style="width: 620px;">
+<img src="images/i_091a.png" width="400" height="199" alt="Figure 16." title="Figure 16." />
+<img src="images/i_091b.png" width="205" height="199" alt="Figure 16." title="Figure 16." />
+<p class="caption2" style="width: 610px; padding-left:10px;">Figure 16.&mdash;<i>Left:</i> <span class="smcap">conjectural section</span> of Bollman&rsquo;s
+segmental wrought-iron column, about 1860, and section of the standard
+Phoenix column; <i>right:</i> Phoenix column as used in truss-bridge
+compression members.</p>
+</div>
+
+
+<h4>EVALUATION OF THE TRUSS</h4>
+
+<p>By the late 1850&rsquo;s iron was well established as a bridge material
+throughout the world. Once the previous fears of iron had been stilled
+and the attention of engineers was directed to the interpretation of
+existing and new spanning methods into metal, the Bollman truss began to
+suffer somewhat from the comparison. Although its components were simple
+to fabricate and its analysis and design were straightforward, it was
+less economical of material than the more conventional panel trusses
+such as the Pratt and Whipple types. Additionally, there was the
+requisite amount of secondary metal in lower chords and braces necessary
+for stability and rigidity.</p>
+
+<p>A factor difficult to assess is Bollman&rsquo;s handling of his patent, which
+was renewed in 1866. There is sufficient evidence to conclude that he
+considered the patent valuable because it was based upon a sound design.
+Therefore, he probably established a high license fee which, with the
+truss&rsquo;s other shortcomings, was sufficient to discourage its use by
+other railroads. As patron, the B. &amp; O. had naturally had full rights to
+its use.</p>
+
+<p>An additional defect, acknowledged even by Bollman, arose because of the
+unequal length of the links in each group except the center one. This
+caused an unevenness in the thermal expansion and contraction of the
+framework, with the result that the bridges were difficult to keep in
+adjustment. This had the practical effect of virtually limiting the
+system to intermediate span lengths, up to about 150 feet. For longer
+spans the B. &amp; O. employed the truss of another of Latrobe&rsquo;s assistants,
+German-born and technically trained Albert Fink.</p>
+
+<p>The Fink truss was evolved contemporaneously with Bollman&rsquo;s and was
+structurally quite similar, being a suspension truss with no lower
+chord. The principal difference was the symmetry of Fink&rsquo;s plan, which
+was achieved by carrying the individual panel loads from the panel
+points to increasingly longer panel units before having them appear at
+the end bearings. This eliminated the weakness of unequal strains. The
+design was basically a more rational one, and it came to be widely used
+in spans of up to 250 feet, generally as a deck-type truss (see fig.
+11).</p>
+
+
+<h3>W. Bollman and Company</h3>
+
+<p>Bollman resigned from the Baltimore and Ohio in 1858 to form, with John
+H. Tegmeyer and John Clark, two of his former B. &amp; O. assistants, a
+bridge-building firm in Baltimore known as W. Bollman and Company. This
+was apparently the first organization in the United States to design,
+fabricate, and erect iron bridges and structures, pioneering in what 25
+years later had become an immense industry. The firm had its foundation
+at least as early as 1855 when advertisements to supply designs and
+estimates for Bollman bridges appeared over Tegmeyer&rsquo;s name in several
+railroad journals (see fig. 12).</p>
+
+<p>Bollman&rsquo;s separation from the B. &amp; O. was not a complete one. The
+railroad continued its program of replacing timber bridges with Bollman
+trusses, and contracted with W. Bollman and Company for design<span class="pagenum"><a name="Page_92" id="Page_92">[Pg 92]</a></span> and a
+certain amount of fabrication. There is some likelihood that eventually
+fabrication was entirely discontinued at Mount Clair, and all parts
+subsequently purchased from Bollman.</p>
+
+<p>The firm prospered, erecting a number of major railroad bridges in
+Mexico, Cuba, and Chile. Operations ceased from 1861 to 1863 because of
+difficult wartime conditions in the border city of Baltimore. Following
+this, Bollman reentered business as sole proprietor of the Patapsco
+Bridge and Iron Works.</p>
+
+<div class="figcenter" style="width: 800px;">
+<img src="images/fig_17_800.png" width="800" height="173" alt="Figure 17. QUINCY BAY BRIDGE" title="Figure 17." />
+<p class="caption2" style="padding-left:100px; padding-right:100px;">
+<a href="images/fig_17_2000.png" title="Click to view larger image">Figure 17</a>.&mdash;<span class="smcap">Chicago, Burlington and Quincy Railroad bridge</span> over Quincy
+Bay (branch of the Mississippi River) at Quincy, Illinois. The pivot
+draw-span was formed of two Bollman deck trusses supported at their
+outer ends by hog chains. The bridge was built in 1867-1868 by the
+Detroit Bridge and Iron Co., Bollman licensee. (Clarke, <i>Account of the
+Iron Railway Bridge ... at Quincy, Illinois</i>.)</p>
+</div>
+
+<p>The most noteworthy of Bollman&rsquo;s works in this period was a series of
+spans at Harpers Ferry. The B. &amp; O.&rsquo;s timber bridge had been destroyed
+by Confederate forces in June 1861, and the crossing was thereafter made
+upon temporary trestlework. This was a constant source of trouble, with
+continuing interruptions of the connection from high water, washouts,
+and military actions. The annoyance and expense of this became so great
+that the company decided to risk an iron bridge at the crossing. In July
+and August 1862, two sections of Bollman truss, spans no. 4 and no. 5
+were completed. As this occurred during the time when W. Bollman and
+Company was inoperative, the work was produced at Mount Clair to
+Bollman&rsquo;s design and, undoubtedly, erected under his supervision. Five
+weeks later, on September 24, these and Bollman&rsquo;s famous Winchester span
+of 1851 were blown up by the Confederates, and the line&rsquo;s business was
+again placed at the mercy of trestling.</p>
+
+<p>The spirit of the B. &amp; O. administration indeed seems to have been
+unshakable when, in the face of such heartbreaking setbacks, it
+determined to again bridge the river with iron, even at the height of
+the hostilities. In November, span no. 5 was erected, and by April 1863
+nos. 3, 4, and 6 also. These were the four straight spans in midriver
+between the &ldquo;wide&rdquo; (or &ldquo;branch,&rdquo; or &ldquo;wye&rdquo;) span and the span on the
+Maryland shore over the Chesapeake and Ohio Canal (see fig. 13).
+Although the wood floor system of these spans was burned for strategic
+reasons by U.S. troops later in 1863, they survived the war.</p>
+
+<p>In 1868 the remaining trestlework was replaced with Bollman trusses.
+This magnificent structure served the railroad until 1894 when the
+right-of-way was realigned at Harpers Ferry. However, the half used by
+the common road remained in use until carried away by the disastrous
+flood in 1936. The piers may still be seen.</p>
+
+<p>During the prewar years, Bollman evolved a structural development of
+most profound importance, which is usually associated with the Phoenix
+Iron Works and its founder, Samuel J. Reeves. In the erection of a high
+trestlework viaduct for the Havana Railroad, Bollman apparently became
+concerned with the tensile weakness of cast iron when applied in long,
+unsupported columns. Although a column is normally subjected to
+compressive stresses, when the slenderness ratio&mdash;that is, the length
+divided by the radius of gyration of the cross section&mdash;becomes great, a
+secondary bending stress may be produced. If this stress becomes great
+enough, the value of the tensile stress in one side of the column may
+actually exceed the principal compressive stress, and a net effect of
+tension result.<span class="pagenum"><a name="Page_93" id="Page_93">[Pg 93]</a></span></p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_093.png" width="600" height="236" alt="Figure 18." title="Figure 18." />
+<p class="caption2">Figure 18.&mdash;<span class="smcap">Ohio River crossing</span> of the Baltimore and Ohio
+at Benwood, West Virginia, completed in 1870. Bollman deck trusses were
+used in the approaches on both sides. (Photo 693, Baltimore and Ohio
+Collection, Museum of History and Technology.)</p>
+</div>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_093a.png" width="600" height="420" alt="Figure 19." title="Figure 19." />
+<p class="caption2">Figure 19.&mdash;<span class="smcap">Patapsco River crossing</span> of the Baltimore and
+Ohio between Thistle and Ilchester, Maryland. (Photo 695, Baltimore and
+Ohio Collection, Museum of History and Technology.)</p>
+</div>
+
+<p><span class="pagenum"><a name="Page_94" id="Page_94">[Pg 94]</a></span></p>
+
+<p>As already mentioned, the few available rolled-iron shapes were of
+relatively small area and quite unsuitable for use as columns unless
+combined and built up in complex fabrications. The normal practice at
+the time was to use cast compression members in iron bridges and
+structures, with their sectional area so proportioned to the length that
+a state of tension could not exist. In the case of long members, this
+naturally meant that an excessive amount of material was used.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_094a.png" width="600" height="284" alt="Figure 20." title="Figure 20." />
+<img src="images/i_094b.png" width="600" height="271" alt="Figure 20." title="Figure 20." />
+<p class="caption2">Figure 20.&mdash;<span class="smcap">Two views of Bollman-built</span> &ldquo;water-pipe truss&rdquo;
+that carries Lombard Street over Jones Falls in Baltimore. Built in
+1877.</p></div>
+
+<p>Bollman was conscious of the problem from his experience with the
+stretchers and struts of his truss, and he must have been aware of the
+great advantage which would be obtained by a practical method of forming
+such members in wrought iron, the tensile resistance of which is
+equivalent to the compressive. He eventually developed the forerunner of
+what came to be known as the Phoenix form by having special segmental
+wrought-iron shapes rolled by Morris, Tasker and Company of
+Philadelphia, these shapes being combined into a circular section with
+out<span class="pagenum"><a name="Page_95" id="Page_95">[Pg 95]</a></span>standing flanges for riveting together. The circular section is
+theoretically the most efficient to bear compressive loading. A column
+of any required diameter could be produced by simply increasing the
+number of segments, the individual size of which never exceeded
+contemporary rolling mill capacity (see fig. 16).</p>
+
+<p>The design exhibits the inspired combination of functional perfection
+and simplicity that seems to characterize most great inventions.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_095.png" width="600" height="407" alt="Figure 21." title="Figure 21." />
+<p class="caption2">Figure 21.&mdash;<span class="smcap">The Harpers Ferry bridge</span> toward the end of
+its career, carrying a common road over the Potomac. The westernmost
+line of trussing and span no. 1 had been removed long before. View
+through the Winchester span looking toward Maryland in 1933. (<i>Photo
+courtesy of Harpers Ferry National Historical Park.</i>)</p>
+</div>
+
+<p>It may have been because he had no facilities for rolling that Bollman
+communicated his idea to Reeves, although this seems illogical. At any
+rate, Reeves and his associates patented the system extensively, and the
+Phoenix column was eventually employed to the virtual exclusion of
+cast-iron and other types of wrought-iron columns. By the end of the
+19th century it began to pass from use, as mills became capable of
+producing larger sections with properties relatively favorable to column
+use and more adaptable to connection with other members.</p>
+
+
+<h3>Final Use of the Bollman Truss</h3>
+
+<p>The Bollman truss found occasional use elsewhere than on the B. &amp; O.
+lines, but generally only when erected on contract by Patapsco Bridge
+and Iron Works. However, the fact that Bollman could profitably erect
+this bridge in the severely competitive 1870&rsquo;s indicates that the harsh
+criticism of the system by authorities of such stature as Whipple was
+not necessarily justified. Bollman&rsquo;s advertisements, in fact, refer to
+the favorable recommendations of other<span class="pagenum"><a name="Page_96" id="Page_96">[Pg 96]</a></span> such renowned engineers as
+Herman Haupt and M. C. Meigs.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_096.png" width="600" height="471" alt="Figure 22." title="Figure 22." />
+<p class="caption2">Figure 22.&mdash;<span class="smcap">Bollman deck trusses</span> in the North River
+Bridge built in 1873 at Mount Crawford, Virginia, on the Valley Railroad
+of Virginia (B. &amp; O.). Each end span is 98 ft. 6 in.; the river span is
+148 ft. 9 in. (Photo 756, Baltimore and Ohio Collection, Museum of
+History and Technology.)</p></div>
+
+<p>An interesting application of the system was in a drawbridge, formed of
+two Bollman deck spans, over an arm of the Mississippi at Quincy,
+Illinois (see fig. 17). The first iron bridge in Mexico was erected by
+Bollman over the Medellín River about 1864. Another work of this period,
+which attracted considerable attention, was a pair of bridges that
+Bollman erected over North Carolina&rsquo;s Cape Fear River in 1867-1868.
