First published in 1978. This biography aims solve the problem of the lack of access to information regarding American engineers and technologists of the nineteenth-century, whilst also providing opportunities for scholars to study and assess the work of hitherto little known, potentially important figures. This title will be of interest to scholars and students of science and history.
Herrin (former staff historian for the Historic American Engineering Record program) presents an illustrative history of the engineering infrastructure of the 19th century United States. Photographs and drawings provide details of aqueducts, mills, bridges, mines, manufacturing devices, railroads, canals, dams, water works, and other structural asp
Technology, which has significantly changed Western man's way of life over the past century, exerted a powerful influence on American society during the third quarter of the nineteenth century. In this study Raymond H. Merritt focuses on the engineering profession, in order to describe not only the vital role that engineers played in producing a technological society but also to note the changes they helped to bring about in American education, industry, professional status, world perspectives, urban existence, and cultural values. During the development period of 1850-1875, engineers erected bridges, blasted tunnels, designed machines, improved rivers and harbors, developed utilities necessary for urban life, and helped to bind the continent together through new systems of transportation and communication. As a concomitant to this technological development, states Merritt, they introduced a new set of cultural values that were at once urban and cosmopolitan. These cultural values tended to reflect the engineers' experience of mobility—so much a part of their lives—and their commitment to efficiency, standardization, improved living conditions, and a less burdensome life. Merritt concludes from his study that the rapid growth of the engineering profession was aided greatly by the introduction of new teaching methods which emphasized and encouraged the solution of immediate problems. Schools devoted exclusively to the education and training of engineers flourished—schools such as Rensselaer Polytechnic Institute and Stevens Institute of Technology. Moreover, business corporations and governments sought the services of the engineers to meet the new technological demands of the day. In response, they devised methods and materials that went beyond traditional techniques. Their specialized experiences in planning, constructing, and supervising the early operation of these facilities brought them into positions of authority in the new business concerns, since they often were the only qualified men available for the executive positions of authority for the executive positions of America's earliest large corporations. These positions of authority further extended their influence in American society. Engineers took a positive view of administration, developed systems of cost accounting, worked out job descriptions, defined levels of responsibility, and played a major role in industrial consolidation. Despite their close association with secular materialism, Merritt notes that many engineers expressed the hope that human peace and happiness would result from technical innovation and that they themselves could devote their technological knowledge, executive experience, and newly acquired status to solve some of the critical problems of communal life. Having begun merely as had become the planners and, in many cases, municipal enterprises which they hoped would turn a land of farms and cities into a "social eden."
Winner, 2010 Peter Neaverson Award, Association for Industrial Archaeology Patrick M. Malone demonstrates how innovative engineering helped make Lowell, Massachusetts, a potent symbol of American industrial prowess in the 19th century. Waterpower spurred the industrialization of the early United States and was the principal power for textile manufacturing until well after the Civil War. Industrial cities therefore grew alongside many of America’s major waterways. Ideally located at Pawtucket Falls on the Merrimack River, Lowell was one such city—a rural village rapidly transformed into a booming center for textile production and machine building. Malone explains how engineers created a complex canal and lock system in Lowell which harnessed the river and powered mills throughout the city. James B. Francis, arguably the finest engineer in 19th-century America, played a key role in the history of Lowell’s urban industrial development. An English immigrant who came to work for Lowell’s Proprietors of Locks and Canals as a young man, Francis rose to become both the company’s chief engineer and its managing executive. Linking Francis’s life and career with the larger story of waterpower in Lowell, Malone offers the only complete history of the design, construction, and operation of the Lowell canal system. Waterpower in Lowell informs broader understanding of urban industrial development, American scientific engineering, and the environmental impacts of technology. Its clear and instructional discussions of hydraulic technology and engineering principles make it a useful resource for a range of courses, including the history of technology, urban history, and American business history.
Boothby presents a comprehensive explanation of the empirical, graphical, and analytical design techniques used during the late nineteenth century in the construction of both buildings and bridges in wood, stone, brick, and iron.
Engineering America narrates how Johann August Röbling, the third child of a provincial German tobacconist, became John A. Roebling, world-renowned American engineer, wealthy manufacturer, and designer of the Brooklyn Bridge and other great engineering feats of nineteenth-century America.
Engineers are empire-builders. Watt, Brunel, and others worked to build and expand personal and business empires of material technology and in so doing these engineers also became active agents of political and economic empire. This book provides a fascinating exploration of the cultural construction of the large-scale technologies of empire.
French-born and self-trained civil engineer Octave Chanute designed America's two largest stockyards, created innovative and influential structures such as the Kansas City Bridge over the previously "unbridgeable" Missouri River, and was a passionate aviation pioneer whose collaborative approach to aeronautical engineering problems encouraged other experimenters, including the Wright brothers. Drawing on rich archival material and exclusive family sources, Locomotive to Aeromotive is the first detailed examination of Chanute's life and his immeasurable contributions to engineering and transportation, from the ground transportation revolution of the mid-nineteenth century to the early days of aviation. Aviation researcher and historian Simine Short brings to light in colorful detail many previously overlooked facets of Chanute's professional and personal life. In the