+These bridges were notable for their foundation on cast-iron cylinders,
+sunk pneumatically. This was one of the first instances of the use of
+the process in America, and the depth of 80 feet below the water surface
+reached by one cylinder was considered remarkable for years afterward.</p>
+
+<p>In the last active decade or so of his career, Bollman produced hundreds
+of minor bridges and other structures. In 1873 he supplied the castings
+for the splendid iron dome of Baltimore&rsquo;s City Hall and erected the
+ingenious water-main truss which carries Lombard Street over Jones Falls
+in that city. In this structure the top and bottom chords of the central
+line of trussing are cast-iron water mains, bifurcated at the abutments,
+and joined by cast- and wrought-iron web members (see fig. 20).<span class="pagenum"><a name="Page_97" id="Page_97">[Pg 97]</a></span></p>
+
+<p>In the mid 1870&rsquo;s Bollman saw his truss pass into obsolescence. This was
+due primarily to the generally increasing distrust of cast iron for
+major structural members due to its brittleness, but advances in
+structural theory, availability of a greater variety of rolled
+structural shapes, and the increasing loading patterns of the period all
+contributed.</p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_097.png" width="600" height="339" alt="Figure 23." title="Figure 23." />
+<p class="caption2">Figure 23.&mdash;<span class="smcap">The only surviving Bollman truss bridge</span>, at
+Savage, Maryland. The bridge was built elsewhere in 1852 and was moved
+to this now-abandoned Baltimore and Ohio industrial siding in about
+1888.</p></div>
+
+<p>Although no Bollman trusses were built by Bollman or the B. &amp; O. after
+1875, those in use were only removed as required by heavier motive
+power. The Harpers Ferry span, as noted, remained in full main-line
+service until 1894. Bollman trusses on feeder lines were continued in
+use until much later; a number of them on the Valley Railroad of
+Virginia (see fig. 22) were not removed until 1923. However, only on the
+most isolated spurs was the Bollman truss permitted to reach really ripe
+age. The sole known remaining example (fig. 23) stands on such a
+branch&mdash;ironically, at Savage, over the Little Patuxent, the site of the
+first Bollman span. This is not the 1850 bridge, but one built in 1852
+and moved to the present site 30 years later. The fate of the first span
+is not known.<span class="pagenum"><a name="Page_98" id="Page_98">[Pg 98]</a></span></p>
+
+<div class="figcenter" style="width: 600px;">
+<img src="images/i_098.png" width="600" height="498" alt="Figure 24." title="Figure 24." />
+<p class="caption2">Figure 24.&mdash;<span class="smcap">Hot-water and chocolate pitchers</span> of the
+10-piece, silver tea service presented to Bollman by his fellow
+employees when he resigned from the Baltimore and Ohio in 1858. A
+railroad motif was used throughout, each piece being circled at top and
+bottom by a track, complete with rail of accurate section and ties.
+Spouts are in simulation of hexagonal sheet-iron chimneys, with seams
+riveted, and the handles are in the form of a surveyor&rsquo;s telescope. On
+the various pieces are engraved the designs of the more important B. &amp;
+O. bridges. Throughout is a wonderful profusion of bits and objects of
+railroadiana in low relief, high relief, and fully modeled. In Board of
+Directors Room, Baltimore and Ohio Railroad Company, Baltimore, Md.
+(<i>Photo courtesy of Baltimore and Ohio Railroad.</i>)</p></div>
+
+<p><span class="pagenum"><a name="Page_99" id="Page_99">[Pg 99]</a></span></p>
+
+<h3>Known Bollman Works</h3>
+
+<p class="center">(All B. &amp; O. works listed were designed by Bollman and built by the railroad, unless otherwise indicated.)</p>
+<table summary="List of Bollman Works">
+<tr><td><i>Dates of service</i></td><td><i>Location</i></td><td><i>Type</i></td><td><i>No. spans / length of each</i></td><td><i>Remarks</i></td></tr>
+<tr><td>1850-?</td><td>Savage, Md., Little Patuxent River</td><td>Bollman through truss</td><td>1/76'</td><td>First Bollman truss erected; granite towers; cost, $23,825. B. &amp; O. RR.</td></tr>
+<tr><td>1851-?</td><td>Bladensburg, Md., Anacostia River</td><td>Bollman through truss</td><td>1/?</td><td>Second Bollman truss erected; granite towers; cost, $19,430. B. &amp; O. RR.</td></tr>
+<tr><td>1851-1862</td><td>Harpers Ferry, Va., Potomac River</td><td>Bollman through truss</td><td>1/124'</td><td>Winchester span; first major Bollman truss; three lines of truss; granite towers; blown up by Confederate Army on September 24, 1862. B. &amp; O. RR.</td></tr>
+<tr><td>1851-?</td><td>Baltimore, Md., Carey Street</td><td>Trestle</td><td>&mdash;</td><td>Wood trestle bents with wrought-iron diagonals. First use of iron structural members in trestlework. Total length 76 feet. B. &amp; O. RR.</td></tr>
+<tr><td>1852-</td><td>Savage, Md., Little Patuxent River</td><td>Bollman through truss</td><td>2/?80'</td><td>Still standing. Moved to Savage in 1888; original location unknown. This and succeeding Bollman trusses use iron towers. B. &amp; O. RR.</td></tr>
+<tr><td>1852 (or 1853)-?</td><td>Marriottsville, Md., Patapsco River</td><td>Bollman truss</td><td>1/50'</td><td>One of first Bollman trusses with iron towers. B. &amp; O. RR.</td></tr>
+<tr><td>1853-?</td><td>Zanesville, Ohio, Muskingum River</td><td>Bollman truss</td><td>4/124' (or 5/160')</td><td>Double track, Central Ohio RR. Designed by Bollman; built by Douglas, Smith &amp; Co., Zanesville.</td></tr>
+<tr><td>1854-1870(?)</td><td>Elysville (now Daniels), Md., Patapsco River</td><td>Bollman through truss</td><td>3/97'9"</td><td>Upper bridge, skew. Cost, $24,477.59. B. &amp; O. RR.</td></tr>
+<tr><td>1854-1862</td><td>Monocacy, Md., Monocacy River</td><td>Bollman truss</td><td>3/119'</td><td>Blown up September 8, 1862; rebuilt in 1864. Cost, $22,722.59. B. &amp; O. RR.</td></tr>
+<tr><td>1854-?</td><td>Eastern Ohio</td><td>Bollman truss(?)</td><td>1/40'</td><td>C. O. RR. Section 76 adjacent to 300-ft. tunnel.</td></tr>
+<tr><td>1855-?</td><td>Bridgeville, Ohio, Salt Creek</td><td>Bollman deck truss</td><td>1/71'</td><td>C. O. RR.</td></tr>
+<tr><td>Pre-1855-?</td><td>Buffalo, N.Y.</td><td>&mdash;</td><td>&mdash;</td><td>Unidentified. Mentioned by George Vose in Railroad Advocate (June 9, 1855).</td></tr>
+<tr><td>1856-?</td><td>Elysville, Md., about 1-1/4 miles east of 1854 bridge, Patapsco River</td><td>Bollman through truss</td><td>3/111'</td><td>Lower Bridge. B. &amp; O. RR.</td></tr>
+<tr><td><span class="pagenum"><a name="Page_100" id="Page_100">[Pg 100]</a></span>Pre-1856-?</td><td>Marriottsville, Md.</td><td>Bollman truss(?)</td><td>1/48'9"</td><td>Referred to as &ldquo;Tunnel Bridge&rdquo; in B. &amp; O. RR. annual report, 1856.</td></tr>
+<tr><td>1856-?</td><td>Near Ijamsville, Md., Bush Creek</td><td>Iron girders</td><td>3/23'9"</td><td>Possibly trussed beams; mentioned in B. &amp; O. RR. annual report, 1856.</td></tr>
+<tr><td>1856-?</td><td>Near Ijamsville, Md., Bush Creek</td><td>Iron girders</td><td>2/23'9"</td><td>As above.</td></tr>
+<tr><td>1856-c.1862</td><td>North Branch, Md., Potomac River</td><td>Bollman deck truss</td><td>3/142'</td><td>Partially destroyed in Civil War. B. &amp; O. RR.</td></tr>
+<tr><td>1860-1906</td><td>Chile, Angostura River</td><td>Bollman truss(?)</td><td>4/115'</td><td>Chilean Railways. Designed and built by Bollman. Replaced by bridge built by French firm of Schneider, Cruesot &amp; Co.</td></tr>
+<tr><td>1860-1910</td><td>Chile, Paine River</td><td>Bollman truss(?)</td><td>1/?</td><td>As above.</td></tr>
+<tr><td>Post-1860-?</td><td>Ilchester, Md., Patapsco River</td><td>Bollman through truss</td><td>1/?</td><td>B. &amp; O. RR.</td></tr>
+<tr><td>Pre-1861-?</td><td>Cuba</td><td>Bridges and station house</td><td>&mdash;</td><td>All bridges on Havana RR., including iron station house and bridge at Guines. Designed and built by Bollman.</td></tr>
+<tr><td>Pre-1861-?</td><td>Cuba</td><td>Bridges</td><td>&mdash;</td><td>All bridges on Cienfuegos RR., Cárdenas RR., and Havana &amp; Matanzas RR. Designed and built by Bollman.</td></tr>
+<tr><td>Pre-1861-?</td><td>Cuba</td><td>Trestle</td><td>&mdash;</td><td>Trestle with wrought-iron columns (the first such ever constructed). Havana RR. Designed and built by Bollman.</td></tr>
+<tr><td>1862-1862</td><td>Harpers Ferry, Va., Potomac River</td><td>Bollman through truss</td><td>2/160'</td><td>Span no. 3 (July 24) and span no. 4 (August 21). Blown up September 24, 1862. B. &amp; O. RR.</td></tr>
+<tr><td>1862-1936</td><td>Harpers Ferry, Va., Potomac River</td><td>Bollman through truss</td><td>1/160'</td><td>Span no. 5 (November). B. &amp; O. RR.</td></tr>
+<tr><td>1863-1936</td><td>Harpers Ferry, Va., Potomac River</td><td>Bollman through truss</td><td>3/160'</td><td>Spans nos. 3, 4, and 5. Constructed previous to April 1863. B. &amp; O. RR.</td></tr>
+<tr><td>1863-?</td><td>Berwyn, Md., Paint Branch</td><td>Bollman truss(?)</td><td>?</td><td>Iron bridge mentioned in B. &amp; O. RR. annual report, 1863</td></tr>
+<tr><td>1863(4?)-?</td><td>Clinton, Iowa, Mississippi River</td><td>Pivot draw</td><td>1/360'</td><td>Built by Detroit Bridge &amp; Iron Works. It was the longest in the world at time of completion. Designed by Bollman.</td></tr>
+<tr><td>1864-?</td><td><span class="pagenum"><a name="Page_101" id="Page_101">[Pg 101]</a></span>Laurel, Md., Patuxent River</td><td>Bollman truss</td><td>?</td><td>Replaced stone arch that had been washed out. B. &amp; O. RR.</td></tr>
+<tr><td>c. 1864-?</td><td>Near Veracruz, Mexico, Medellín River</td><td>Bollman hrough truss</td><td>1/115' </td><td>Veracruz &amp; Jucaro RR. First iron bridge in Mexico. Designed and built by Bollman.</td></tr>
+<tr><td>1864-?</td><td>Near Point of Rocks, Md., Back Creek</td><td>Bollman truss(?)</td><td>1/80'(?)</td><td>Iron bridge mentioned in B. &amp; O. RR. annual report, 1864. The span length given is that of previous stone arch.</td></tr>
+<tr><td>1864-?</td><td>Bladensburg, Md., Anacostia River</td><td>Bollman truss</td><td>1/?</td><td>Span for second track, to match 1851 span. B. &amp; O. RR.</td></tr>
+<tr><td>1868-?</td><td>Cape Fear, N.C., Northeast Branch, Cape Fear River</td><td>Bollman truss(?)</td><td>2/146'6" 1/164' pivot draw/150'</td><td>Wilmington Railway Bridge Co. This bridge was connected to that over the Northwest Branch by 2-1/2 miles of timber trestling. Designed and built by Bollman.</td></tr>
+<tr><td>1868-?</td><td>Cape Fear, N.C., Northwest Branch, Cape Fear River</td><td>Bollman truss(?)</td><td>1/217'(?) pivot draw/150'</td><td>See above.</td></tr>
+<tr><td>1868-?</td><td>Quincy, Ill., Quincy Bay (in Mississippi River)</td><td>Bollman deck truss</td><td>4/85' pivot draw/190'</td><td>Chicago, Burlington &amp; Quincy RR. The pivot draw was formed of two 85-ft. simple Bollman deck spans whose outer ends hung from hog chains. Designed by Bollman; built by Detroit Bridge &amp; Iron Works.</td></tr>
+<tr><td>1869-c.1892</td><td>Baltimore, Md., over Jones Falls, B. &amp; O. RR., and Northern Central RR.</td><td>Warren truss</td><td>2/100'<br />2/55'6"</td><td>North Avenue Bridge. Composite double intersection truss; timber top chord and posts, wrought-iron lower chord and ties. In 55-ft. spans, both chords timber. Cost, $73,588. Built by Bollman.</td></tr>
+<tr><td>c.1869-1936</td><td>Harpers Ferry, Va., Potomac River</td><td>Bollman through truss</td><td>4/?</td><td>Canal span (no. 8), Wide span (no. 2), Winchester span, and West End span. Destroyed by flood in 1936. B. &amp; O. RR.</td></tr>
+<tr><td>1870-.1895</td><td>Baltimore, Md., Jones Falls</td><td>Iron &ldquo;Isometrical truss&rdquo; (probably Pratt type)</td><td>1/108'</td><td>Charles Street Bridge. Three lines of trussing.Cost, $20,297. Built by Bollman.</td></tr>
+<tr><td>1870-1893 &amp; 1900</td><td>Bellaire, Ohio-Benwood W. Va., Ohio River</td><td>Bollman deck truss</td><td>9/107'-125'</td><td>In approaches; 2 spans on Ohio side; 7 on West Virginia side. B. &amp; O. RR.</td></tr>
+<tr><td>1870-c.1895</td><td><span class="pagenum"><a name="Page_102" id="Page_102">[Pg 102]</a></span>Belpre, Ohio-Parkersburg, W. Va., Ohio River</td><td>Bollman deck truss</td><td>16/?</td><td>In approaches; 7 spans on Ohio side; 9 on West Virginia side. B. &amp; O. RR.</td></tr>
+<tr><td>1870-?</td><td>Elysville, Md., Patapsco River</td><td>Bollman through truss</td><td>4/?</td><td>Skew; replacement of Upper Bridge(?). B. &amp; O. RR.</td></tr>
+<tr><td>1871-c.1895</td><td>Baltimore, Md., Jones Falls</td><td>Timber and iron truss</td><td>?</td><td>Decker Street (now Maryland Avenue) Bridge. Cost, $24,975. Built by Bollman.</td></tr>
+<tr><td>1871-c.1892</td><td>Baltimore, Md., over Northern Central RR. at Jones Falls</td><td>Warren truss</td><td>1/100'</td><td>North Avenue Bridge. Composite double intersection truss; cast-iron top chord and posts; wrought-iron bottom chord and ties. West span. Built by Bollman.</td></tr>
+<tr><td>1873-1923</td><td>Cave Station, Va., Middle River</td><td>Bollman deck truss</td><td>1/98'7"<br />1/63'5"</td><td>Valley Railroad of Virginia (B. &amp; O.) Bridge no. 120. The main span was a Whipple deck truss. Replaced with plate girders. Designed by Bollman.</td></tr>
+<tr><td>1873-1923</td><td>Mount Crawford, Va., North River</td><td>Bollman deck truss</td><td>2/98'6"<br />1/148'9"</td><td>Valley Railroad of Virginia (B. &amp; O.) Bridge no. 117. Designed by Bollman.</td></tr>
+<tr><td>1873-1923</td><td>Verona, Va., North River</td><td>Bollman deck truss</td><td>3/98'7"</td><td>Valley Railroad of Virginia (B. &amp; O.) Bridge no. 129. The main span was a 147-ft. Whipple deck truss. Designed by Bollman.</td></tr>
+<tr><td>1873-?</td><td>Wadesville, Va., Opequon Creek</td><td>Bollman through truss</td><td>1/147'8"</td><td>Span length given is that of previous wood span that burned in 1862. B. &amp; O. RR.</td></tr>
+<tr><td>c. 1873-</td><td>Baltimore, Md.</td><td>Iron roof trusses</td><td>?</td><td>First Presbyterian Church. Built by Bollman; possibly designed by him.</td></tr>
+<tr><td>1873-</td><td>Baltimore, Md.</td><td>Cast-iron stairs</td><td></td><td>City Hall. Cost, $12,840. Designed by George A. Frederick, architect; built by Bollman.</td></tr>
+<tr><td>1873-</td><td>Baltimore, Md.</td><td>Cast-iron framework</td><td></td><td>Dome of the City Hall. Cost, $70,525. Designed by George A. Frederick; built by Bollman.</td></tr>
+<tr><td>1875-c.1913</td><td>Baltimore, Md., Jones Falls</td><td>Iron truss</td><td>1/?</td><td>Fayette Street Bridge. Cost, $9,396. Built by Bollman.</td></tr>
+<tr><td>1876-c.1913</td><td>Baltimore, Md., Jones Falls</td><td>Single-beam iron bridge (truss?)</td><td>1/?</td><td>Canton Avenue (now Fleet Street) Bridge. Cost, $8,904. Built by Bollman.</td></tr>
+<tr><td>1876-c.1913</td><td>Baltimore, Md., Jones Falls</td><td>Single-beam iron bridge (truss?)</td><td>1/?</td><td>Eastern Avenue Bridge. Cost, $12,382. Built by Bollman.</td></tr>
+<tr><td>1877-</td><td>Baltimore, Md., Jones Falls</td><td>Pratt and bowstring truss</td><td>1/88'6"</td><td>Lombard Street Bridge. Three lines of truss; two outer trusses, composite cast- and wrought-iron polygonal Pratt type; center composite bowstring with Pratt-system web. Both chords are cast-iron water mains, bifurcated at the end bearings; cast-iron posts and wrought-iron ties. In service. Cost, $7,632. Designed by Jas. Curran, Baltimore water department; built by Bollman.</td></tr>
+<tr><td>1877-c.1913</td><td><span class="pagenum"><a name="Page_103" id="Page_103">[Pg 103]</a></span>Baltimore, Md., Jones Falls</td><td>Iron truss</td><td>1/?</td><td>Bath Street Bridge. Cost, $4,172. Built by Bollman.</td></tr>
+<tr><td>1879-?</td><td>Baltimore, Md.</td><td>Drawbridge</td><td>1/?</td><td>Over entrance to City Dock. Cost, $13,182. Built by Bollman.</td></tr>
+<tr><td>1879-c.1930</td><td>Baltimore, Md., over Jones Falls and railroad tracks</td><td>Warren truss</td><td>2/173'9"</td><td>North Street (now Guilford Avenue) Bridge. Composite trusses; cast-iron top chord and end posts; wrought-iron bottom chord and web members. Cost, $38,772.45. Built by Bollman; designed by Latrobe.</td></tr>
+<tr><td>1881-1960</td><td>Baltimore, Md., (Woodberry), Jones Falls</td><td>Wrought-iron Pratt truss</td><td>1/?</td><td>Union Avenue Bridge. Built by Bollman; possibly designed by him.</td></tr>
+<tr><td>?-?</td><td>Harpers Ferry, Va., Arsenal Canal</td><td>Bollman through truss</td><td>1/148'</td><td>Arsenal Branch, B. &amp; O. RR. Skew type. Span length is that of previous timber span.</td></tr>
+<tr><td>?-?</td><td>Baltimore, Md., Gwynns Falls</td><td>Bollman through truss</td><td>2/?</td><td>B. &amp; O. RR.</td></tr>
+</table>
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_104" id="Page_104">[Pg 104]</a></span></p>
+<h3>BIBLIOGRAPHY</h3>
+
+
+<p><i>A history and description of the Baltimore and Ohio Railroad by a
+citizen of Baltimore.</i> Baltimore, 1853.</p>
+
+<p>Baltimore and Ohio Railroad Company. <i>A list of the officers and
+employees of the Baltimore and Ohio Railroad for November, 1857.</i>
+Baltimore, 1857.</p>
+
+<p>----. <i>Third annual report of the president and directors to the
+stockholders of the Baltimore and Ohio Rail Road Company.</i> Baltimore:
+1829. (Also the fourth through 38th annual reports. Baltimore,
+1830-1864.)</p>
+
+<p>----. <i>Baltimore and Ohio exhibits at the Century of Progress.</i> Chicago,
+1934.</p>
+
+<p><i>Biographical cyclopedia of representative men of Maryland and the
+District of Columbia.</i> Baltimore, 1879.</p>
+
+<p><span class="smcap">Bollman, Wendel.</span> <i>Iron suspension and trussed bridge as constructed for
+the Baltimore and Ohio Rail Road Co. at Harper&rsquo;s Ferry, and on the
+Washington branch of this road.</i> Baltimore, 1852.</p>
+
+<p>----. Letter to John W. Garrett dated June 17, 1862. In files of
+Division of Mechanical and Civil Engineering, United States National
+Museum, Washington, D.C.</p>
+
+<p>----. <i>Report of Mr. Bollman in relation to Central Ohio Rail Road.</i>
+Baltimore, 1854.</p>
+
+<p><span class="smcap">Bryant, William C.</span> <i>Picturesque America.</i> New York, 1874.</p>
+
+<p><span class="smcap">Clarke, Thomas Curtis.</span> <i>An account of the iron railway bridge across the
+Mississippi River at Quincy, Illinois.</i> New York, 1869.</p>
+
+<p><span class="smcap">Colburn, Zerah.</span> American iron bridges. <i>Minutes of the proceedings of
+the Institution of Mechanical Engineers</i> (1863), vol. 22, pp. 540-573.</p>
+
+<p><span class="smcap">Condit, Carl.</span> <i>American building art:&mdash;The nineteenth century.</i> New
+York: Oxford Press, 1960.</p>
+
+<p><span class="smcap">Gray, George E.</span> Notes on early practice in bridge building.
+<i>Transactions of the American Society of Civil Engineers</i> (1897), vol.
+37, pp. 2-16.</p>
+
+<p><span class="smcap">Greiner, John E.</span> The American railroad viaduct&mdash;Its origin and
+evolution. <i>Transactions of the American Society of Civil Engineers</i>
+(1891), vol. 25, pp. 349-372.</p>
+
+<p><span class="smcap">Lang, Philip George.</span> Bollman trusses on Valley of Virginia Branch will
+soon be memories. <i>Baltimore and Ohio Magazine</i> (October 1923), pp.
+18-19.</p>
+
+<p>----. The old Baltimore and Ohio bridge crossing the Potomac River at
+Harpers Ferry, West [sic] Virginia. <i>Engineering News-Record</i> (September
+17, 1931), p. 446.</p>
+
+<p><span class="smcap">Malezieux, Emile.</span> <i>Travaux publics des Etats-Unis d&rsquo;Amerique en 1870.</i>
+Paris, 1873.</p>
+
+<p><span class="smcap">McDowell, W. H.</span> Unpublished engineer&rsquo;s report to the president and
+directors of Wilmington Railway Bridge Company, Wilmington, North
+Carolina, dated March 12, 1868. Typewritten copy in files of Division of
+Mechanical and Civil Engineering, U.S. National Museum, Washington, D.C.</p>
+
+<p><span class="smcap">Smith, Charles Shaler.</span> <i>Comparative analysis of the Fink, Murphy,
+Bollman and triangular trusses.</i> Baltimore, 1865.</p>
+
+<p><span class="smcap">Smith, William P.</span> <i>The book of the great railway celebrations of 1857.</i>
+Baltimore, 1858.</p>
+
+<p><span class="smcap">Tyrrell, Henry G.</span> <i>History of bridge engineering.</i> Chicago, 1911.</p>
+
+<p><span class="smcap">Whipple, Squire.</span> <i>Bridge building.</i> Albany, New York, 1869.<br /><br /></p>
+
+
+<p class="center"><small>U.S. GOVERNMENT PRINTING OFFICE: 1964</small></p>
+<hr />
+<p class="center">For sale by the Superintendent of Documents, U.S. Government Printing Office</p>
+<p class="center">Washington D.C. 20402 - Price 70 cents</p>
+
+
+
+<hr style="width: 65%;" />
+<h3><a name="INDEX" id="INDEX"></a>INDEX</h3>
+
+
+<p>Bollman, W., and Company, <a href="#Page_91">91</a>, <a href="#Page_92">92</a></p>
+
+<p>Bollman, Wendel, <a href="#Page_79">79</a>, <a href="#Page_80">80</a>, <a href="#Page_85">85</a>, <a href="#Page_88">88</a>, <a href="#Page_94">94</a><br /><br /></p>
+
+
+<p>Clark, John, <a href="#Page_91">91</a><br /><br /></p>
+
+
+<p>Fink, Albert, <a href="#Page_79">79</a>, <a href="#Page_91">91</a><br /><br /></p>
+
+
+<p>Grubenmann, Hans, <a href="#Page_85">85</a></p>
+
+<p>Grubenmann, Johann Ulrich, <a href="#Page_85">85</a><br /><br /></p>
+
+
+<p>Haupt, Herman, <a href="#Page_96">96</a><br /><br /></p>
+
+
+<p>Knight, &mdash;&mdash;, <a href="#Page_83">83</a><br /><br /></p>
+
+
+<p>Latrobe, Benjamin H., <a href="#Page_82">82</a>, <a href="#Page_83">83</a>, <a href="#Page_85">85</a>, <a href="#Page_87">87</a></p>
+
+<p>Long, Stephen H., <a href="#Page_85">85</a><br /><br /></p>
+
+
+<p>Meigs, M. C., <a href="#Page_96">96</a></p>
+
+<p>Morris, Tasker and Company, <a href="#Page_94">94</a></p>
+
+<p>Mount Clair shops, <a href="#Page_83">83</a>, <a href="#Page_89">89</a>, <a href="#Page_92">92</a><br /><br /></p>
+
+
+<p>Patapsco Bridge and Iron Works, <a href="#Page_92">92</a>, <a href="#Page_95">95</a></p>
+
+<p>Phoenix Iron Works, <a href="#Page_92">92</a></p>
+
+<p>Pratt, Thomas W., <a href="#Page_91">91</a><br /><br /></p>
+
+
+<p>Reeves, Samuel J., <a href="#Page_92">92</a>, <a href="#Page_95">95</a></p>
+
+<p>Roebling, John A., <a href="#Page_83">83</a>, <a href="#Page_90">90</a><br /><br /></p>
+
+
+<p>Savage Factory, <a href="#Page_88">88</a></p>
+
+<p>Stephenson, Robert, <a href="#Page_90">90</a><br /><br /></p>
+
+
+<p>Tegmeyer, John H., <a href="#Page_91">91</a></p>
+
+<p>Town, Ithiel, <a href="#Page_85">85</a><br /><br /></p>
+
+
+<p>Wernwag, Lewis, <a href="#Page_89">89</a></p>
+
+<p>Whipple, Squire, <a href="#Page_79">79</a>, <a href="#Page_83">83</a>, <a href="#Page_87">87</a>, <a href="#Page_91">91</a>, <a href="#Page_95">95</a></p>
+
+<p>Whistler, George W., <a href="#Page_83">83</a></p>
+
+<p>Winans, Ross, <a href="#Page_83">83</a></p>
+
+<p>Wright, Benjamin, <a href="#Page_83">83</a></p>
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of The Engineering Contributions of
+Wendel Bollman, by Robert M. Vogel
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+The Project Gutenberg EBook of The Engineering Contributions of Wendel
+Bollman, by Robert M. Vogel
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: The Engineering Contributions of Wendel Bollman
+
+Author: Robert M. Vogel
+
+Release Date: October 20, 2010 [EBook #33912]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THE ENGINEERING ***
+
+
+
+
+Produced by Colin Bell, Joseph Cooper, Louise Pattison and
+the Online Distributed Proofreading Team at
+http://www.pgdp.net
+
+
+
+
+
+
+
+
+
+Transcriber's Notes:
+
+This is Paper 36 from the Smithsonian Institution United States National
+Museum Bulletin 240, comprising Papers 34-44, which will also be
+available as a complete e-book.
+
+The front material, introduction and relevant index entries from the
+Bulletin are included in each single-paper e-book.
+
+Inconsistencies in punctuation have been corrected without note.
+Inconsistent hyphenation is as per the original.
+
+
+
+
+ SMITHSONIAN INSTITUTION
+
+ UNITED STATES NATIONAL MUSEUM
+
+ BULLETIN 240
+
+ [Illustration]
+
+ SMITHSONIAN PRESS
+
+
+
+
+ MUSEUM OF HISTORY AND TECHNOLOGY
+
+ CONTRIBUTIONS
+ FROM THE
+ MUSEUM
+ OF HISTORY AND
+ TECHNOLOGY
+
+ _Papers 34-44_
+ _On Science and Technology_
+
+ SMITHSONIAN INSTITUTION . WASHINGTON, D.C. 1966
+
+
+
+
+_Publications of the United States National Museum_
+
+
+The scholarly and scientific publications of the United States National
+Museum include two series, _Proceedings of the United States National
+Museum_ and _United States National Museum Bulletin_.
+
+In these series, the Museum publishes original articles and monographs
+dealing with the collections and work of its constituent museums--The
+Museum of Natural History and the Museum of History and
+Technology--setting forth newly acquired facts in the fields of
+anthropology, biology, history, geology, and technology. Copies of each
+publication are distributed to libraries, to cultural and scientific
+organizations, and to specialists and others interested in the different
+subjects.
+
+The _Proceedings_, begun in 1878, are intended for the publication, in
+separate form, of shorter papers from the Museum of Natural History.
+These are gathered in volumes, octavo in size, with the publication date
+of each paper recorded in the table of contents of the volume.
+
+In the _Bulletin_ series, the first of which was issued in 1875, appear
+longer, separate publications consisting of monographs (occasionally in
+several parts) and volumes in which are collected works on related
+subjects. _Bulletins_ are either octavo or quarto in size, depending on
+the needs of the presentation. Since 1902 papers relating to the
+botanical collections of the Museum of Natural History have been
+published in the _Bulletin_ series under the heading _Contributions from
+the United States National Herbarium_, and since 1959, in _Bulletins_
+titled "Contributions from the Museum of History and Technology," have
+been gathered shorter papers relating to the collections and research of
+that Museum.
+
+The present collection of Contributions, Papers 34-44, comprises
+Bulletin 240. Each of these papers has been previously published in
+separate form. The year of publication is shown on the last page of each
+paper.
+
+ FRANK A. TAYLOR
+ _Director, United States National Museum_
+
+
+
+
+ CONTRIBUTIONS FROM
+ THE MUSEUM OF HISTORY AND TECHNOLOGY:
+ PAPER 36
+
+ THE ENGINEERING CONTRIBUTIONS
+ OF WENDEL BOLLMAN
+
+ _Robert M. Vogel_
+
+
+
+
+ EARLY CAREER 80
+
+ THE BOLLMAN TRUSS 85
+
+ W. BOLLMAN AND COMPANY 91
+
+ FINAL USE OF THE BOLLMAN TRUSS 95
+
+ KNOWN BOLLMAN WORKS 99
+
+ BIBLIOGRAPHY 104
+
+
+
+
+[Illustration: Figure 1.--WENDEL BOLLMAN, C.E. (1814-1884). (_Photo
+courtesy of Dr. Stuart Christhilf._)]
+
+
+_Robert M. Vogel_
+
+
+THE ENGINEERING CONTRIBUTIONS OF WENDEL BOLLMAN
+
+
+ _The development of structural engineering has always been as
+ dependent upon the availability of materials as upon the
+ expansion of theoretical concepts. Perhaps the greatest single
+ step in the history of civil engineering was the introduction
+ of iron as a primary structural material in the 19th century;
+ it quickly released the bridge and the building from the
+ confines of a technology based upon the limited strength of
+ masonry and wood._
+
+ _Wendel Bollman, self-taught Baltimore civil engineer, was the
+ first to evolve a system of bridging in iron to be consistently
+ used on an American railroad, becoming one of the pioneers who
+ ushered in the modern period of structural engineering._
+
+ THE AUTHOR: _Robert M. Vogel is curator of civil engineering in
+ the Smithsonian Institution's Museum of History and
+ Technology._
+
+
+Wendel Bollman's name survives today solely in association with the
+Bollman truss, and even in this respect is known only to a few older
+civil and railroad engineers. The Bollman system of trussing, along with
+those of Whipple and Fink, may be said to have introduced the great age
+of the metal bridge, and thus, directly, the modern period of civil
+engineering.
+
+Bollman's bridge truss, of which the first example was built in 1850,
+has the very significant distinction of being the first bridging system
+in the world employing iron in all of its principal structural members
+that was used consistently on a railroad.
+
+The importance of the transition from wood to iron as a structural and
+bridge building material is generally recognized, but it may be well to
+mention certain aspects of this change.
+
+The tradition of masonry bridge construction never attained the great
+strength in this country which it held in Europe, despite a number of
+notable exceptions. There were several reasons for this. From the very
+beginning of colonization, capital was scarce, a condition that
+prevailed until well into the 19th century and which prohibited the use
+of masonry because of the extremely high costs of labor and transport.
+An even more important economic consideration was the rapidity with
+which it was necessary to extend the construction of railways during
+their pioneer years. Unlike the early English and European railways,
+which invariably traversed areas of dense population and industrial
+activity, and were thus assured of a significant financial return almost
+from the moment that the first rail was down, the Baltimore and Ohio
+and its contemporaries were launched upon an entirely different
+commercial prospect. Their principal business consisted not so much in
+along-the-line transactions as in haulage between principal terminals
+separated by great and largely desolate expanses. This meant that income
+was severely limited until the line was virtually complete from end to
+end, and it meant that commencement of return upon the initial
+investment was entirely dependent upon the speed of survey, graduation,
+tunneling, and bridging.
+
+[Illustration: Figure 2.--MODEL OF B. H. LATROBE'S TRUSS, built in 1838,
+over the Patapsco River at Elysville (now Daniels), Maryland. (_Photo
+courtesy of Baltimore and Ohio Railroad._)]
+
+The need for speed, the general attenuation of capital, and the simple
+fact that all the early railroads traversed thickly forested areas
+rendered wood the most logical material for bridge and other
+construction, both temporary and permanent.
+
+The use of wood as a bridge material did not, of course, originate with
+the railroads, or, for that matter, in this country. The heavily wooded
+European countries--Switzerland in particular--had a strong tradition of
+bridge construction in timber from the Renaissance on, and naturally a
+certain amount of this technique found its way to the New World with the
+colonials and immigrants.
+
+America's highway system was meager until about the time the railroad
+age itself was beginning. However, by 1812 there were, along the eastern
+seaboard, a number of fine timber bridges of truly remarkable structural
+sophistication and workmanship.
+
+It was just previous to the advent of the railroads that the erection of
+highway bridges in this country began to pass from an art to a science.
+And an art it had been in the hands of the group of skilled but
+unschooled master carpenters and masons who built largely from an
+intuitive sense of proportion, stress, and the general "fitness of
+things." It passed into an exact science under the guidance of a small
+number of men trained at first in the scientific and technical schools
+of Europe, and, after about 1820, in the few institutions then
+established in America that offered technical instruction.
+
+The increasing number of trained engineers at first affected highway
+bridge construction not so much in the materials used but in the way
+they were assembled. In a bridge designed by a self-taught constructor,
+the cheapness of wood made it entirely feasible to proportion the
+members by enlarging them to the point where there could be no question
+as to their structural adequacy. The trained engineer, on the other
+hand, could design from the standpoint of determining the entire load
+and then proportioning each element according to the increment of stress
+upon it and to the unit capacity of the material.
+
+By the time railroads had started expanding to the West there had been
+sufficient experience with the half dozen practical timber truss systems
+by then evolved, that there was little difficulty in translating them
+into bridges capable of supporting the initial light rail traffic.
+
+In spite of its inherent shortcomings, wood was so adaptable that it met
+almost perfectly the needs of the railroads during the early decades of
+their intense expansion, and, in fact, still finds limited use in the
+Northwest.
+
+
+
+
+Early Career
+
+
+Wendel Bollman was born in Baltimore of German parents in 1814. His
+father was a baker, who in the same year had aided in the city's defense
+against the British. Wendel's education, until about the age of 11, was
+more or less conventionally gained in public and private schools in
+Baltimore. He then entered into informal apprenticeship, first to an
+apothecary in Sheperdstown, Virginia (now West Virginia), and then to
+one in Harpers Ferry. In 1826 or 1827 he became ill and returned to
+Baltimore for cure. From that time on his education was entirely
+self-acquired.
+
+[Illustration: Figure 3.--TRUSSED BEAM.]
+
+It is of interest, in light of his later career, to note that on the
+Fourth of July 1828, he marched with other boys in a procession that was
+part of the Baltimore and Ohio Railroad's cornerstone-laying ceremony.
+Shortly afterward, he apprenticed himself to a carpenter for a brief
+time, but when the work slacked off he obtained work with the B. & O.
+The right-of-way had been graded for about five miles by that time, but
+no rail was down. The boy was at first given manual work, but soon
+advanced to rodman and rapidly rose as he gained facility with the
+surveying apparatus. In the fall of 1829 he participated in laying the
+first track. As his mother was anxious that he continue his education in
+carpentry, he left the railroad in the spring of 1830 to again enter
+apprenticeship. He finished, became a journeyman, helped build a
+planter's mansion in Natchez, and returned to Baltimore in 1837 to
+commence his own carpentry business. The next year, while building a
+house in Harpers Ferry, he was asked to rejoin the B. & O. to rebuild
+parts of its large timber bridge over the Potomac there, which had
+fallen victim to various defects after about a year's use.
+
+[Illustration: Figure 4.--SIMPLE BEAM of 50-foot span with three
+independent trussing systems. Bollman's use of this method of support
+led to the development of his bridge truss. This drawing is of a
+temporary span used after the timber bridge at Harpers Ferry was
+destroyed during the Civil War. (In Baltimore and Ohio Collection,
+Museum of History and Technology.)]
+
+Shortly after the Harpers Ferry bridge reconstruction, Bollman was made
+foreman of bridges. It is apparent that, on the basis of his practical
+ability, enhanced by the theoretical knowledge gained by intense
+self-study, he eventually came to assist Chief Engineer Benjamin H.
+Latrobe in bridge design. He later took this work over entirely as
+Latrobe's attentions and talents were demanded in the location and
+extension of the line between Cumberland and Wheeling.
+
+[Illustration: Figure 5.--BOLLMAN'S ORIGINAL PATENT DRAWING, 1851. (In
+National Archives, Washington, D.C.)]
+
+The B. & O. did not reach its logical destination, Ohio (actually
+Wheeling, West Virginia, on the east bank of the Ohio River) until 1853.
+In the years following Bollman's return to the railroad, the design of
+bridges was an occupation of the engineering staff second in importance
+only to the location of the line itself. During this time Bollman
+continued to rise and assume greater responsibilities, being appointed
+master of road by Latrobe in 1848. In this position he was responsible
+for all railroad property that did not move, principally the
+right-of-way and its structures, including, of course, bridges.
+
+The recognition of Bollman's abilities was in the well-established
+tradition of the B. & O., long known as America's first "school of
+engineering," having sponsored many early experiments in motive power,
+trackwork, and other fundamental elements of railroad engineering. It
+furnished the means of expression for such men as Knight, Wright,
+Whistler, Latrobe, and Winans.
+
+[Illustration: Figure 6.--PLAN OF HARPERS FERRY BRIDGE as built by
+Latrobe. The second Winchester track was later removed.]
+
+Of these pioneer civil and mechanical engineers, some were formally
+trained but most were self-taught. Bollman's career on the B. & O. is of
+particular interest not only because he was perhaps the most successful
+of the latter class but because he was probably also the last. He may be
+said to be a true representative of the transitional period between
+intuitive and exact engineering. Actually, his designing was a composite
+of the two methods. While making consistent use of mathematical
+analysis, he was at the same time more or less dependent upon empirical
+methods. For years, B. & O. employees told stories of his sessions in
+the tin shop of the railroad's main repair facility at Mount Clair in
+Baltimore, where he built models of bridges from scraps of metal and
+then tested them to destruction to locate weaknesses. It seems most
+likely, however, that the empirical studies were used solely as checks
+against the mathematical.
+
+[Illustration: Figure 7.--RECENT MODEL of Bollman's Winchester span.
+Only two of the three lines of trussing are shown. The model is based on
+Bollman's published description and drawings of the structure. (USNM
+318171; Smithsonian photo 46941.)]
+
+In the period when Bollman began designing--about 1840--there were fewer
+than ten men in the country designing bridges by scientifically correct
+analytical methods, Whipple and Roebling the most notable of this group.
+By 1884, the year of Bollman's death, the age of intuitive design had
+been dead for a decade or longer.
+
+[Illustration: Figure 8.--THE BALTIMORE AND OHIO RAILROAD'S Potomac
+River crossing at Harpers Ferry, about 1860. Bollman's iron "Winchester
+span" of 1851 is seen at the right end of Latrobe's timber structure of
+1836, which forms the body of the bridge. (_Photo courtesy of Harpers
+Ferry National Historical Park._)]
+
+The B. & O. was in every way a truly pioneer enterprise. It was the
+first practical railroad in America; the first to use an American
+locomotive; the first to cross the Alleghenies. The spirit of innovation
+had been encouraged by the railroad's directors from the outset. It
+could hardly have been otherwise in light of the project's elemental
+daring.
+
+The first few major bridges beyond the line's starting point on Pratt
+Street, in Baltimore, were of rather elaborate masonry, but this may be
+explained by the projectors' consciousness of the railroad's
+significance and their desire for permanence. However, the
+aforementioned economic factors shortly made obvious the necessity of
+departure from this system, and wood was thereafter employed for most
+long spans on the line as far as Harpers Ferry and beyond. Only the most
+minor culverts and short spans, and those only in locations near
+suitable quarries, were built of stone.
+
+In addition to the economic considerations which prompted the company to
+revert to timber for the major bridges, there were several situations in
+which masonry construction was unsuitable for practical reasons. If
+stone arches were used in locations where the grade of the line was a
+relatively short distance above the surface of the stream to be crossed,
+a number of short arches would have been necessary to avoid a very flat
+single arch. In arch construction, the smaller the segment of a circle
+represented by the arch (that is, the flatter the arch), the greater the
+stress in the arch ring and the resulting horizontal thrust on the
+abutments.
+
+[Illustration: Figure 9.--BOLLMAN SKEW BRIDGE at Elysville (now
+Daniels), Maryland, built in 1853-1854. (_Photo courtesy of Maryland
+Historical Society._)]
+
+The piers for the numerous arches necessary to permit an optimum amount
+of rise relative to the span would have presented a dangerous
+restriction to stream flow in time of flood. By the use of timber
+trusses such crossings could be made in one or two spans with, at the
+most, one pier in the stream, thus avoiding the problem.
+
+The principal timber bridges as far west as Cumberland were of Latrobe's
+design. These were good, solid structures of composite construction, in
+which a certain amount of cast iron was used in joints and wrought iron
+for certain tension members. They were, however, more empirical than
+efficient and, for the most part, not only grossly overdesigned but of
+decidedly difficult fabrication and construction.
+
+What is interesting about the Latrobian timber trusses, however, is the
+effect they appear to have had upon Bollman's subsequent work in the
+design of his own truss. This effect is evidenced by the marked analogy
+between the primary structural elements of the two types. The Latrobe
+truss at Elysville (fig. 2) was only partially a truss, inasmuch as the
+greater part of the load was not carried from panel to panel, finally to
+appear at the abutments as a pure vertical reaction, but was carried
+from each panel (except the four at the center) directly to the bearing
+points at the piers by heavy diagonal struts, after the fashion of the
+famous 18th-century Swiss trusses of the Grubenmanns. It was a
+legitimate structural device, and the simplest means of extending the
+capacity of a spanning system. However, it was defective in that the
+struts applied considerable horizontal thrust to the abutments,
+requiring heavier masonry than would otherwise have been necessary.
+
+It is quite likely that Latrobe did not have absolute confidence in the
+various pure truss systems already patented by Town, Long, and others,
+and preferred for such strategic service a structure in which the panel
+members acted more or less independently of one another. It will be seen
+that, similarly, the individual panel loads in Bollman's truss were
+carried to the ends of the frame by members acting independently of one
+another.
+
+
+
+
+The Bollman Truss
+
+
+There had never been any question about the many serious inadequacies of
+wood as a bridge material. Decay and fire risk, always present, were the
+principal ones, involving continuous expenditure for replacement of
+defective members and for fire watches. It was, in fact, understood by
+the management and engineering staff of the B. & O. that their timber
+bridge superstructures, though considered the finest in the country,
+were more or less expedient and were eventually to be replaced. In this
+regard it is not surprising that Latrobe, a man of considerable
+foresight, had, at an early date, given serious thought to the possible
+application of iron here.
+
+[Illustration: Figure 10.--POTOMAC RIVER CROSSING of the Baltimore and
+Ohio at North Branch, Maryland, built in 1856. There are three Bollman
+deck trusses. (_Photo courtesy of Baltimore and Ohio Railroad._)]
+
+[Illustration: Figure 11.--THE FINK TRUSS. (_Smithsonian photo
+41436._)]
+
+[Illustration: WENDEL BOLLMAN'S
+
+Patent Iron Suspension Railroad Bridge.
+
+The undersigned would inform the officers of Railroads and others, that
+he is prepared to furnish Drawings and Estimates for Bridges, Roofs,
+etc., on the plan of Bollman's Patent.
+
+The performance of these bridges, some of which have been in use for six
+years, has given entire satisfaction. Their simplicity of construction
+renders repairs easy and cheap, and by a peculiar connection of the Main
+and Panel Rods at the bottom of the Posts, all danger from the effects
+of expansion, which has heretofore been the chief objection to Iron
+Bridges, is entirely removed.
+
+ J. H. TEGMEYER,
+ Baltimore, Md.
+
+Figure 12.--ADVERTISEMENT in the _Railroad Advocate_, August 1855.]
+
+The world's first major iron bridge, the famed cast-iron arch at
+Coalbrookdale, England, had been constructed in 1779. Its erection was
+followed by rather sporadic interest in this use of the material. The
+first significant use of iron in this country was in a series of small
+trussed highway arches erected by Squire Whipple over the Erie Canal in
+the early 1840's, over 60 years later. In these, as in most of the
+earlier iron structures, an arch of cast iron was the primary support.
+The thrust of the arches was counteracted by open wrought-iron links
+with other wrought- and cast-iron members contributing to the truss
+action.
+
+The Whipple bridges promoted a certain amount of interest in the
+material. In the B. & O.'s annual report for the fiscal year 1849
+appears the first record of Latrobe's interest in this important matter.
+In the president's message is found the following, rather offhand,
+statement:
+
+ $6,183.19 have been expended toward the renewal of the Stone
+ Bridges on the Washington Branch, carried off by the flood of
+ Oct. 7th, 1847. Preparations are made and contracts entered
+ into, for the reconstruction of the large Bridges at Little
+ Patuxent and at Bladensburg which will be executed in a few
+ months.... It is proposed to erect a superstructure of Iron
+ upon stone abutments, at each place--with increased span, for
+ greater security against future floods.
+
+It is interesting to note that it was indeed Bollman trusses to which
+the president of the railroad had referred. How much earlier than this
+date Bollman had evolved his peculiar trussing system is not clear. The
+certain influence of Latrobe's radiating strut system of trussing has
+been mentioned. As likely an influence was another basic technique
+commonly used to increase the capacity of a simple timber beam--that of
+trussing--i.e., placing beneath the beam a rod of iron that was anchored
+at the ends of the beam and held a certain distance below it at the
+center by a vertical strut or post. This combination thus became a truss
+in that the timber portion was no longer subject to a bending stress but
+to a simple one of compression, the rod absorbing the tensile stress of
+the combination. The effect was to deepen the beam, increasing the
+distance between its extreme fibers and--by thus reducing the bending
+moment--reducing the stress in them (see fig. 3).
+
+[Illustration: Figure 13.--THE FOUR BOLLMAN SPANS at Harpers Ferry that
+survived the Civil War. The spans were completed in 1862-1863. (_Photo
+courtesy of Baltimore and Ohio Railroad._)]
+
+It apparently occurred to Bollman that by extending the number of rods
+in a longitudinal direction, this effect could be practically amplified
+to such an extent as to be capable of spanning considerable distances.
+He almost certainly did not at first contemplate an all-iron system, but
+rather a composite one such as described. It is entirely likely that
+such trussed beams, with multiple systems of tension rods, were used by
+Bollman as bridging in temporary trestlework along the line as early as
+1845 (see fig. 4).
+
+It is impossible to say whether Bollman himself, or Latrobe, was struck
+with the logic of further elaborating upon the system and,
+simultaneously, translating the timber compression member into one of
+cast iron. Cast iron would naturally have been selected for a member
+that resisted a compressive stress, as it was considerably cheaper than
+wrought iron. But more important, at that time wrought iron was not
+available in shapes of sufficient sectional area to resist the
+appreciable buckling stresses induced in long compression members. The
+cost of building up members to sufficient size from the very limited
+selection of small shapes then rolled would have been prohibitive.
+
+The trussing rods, subjected to tension, were of wrought iron inasmuch
+as the sectional area had only to be sufficient to resist the primary
+axial stress.
+
+The first all-iron Bollman truss was constructed over the Little
+Patuxent River at Savage Factory, near Laurel, Maryland, in 1850. In the
+chief engineer's report for the year 1850, Latrobe was able to state
+that the truss had been completed and was giving "much satisfaction."
+He went on at some length to praise the "valuable mechanical features"
+embodied therein, and expressed great confidence that iron would become
+as important a material in the field of civil engineering as it was in
+mechanical engineering.
+
+[Illustration: Figure 14.--THE HARPERS FERRY BRIDGE as completed after
+the Civil War. It was used by the Baltimore and Ohio until 1894, and as
+a highway bridge until 1936. (Photo 690, Baltimore and Ohio Collection,
+Museum of History and Technology.)]
+
+The cost of this first major Bollman bridge was $23,825.00. Its span was
+76 feet. Latrobe's confidence was well placed. The Savage span and
+another at Bladensburg may be considered successful pilot models, for,
+in spite of a certain undercurrent of mistrust of iron bridges within
+the engineering profession--due mainly to a number of failures of
+improperly designed spans--Latrobe felt there was sufficient
+justification for the unqualified adoption of iron in all subsequent
+major bridge structures on the B. & O.
+
+Almost immediately following completion of the Savage Bridge, Bollman
+undertook the design of replacements for the large Patapsco River span
+at Elysville (now Daniels), Maryland, and the so-called Winchester span
+of the B. & O.'s largest and most important bridge, that over the
+Potomac at Harpers Ferry. Harpers Ferry bridge, a timber structure, had
+been designed by Latrobe and built in 1836-1837 by the noted bridge
+constructor Lewis Wernwag. It was peculiar in having a turnout, near the
+Virginia shore, whereby a subsidiary road branched off to Winchester
+(see fig. 6). Only the single span on this line, situated between the
+midriver switch and the shore, was slated for replacement, as the other
+seven spans of the bridge had been virtually reconstructed in the decade
+or so of their history and were in sound condition at the time.
+
+The Winchester span (fig. 8), which was the first Bollman truss to
+embody sufficient refinement of detail to be considered a prototype, was
+completed in 1851. Bollman was extremely proud of the work, with perfect
+justification it may be said. The 124-foot span was fabricated in the
+railroad's extensive Mount Clair shops. It was subdivided into eight
+panels by seven struts and seven pairs of truss rods. An interesting
+difference between this span and Bollman's succeeding bridges was his
+use of granite rather than cast iron for the towers. The span consisted
+of three parallel lines of trussing to accommodate a common road in
+addition to the single-track Winchester line.
+
+The distinctive feature of the Bollman system was the previously
+mentioned series of diagonal truss links in combination with a cast-iron
+compression chord, which Bollman called the "stretcher." The spacing
+between the chord and the junction of each pair of links was maintained
+by a vertical post or strut, also cast.
+
+[Illustration: Figure 15.--NORTH STREET (now Guilford Avenue) bridge,
+Baltimore. In this transitional composite structure cast iron was used
+only in the relatively short sections of the upper chord. For the long
+unsupported compression members of the web system, standard wrought-iron
+angles and channels were built up into a large section. The decorative
+cast-iron end posts were non-structural. (Photo in the L. N. Edwards
+Collection, Museum of History and Technology.)]
+
+Much of the appeal of this design lay unquestionably in the sense of
+security derived from the fact that each of the systems acted
+independently to carry its load to the abutments. The lower chords,
+actually nonfunctional in the primary structure, were included merely to
+preserve the proper longitudinal spacing between the lower ends of the
+struts. A certain lack of rigidity was inherent in the system due to
+that very discontinuity which characterized its action; however, this
+was compensated for by a pair of light diagonal stay rods crossing each
+panel. These rods served the additional function of distributing
+concentrated loads to adjacent struts much in the manner of the bridging
+between floor joists in a building.
+
+In the Winchester span the floor system was of timber for reasons of
+economy. This was a very minor weakness inasmuch as any stick could be
+quickly replaced, and without disturbing the function of the structure.
+Bollman received a patent for his truss in January 1852, and in the same
+year published a booklet describing his system in general and the
+Harpers Ferry span in particular. Here, he first calls it a "suspension
+and trussed bridge," which is indeed an accurate designation for a
+system which is not strictly a truss because it has no active lower
+chord. (The analogy to a suspension bridge is quite clear, each pair of
+primary rods being comparable to a suspension cable.) Thereafter,
+Bollman's invention was generally termed a suspension truss.
+
+
+INFLUENCE OF THE TRUSS
+
+Bollman's 1852 publication was widely disseminated here and abroad and
+studied with respectful interest by the engineering profession. Its
+drawings of the structure were copied in a number of leading technical
+journals in England and Germany. Although there is no record that the
+type was ever reproduced in Europe, there can be little doubt that this
+successful structural use of iron by the most eminent railroad in the
+United States and its endorsement by an engineer of Latrobe's status
+gave great impetus to the general adoption of the material. This
+influence was certainly equal to that of Stephenson's tubular iron
+bridge of 1850 over the Menai Strait, or Roebling's iron-wire suspension
+bridge of 1855 over Niagara gorge. The Bollman design had perhaps even
+greater influence, as the B. & O. immediately launched the system with
+great energy and in great numbers to replace its timber spans; on the
+other hand, Roebling's structure was never duplicated in railroad
+service, and Stephenson's only once.
+
+[Illustration: Figure 16.--_Left:_ CONJECTURAL SECTION of Bollman's
+segmental wrought-iron column, about 1860, and section of the standard
+Phoenix column; _right:_ Phoenix column as used in truss-bridge
+compression members.]
+
+
+EVALUATION OF THE TRUSS
+
+By the late 1850's iron was well established as a bridge material
+throughout the world. Once the previous fears of iron had been stilled
+and the attention of engineers was directed to the interpretation of
+existing and new spanning methods into metal, the Bollman truss began to
+suffer somewhat from the comparison. Although its components were simple
+to fabricate and its analysis and design were straightforward, it was
+less economical of material than the more conventional panel trusses
+such as the Pratt and Whipple types. Additionally, there was the
+requisite amount of secondary metal in lower chords and braces necessary
+for stability and rigidity.
+
+A factor difficult to assess is Bollman's handling of his patent, which
+was renewed in 1866. There is sufficient evidence to conclude that he
+considered the patent valuable because it was based upon a sound design.
+Therefore, he probably established a high license fee which, with the
+truss's other shortcomings, was sufficient to discourage its use by
+other railroads. As patron, the B. & O. had naturally had full rights to
+its use.
+
+An additional defect, acknowledged even by Bollman, arose because of the
+unequal length of the links in each group except the center one. This
+caused an unevenness in the thermal expansion and contraction of the
+framework, with the result that the bridges were difficult to keep in
+adjustment. This had the practical effect of virtually limiting the
+system to intermediate span lengths, up to about 150 feet. For longer
+spans the B. & O. employed the truss of another of Latrobe's assistants,
+German-born and technically trained Albert Fink.
+
+The Fink truss was evolved contemporaneously with Bollman's and was
+structurally quite similar, being a suspension truss with no lower
+chord. The principal difference was the symmetry of Fink's plan, which
+was achieved by carrying the individual panel loads from the panel
+points to increasingly longer panel units before having them appear at
+the end bearings. This eliminated the weakness of unequal strains. The
+design was basically a more rational one, and it came to be widely used
+in spans of up to 250 feet, generally as a deck-type truss (see fig.
+11).
+
+
+
+
+W. Bollman and Company
+
+
+Bollman resigned from the Baltimore and Ohio in 1858 to form, with John
+H. Tegmeyer and John Clark, two of his former B. & O. assistants, a
+bridge-building firm in Baltimore known as W. Bollman and Company. This
+was apparently the first organization in the United States to design,
+fabricate, and erect iron bridges and structures, pioneering in what 25
+years later had become an immense industry. The firm had its foundation
+at least as early as 1855 when advertisements to supply designs and
+estimates for Bollman bridges appeared over Tegmeyer's name in several
+railroad journals (see fig. 12).
+
+Bollman's separation from the B. & O. was not a complete one. The
+railroad continued its program of replacing timber bridges with Bollman
+trusses, and contracted with W. Bollman and Company for design and a
+certain amount of fabrication. There is some likelihood that eventually
+fabrication was entirely discontinued at Mount Clair, and all parts
+subsequently purchased from Bollman.
+
+The firm prospered, erecting a number of major railroad bridges in
+Mexico, Cuba, and Chile. Operations ceased from 1861 to 1863 because of
+difficult wartime conditions in the border city of Baltimore. Following
+this, Bollman reentered business as sole proprietor of the Patapsco
+Bridge and Iron Works.
+
+[Illustration: QUINCY BAY BRIDGE
+
+Figure 17.--CHICAGO, BURLINGTON AND QUINCY RAILROAD BRIDGE over Quincy
+Bay (branch of the Mississippi River) at Quincy, Illinois. The pivot
+draw-span was formed of two Bollman deck trusses supported at their
+outer ends by hog chains. The bridge was built in 1867-1868 by the
+Detroit Bridge and Iron Co., Bollman licensee. (Clarke, _Account of the
+Iron Railway Bridge ... at Quincy, Illinois_.)]
+
+The most noteworthy of Bollman's works in this period was a series of
+spans at Harpers Ferry. The B. & O.'s timber bridge had been destroyed
+by Confederate forces in June 1861, and the crossing was thereafter made
+upon temporary trestlework. This was a constant source of trouble, with
+continuing interruptions of the connection from high water, washouts,
+and military actions. The annoyance and expense of this became so great
+that the company decided to risk an iron bridge at the crossing. In July
+and August 1862, two sections of Bollman truss, spans no. 4 and no. 5
+were completed. As this occurred during the time when W. Bollman and
+Company was inoperative, the work was produced at Mount Clair to
+Bollman's design and, undoubtedly, erected under his supervision. Five
+weeks later, on September 24, these and Bollman's famous Winchester span
+of 1851 were blown up by the Confederates, and the line's business was
+again placed at the mercy of trestling.
+
+The spirit of the B. & O. administration indeed seems to have been
+unshakable when, in the face of such heartbreaking setbacks, it
+determined to again bridge the river with iron, even at the height of
+the hostilities. In November, span no. 5 was erected, and by April 1863
+nos. 3, 4, and 6 also. These were the four straight spans in midriver
+between the "wide" (or "branch," or "wye") span and the span on the
+Maryland shore over the Chesapeake and Ohio Canal (see fig. 13).
+Although the wood floor system of these spans was burned for strategic
+reasons by U.S. troops later in 1863, they survived the war.
+
+In 1868 the remaining trestlework was replaced with Bollman trusses.
+This magnificent structure served the railroad until 1894 when the
+right-of-way was realigned at Harpers Ferry. However, the half used by
+the common road remained in use until carried away by the disastrous
+flood in 1936. The piers may still be seen.
+
+During the prewar years, Bollman evolved a structural development of
+most profound importance, which is usually associated with the Phoenix
+Iron Works and its founder, Samuel J. Reeves. In the erection of a high
+trestlework viaduct for the Havana Railroad, Bollman apparently became
+concerned with the tensile weakness of cast iron when applied in long,
+unsupported columns. Although a column is normally subjected to
+compressive stresses, when the slenderness ratio--that is, the length
+divided by the radius of gyration of the cross section--becomes great, a
+secondary bending stress may be produced. If this stress becomes great
+enough, the value of the tensile stress in one side of the column may
+actually exceed the principal compressive stress, and a net effect of
+tension result.
+
+[Illustration: Figure 18.--OHIO RIVER CROSSING of the Baltimore and Ohio
+at Benwood, West Virginia, completed in 1870. Bollman deck trusses were
+used in the approaches on both sides. (Photo 693, Baltimore and Ohio
+Collection, Museum of History and Technology.)]
+
+[Illustration: Figure 19.--PATAPSCO RIVER crossing of the Baltimore and
+Ohio between Thistle and Ilchester, Maryland. (Photo 695, Baltimore and
+Ohio Collection, Museum of History and Technology.)]
+
+As already mentioned, the few available rolled-iron shapes were of
+relatively small area and quite unsuitable for use as columns unless
+combined and built up in complex fabrications. The normal practice at
+the time was to use cast compression members in iron bridges and
+structures, with their sectional area so proportioned to the length that
+a state of tension could not exist. In the case of long members, this
+naturally meant that an excessive amount of material was used.
+
+[Illustration: Figure 20.--TWO VIEWS OF BOLLMAN-BUILT "water-pipe truss"
+that carries Lombard Street over Jones Falls in Baltimore. Built in
+1877.]
+
+Bollman was conscious of the problem from his experience with the
+stretchers and struts of his truss, and he must have been aware of the
+great advantage which would be obtained by a practical method of forming
+such members in wrought iron, the tensile resistance of which is
+equivalent to the compressive. He eventually developed the forerunner of
+what came to be known as the Phoenix form by having special segmental
+wrought-iron shapes rolled by Morris, Tasker and Company of
+Philadelphia, these shapes being combined into a circular section with
+outstanding flanges for riveting together. The circular section is
+theoretically the most efficient to bear compressive loading. A column
+of any required diameter could be produced by simply increasing the
+number of segments, the individual size of which never exceeded
+contemporary rolling mill capacity (see fig. 16).
+
+The design exhibits the inspired combination of functional perfection
+and simplicity that seems to characterize most great inventions.
+
+[Illustration: Figure 21.--THE HARPERS FERRY BRIDGE toward the end of
+its career, carrying a common road over the Potomac. The westernmost
+line of trussing and span no. 1 had been removed long before. View
+through the Winchester span looking toward Maryland in 1933. (_Photo
+courtesy of Harpers Ferry National Historical Park._)]
+
+It may have been because he had no facilities for rolling that Bollman
+communicated his idea to Reeves, although this seems illogical. At any
+rate, Reeves and his associates patented the system extensively, and the
+Phoenix column was eventually employed to the virtual exclusion of
+cast-iron and other types of wrought-iron columns. By the end of the
+19th century it began to pass from use, as mills became capable of
+producing larger sections with properties relatively favorable to column
+use and more adaptable to connection with other members.
+
+
+
+
+Final Use of the Bollman Truss
+
+
+The Bollman truss found occasional use elsewhere than on the B. & O.
+lines, but generally only when erected on contract by Patapsco Bridge
+and Iron Works. However, the fact that Bollman could profitably erect
+this bridge in the severely competitive 1870's indicates that the harsh
+criticism of the system by authorities of such stature as Whipple was
+not necessarily justified. Bollman's advertisements, in fact, refer to
+the favorable recommendations of other such renowned engineers as
+Herman Haupt and M. C. Meigs.
+
+[Illustration: Figure 22.--BOLLMAN DECK TRUSSES in the North River
+Bridge built in 1873 at Mount Crawford, Virginia, on the Valley Railroad
+of Virginia (B. & O.). Each end span is 98 ft. 6 in.; the river span is
+148 ft. 9 in. (Photo 756, Baltimore and Ohio Collection, Museum of
+History and Technology.)]
+
+An interesting application of the system was in a drawbridge, formed of
+two Bollman deck spans, over an arm of the Mississippi at Quincy,
+Illinois (see fig. 17). The first iron bridge in Mexico was erected by
+Bollman over the Medellin River about 1864. Another work of this period,
+which attracted considerable attention, was a pair of bridges that
+Bollman erected over North Carolina's Cape Fear River in 1867-1868.
+These bridges were notable for their foundation on cast-iron cylinders,
+sunk pneumatically. This was one of the first instances of the use of
+the process in America, and the depth of 80 feet below the water surface
+reached by one cylinder was considered remarkable for years afterward.
+
+In the last active decade or so of his career, Bollman produced hundreds
+of minor bridges and other structures. In 1873 he supplied the castings
+for the splendid iron dome of Baltimore's City Hall and erected the
+ingenious water-main truss which carries Lombard Street over Jones Falls
+in that city. In this structure the top and bottom chords of the central
+line of trussing are cast-iron water mains, bifurcated at the abutments,
+and joined by cast- and wrought-iron web members (see fig. 20).
+
+In the mid 1870's Bollman saw his truss pass into obsolescence. This was
+due primarily to the generally increasing distrust of cast iron for
+major structural members due to its brittleness, but advances in
+structural theory, availability of a greater variety of rolled
+structural shapes, and the increasing loading patterns of the period all
+contributed.
+
+[Illustration: Figure 23.--THE ONLY SURVIVING BOLLMAN TRUSS BRIDGE, at
+Savage, Maryland. The bridge was built elsewhere in 1852 and was moved
+to this now-abandoned Baltimore and Ohio industrial siding in about
+1888.]
+
+Although no Bollman trusses were built by Bollman or the B. & O. after
+1875, those in use were only removed as required by heavier motive
+power. The Harpers Ferry span, as noted, remained in full main-line
+service until 1894. Bollman trusses on feeder lines were continued in
+use until much later; a number of them on the Valley Railroad of
+Virginia (see fig. 22) were not removed until 1923. However, only on the
+most isolated spurs was the Bollman truss permitted to reach really ripe
+age. The sole known remaining example (fig. 23) stands on such a
+branch--ironically, at Savage, over the Little Patuxent, the site of the
+first Bollman span. This is not the 1850 bridge, but one built in 1852
+and moved to the present site 30 years later. The fate of the first span
+is not known.
+
+[Illustration: Figure 24.--HOT-WATER AND CHOCOLATE PITCHERS of the
+10-piece, silver tea service presented to Bollman by his fellow
+employees when he resigned from the Baltimore and Ohio in 1858. A
+railroad motif was used throughout, each piece being circled at top and
+bottom by a track, complete with rail of accurate section and ties.
+Spouts are in simulation of hexagonal sheet-iron chimneys, with seams
+riveted, and the handles are in the form of a surveyor's telescope. On
+the various pieces are engraved the designs of the more important B. &
+O. bridges. Throughout is a wonderful profusion of bits and objects of
+railroadiana in low relief, high relief, and fully modeled. In Board of
+Directors Room, Baltimore and Ohio Railroad Company, Baltimore, Md.
+(_Photo courtesy of Baltimore and Ohio Railroad._)]
+
+
+
+
+Known Bollman Works
+
+
+(All B. & O. works listed were designed by Bollman and built by the
+railroad, unless otherwise indicated.)
+
+ Dates of Location Type No. spans Remarks
+ service / length
+ of each
+
+ 1850-? Savage, Md., Little Bollman 1/76' First Bollman truss
+ Patuxent River through erected; granite towers;
+ truss cost, $23,825. B. & O. RR.
+
+ 1851-? Bladensburg, Md., Bollman 1/? Second Bollman truss
+ Anacostia River through erected; granite towers;
+ truss cost, $19,430. B. & O. RR.
+
+ 1851-1862 Harpers Ferry, Va., Bollman 1/124' Winchester span; first
+ Potomac River through major Bollman truss; three
+ truss lines of truss; granite
+ towers; blown up by
+ Confederate Army on
+ September 24, 1862.
+ B. & O. RR.
+
+ 1851-? Baltimore, Md., Trestle -- Wood trestle bents with
+ Carey Street wrought-iron diagonals.
+ First use of iron
+ structural members in
+ trestlework. Total length
+ 76 feet. B. & O. RR.
+
+ 1852- Savage, Md., Little Bollman 2/+-80' Still standing. Moved to
+ Patuxent River through Savage in 1888; original
+ truss location unknown. This and
+ succeeding Bollman trusses
+ use iron towers. B. & O.
+ RR.
+
+ 1852 (or Marriottsville, Bollman 1/50' One of first Bollman
+ 1853)-? Md., Patapsco River truss trusses with iron towers.
+ B. & O. RR.
+
+ 1853-? Zanesville, Ohio, Bollman 4/124' Double track, Central Ohio
+ Muskingum River truss (or RR. Designed by Bollman;
+ 5/160') built by Douglas, Smith &
+ Co., Zanesville.
+
+ 1854- Elysville (now Bollman 3/97'9" Upper bridge, skew. Cost,
+ 1870(?) Daniels), Md., through $24,477.59. B. & O. RR.
+ Patapsco River truss
+
+ 1854-1862 Monocacy, Md., Bollman 3/119' Blown up September 8,
+ Monocacy River truss 1862; rebuilt in 1864.
+ Cost, $22,722.59.
+ B. & O. RR.
+
+ 1854-? Eastern Ohio Bollman 1/40' C. O. RR. Section 76
+ truss(?) adjacent to 300-ft.
+ tunnel.
+
+ 1855-? Bridgeville, Ohio, Bollman 1/71' C. O. RR.
+ Salt Creek deck truss
+
+ Pre-1855-? Buffalo, N.Y. -- -- Unidentified. Mentioned by
+ George Vose in Railroad
+ Advocate (June 9, 1855).
+
+ 1856-? Elysville, Md., Bollman 3/111' Lower Bridge. B. & O. RR.
+ about 1-1/4 miles through
+ east of 1854 truss
+ bridge, Patapsco
+ River
+
+ Pre-1856-? Marriottsville, Bollman 1/48'9" Referred to as "Tunnel
+ Md. truss(?) Bridge" in B. & O. RR.
+ annual report, 1856.
+
+ 1856-? Near Ijamsville, "Iron 3/23'9" Possibly trussed beams;
+ Md., Bush Creek girders" mentioned in B. & O. RR.
+ annual report, 1856.
+
+ 1856-? Near Ijamsville, "Iron 2/23'9" As above.
+ Md., Bush Creek girders"
+
+ 1856- North Branch, Md., Bollman 3/142' Partially destroyed in
+ c.1862 Potomac River deck truss Civil War. B. & O. RR.
+
+ 1860-1906 Chile, Angostura Bollman 4/115' Chilean Railways.
+ River truss(?) Designed and built by
+ Bollman. Replaced by
+ bridge built by French
+ firm of Schneider,
+ Cruesot & Co.
+
+ 1860-1910 Chile, Paine River Bollman 1/? As above.
+ truss(?)
+
+ Post- Ilchester, Md., Bollman 1/? B. & O. RR.
+ 1860-? Patapsco River through
+ truss
+
+ Pre-1861-? Cuba Bridges -- All bridges on Havana
+ and RR., including iron
+ station station house and bridge
+ house at Guines. Designed and
+ built by Bollman.
+
+ Pre-1861-? Cuba Bridges -- All bridges on Cienfuegos
+ RR., Cardenas RR., and
+ Havana & Matanzas RR.
+ Designed and built by
+ Bollman.
+
+ Pre-1861-? Cuba Trestle -- Trestle with wrought-iron
+ columns (the first such
+ ever constructed). Havana
+ RR. Designed and built by
+ Bollman.
+
+ 1862-1862 Harpers Ferry, Va., Bollman 2/160' Span no. 3 (July 24) and
+ Potomac River through span no. 4 (August 21).
+ truss Blown up September 24,
+ 1862. B. & O. RR.
+
+ 1862-1936 Harpers Ferry, Va., Bollman 1/160' Span no. 5 (November).
+ Potomac River through B. & O. RR.
+ truss
+
+ 1863-1936 Harpers Ferry, Va., Bollman 3/160' Spans nos. 3, 4, and 5.
+ Potomac River through Constructed previous to
+ truss April 1863. B. & O. RR.
+
+ 1863-? Berwyn, Md., Paint Bollman ? Iron bridge mentioned in
+ Branch truss(?) B. & O. RR. annual report,
+ 1863.
+
+ 1863(4?)-? Clinton, Iowa, Pivot 1/360' Built by Detroit Bridge
+ Mississippi River draw & Iron Works. It was the
+ longest in the world at
+ time of completion.
+ Designed by Bollman.
+
+ 1864-? Laurel, Md., Bollman ? Replaced stone arch that
+ Patuxent River truss had been washed out. B. &
+ O. RR.
+
+ c. 1864-? Near Veracruz, Bollman 1/115' Veracruz & Jucaro RR.
+ Mexico, Medellin through First iron bridge in
+ River truss Mexico. Designed and
+ built by Bollman.
+
+ 1864-? Near Point of Bollman 1/80'(?) Iron bridge mentioned in
+ Rocks, Md., Back truss(?) B. & O. RR. annual
+ Creek report, 1864. The span
+ length given is that of
+ previous stone arch.
+
+ 1864-? Bladensburg, Md., Bollman 1/? Span for second track, to
+ Anacostia River truss match 1851 span. B. & O.
+ RR.
+
+ 1868-? Cape Fear, N.C., Bollman 2/146'6" Wilmington Railway Bridge
+ Northeast Branch, truss(?) 1/164' Co. This bridge was
+ Cape Fear River pivot connected to that over
+ draw/150' the Northwest Branch by
+ 2-1/2 miles of timber
+ trestling. Designed and
+ built by Bollman.
+
+ 1868-? Cape Fear, N.C., Bollman 1/217'(?) See above.
+ Northwest Branch, truss(?) pivot
+ Cape Fear River draw/150'
+
+ 1868-? Quincy, Ill., Bollman 4/85' Chicago, Burlington &
+ Quincy Bay (in deck pivot Quincy RR. The pivot draw
+ Mississippi River) truss draw/190' was formed of two 85-ft.
+ simple Bollman deck spans
+ whose outer ends hung from
+ hog chains. Designed by
+ Bollman; built by Detroit
+ Bridge & Iron Works.
+
+ 1869- Baltimore, Md., Warren 2/100' North Avenue Bridge.
+ c.1892 over Jones Falls, truss 2/55'6" Composite double
+ B. & O. RR., and intersection truss;
+ Northern Central timber top chord and
+ RR. posts, wrought-iron lower
+ chord and ties. In 55-ft.
+ spans, both chords
+ timber. Cost, $73,588.
+ Built by Bollman.
+
+ c.1869- Harpers Ferry, Va., Bollman 4/? Canal span (no. 8), Wide
+ 1936 Potomac River through span (no. 2), Winchester
+ truss span, and West End span.
+ Destroyed by flood in
+ 1936. B. & O. RR.
+
+ 1870- Baltimore, Md., Iron 1/108' Charles Street Bridge.
+ c.1895 Jones Falls "Isometrical Three lines of trussing.
+ truss" Cost, $20,297. Built by
+ (probably Bollman.
+ Pratt type)
+
+ 1870- Bellaire, Ohio- Bollman 9/107'- In approaches; 2 spans on
+ 1893 & Benwood W. Va., deck 125' Ohio side; 7 on West
+ 1900 Ohio River truss Virginia side. B. & O. RR.
+
+ 1870- Belpre, Ohio- Bollman 16/? In approaches; 7 spans on
+ c.1895 Parkersburg, W. deck Ohio side; 9 on West
+ Va., Ohio River truss Virginia side. B. & O. RR.
+
+ 1870-? Elysville, Md., Bollman 4/? Skew; replacement of
+ Patapsco River through Upper Bridge(?). B. & O.
+ truss RR.
+
+ 1871- Baltimore, Md., Timber ? Decker Street (now
+ c.1895 Jones Falls and iron Maryland Avenue) Bridge.
+ truss Cost, $24,975. Built by
+ Bollman.
+
+ 1871- Baltimore, Md., Warren 1/100' North Avenue Bridge.
+ c.1892 over Northern truss Composite double
+ Central RR. at intersection truss;
+ Jones Falls cast-iron top chord and
+ posts; wrought-iron
+ bottom chord and ties.
+ West span. Built by
+ Bollman.
+
+ 1873-1923 Cave Station, Va., Bollman 1/98'7" Valley Railroad of
+ Middle River deck 1/63'5" Virginia (B. & O.) Bridge
+ truss no. 120. The main span
+ was a Whipple deck truss.
+ Replaced with plate
+ girders. Designed by
+ Bollman.
+
+ 1873-1923 Mount Crawford, Bollman 2/98'6" Valley Railroad of
+ Va., North River deck 1/148'9" Virginia (B. & O.) Bridge
+ truss no. 117. Designed by
+ Bollman.
+
+ 1873-1923 Verona, Va., North Bollman 3/98'7" Valley Railroad of
+ River deck Virginia (B. & O.) Bridge
+ truss no. 129. The main span
+ was a 147-ft. Whipple
+ deck truss. Designed by
+ Bollman.
+
+ 1873-? Wadesville, Va., Bollman 1/147'8" Span length given is that
+ Opequon Creek through of previous wood span
+ truss that burned in 1862. B.
+ & O. RR.
+
+ c. 1873- Baltimore, Md. Iron roof ? First Presbyterian
+ trusses Church. Built by Bollman;
+ possibly designed by him.
+
+ 1873- Baltimore, Md. Cast-iron City Hall. Cost, $12,840.
+ stairs Designed by George A.
+ Frederick, architect;
+ built by Bollman.
+
+ 1873- Baltimore, Md. Cast-iron Dome of the City Hall.
+ framework Cost, $70,525. Designed
+ by George A. Frederick;
+ built by Bollman.
+
+ 1875- Baltimore, Md., Iron truss 1/? Fayette Street Bridge.
+ c.1913 Jones Falls Cost, $9,396. Built by
+ Bollman.
+
+ 1876- Baltimore, Md., "Single- 1/? Canton Avenue (now Fleet
+ c.1913 Jones Falls beam iron Street) Bridge. Cost,
+ bridge" $8,904. Built by Bollman.
+ (truss?)
+
+ 1876- Baltimore, Md., "Single- 1/? Eastern Avenue Bridge.
+ c.1913 Jones Falls beam iron Cost, $12,382. Built by
+ bridge" Bollman.
+ (truss?)
+
+ 1877- Baltimore, Md., Pratt and 1/88'6" Lombard Street Bridge.
+ Jones Falls bowstring Three lines of truss;
+ truss two outer trusses,
+ composite cast- and
+ wrought-iron polygonal
+ Pratt type; center
+ composite bowstring with
+ Pratt-system web. Both
+ chords are cast-iron
+ water mains, bifurcated
+ at the end bearings;
+ cast-iron posts and
+ wrought-iron ties. In
+ service. Cost, $7,632.
+ Designed by Jas. Curran,
+ Baltimore water
+ department; built by
+ Bollman.
+
+ 1877- Baltimore, Md., Iron truss 1/? Bath Street Bridge. Cost,
+ c.1913 Jones Falls $4,172. Built by Bollman.
+
+ 1879-? Baltimore, Md. Drawbridge 1/? Over entrance to City
+ Dock. Cost, $13,182.
+ Built by Bollman.
+
+ 1879- Baltimore, Md., Warren 2/173'9" North Street (now
+ c.1930 over Jones Falls truss Guilford Avenue) Bridge.
+ and railroad Composite trusses;
+ tracks cast-iron top chord and
+ end posts; wrought-iron
+ bottom chord and web
+ members. Cost, $38,772.45.
+ Built by Bollman;
+ designed by Latrobe.
+
+ 1881-1960 Baltimore, Md., Wrought- 1/? Union Avenue Bridge.
+ (Woodberry), iron Pratt Built by Bollman;
+ Jones Falls truss possibly designed by him.
+
+ ?-? Harpers Ferry, Va., Bollman 1/148' Arsenal Branch, B. & O.
+ Arsenal Canal through RR. Skew type. Span
+ truss length is that of
+ previous timber span.
+
+ ?-? Baltimore, Md., Bollman 2/? B. & O. RR.
+ Gwynns Falls through
+ truss
+
+
+
+
+BIBLIOGRAPHY
+
+
+_A history and description of the Baltimore and Ohio Railroad by a
+citizen of Baltimore._ Baltimore, 1853.
+
+Baltimore and Ohio Railroad Company. _A list of the officers and
+employees of the Baltimore and Ohio Railroad for November, 1857._
+Baltimore, 1857.
+
+----. _Third annual report of the president and directors to the
+stockholders of the Baltimore and Ohio Rail Road Company._ Baltimore:
+1829. (Also the fourth through 38th annual reports. Baltimore,
+1830-1864.)
+
+----. _Baltimore and Ohio exhibits at the Century of Progress._ Chicago,
+1934.
+
+_Biographical cyclopedia of representative men of Maryland and the
+District of Columbia._ Baltimore, 1879.
+
+BOLLMAN, WENDEL. _Iron suspension and trussed bridge as constructed for
+the Baltimore and Ohio Rail Road Co. at Harper's Ferry, and on the
+Washington branch of this road._ Baltimore, 1852.
+
+----. Letter to John W. Garrett dated June 17, 1862. In files of
+Division of Mechanical and Civil Engineering, United States National
+Museum, Washington, D.C.
+
+----. _Report of Mr. Bollman in relation to Central Ohio Rail Road._
+Baltimore, 1854.
+
+BRYANT, WILLIAM C. _Picturesque America._ New York, 1874.
+
+CLARKE, THOMAS CURTIS. _An account of the iron railway bridge across the
+Mississippi River at Quincy, Illinois._ New York, 1869.
+
+COLBURN, ZERAH. American iron bridges. _Minutes of the proceedings of
+the Institution of Mechanical Engineers_ (1863), vol. 22, pp. 540-573.
+
+CONDIT, CARL. _American building art:--The nineteenth century._ New
+York: Oxford Press, 1960.
+
+GRAY, GEORGE E. Notes on early practice in bridge building.
+_Transactions of the American Society of Civil Engineers_ (1897), vol.
+37, pp. 2-16.
+
+GREINER, JOHN E. The American railroad viaduct--Its origin and
+evolution. _Transactions of the American Society of Civil Engineers_
+(1891), vol. 25, pp. 349-372.
+
+LANG, PHILIP GEORGE. Bollman trusses on Valley of Virginia Branch will
+soon be memories. _Baltimore and Ohio Magazine_ (October 1923), pp.
+18-19.
+
+----. The old Baltimore and Ohio bridge crossing the Potomac River at
+Harpers Ferry, West [sic] Virginia. _Engineering News-Record_ (September
+17, 1931), p. 446.
+
+MALEZIEUX, EMILE. _Travaux publics des Etats-Unis d'Amerique en 1870._
+Paris, 1873.
+
+MCDOWELL, W. H. Unpublished engineer's report to the president and
+directors of Wilmington Railway Bridge Company, Wilmington, North
+Carolina, dated March 12, 1868. Typewritten copy in files of Division of
+Mechanical and Civil Engineering, U.S. National Museum, Washington, D.C.
+
+SMITH, CHARLES SHALER. _Comparative analysis of the Fink, Murphy,
+Bollman and triangular trusses._ Baltimore, 1865.
+
+SMITH, WILLIAM P. _The book of the great railway celebrations of 1857._
+Baltimore, 1858.
+
+TYRRELL, HENRY G. _History of bridge engineering._ Chicago, 1911.
+
+WHIPPLE, SQUIRE. _Bridge building._ Albany, New York, 1869.
+
+
+U.S. GOVERNMENT PRINTING OFFICE: 1964
+
+For sale by the Superintendent of Documents, U.S. Government Printing
+Office Washington D.C. 20402 - Price 70 cents
+
+
+
+
+INDEX
+
+
+Bollman, W., and Company, 91, 92
+
+Bollman, Wendel, 79, 80, 85, 88, 94
+
+
+Clark, John, 91
+
+
+Fink, Albert, 79, 91
+
+
+Grubenmann, Hans, 85
+
+Grubenmann, Johann Ulrich, 85
+
+
+Haupt, Herman, 96
+
+
+Knight, ----, 83
+
+
+Latrobe, Benjamin H., 82, 83, 85, 87
+
+Long, Stephen H., 85
+
+
+Meigs, M. C., 96
+
+Morris, Tasker and Company, 94
+
+Mount Clair shops, 83, 89, 92
+
+
+Patapsco Bridge and Iron Works, 92, 95
+
+Phoenix Iron Works, 92
+
+Pratt, Thomas W., 91
+
+
+Reeves, Samuel J., 92, 95
+
+Roebling, John A., 83, 90
+
+
+Savage Factory, 88
+
+Stephenson, Robert, 90
+
+
+Tegmeyer, John H., 91
+
+Town, Ithiel, 85
+
+
+Wernwag, Lewis, 89
+
+Whipple, Squire, 79, 83, 87, 91, 95
+
+Whistler, George W., 83
+
+Winans, Ross, 83
+
+Wright, Benjamin, 83
+
+
+
+
+
+End of the Project Gutenberg EBook of The Engineering Contributions of
+Wendel Bollman, by Robert M. Vogel
+
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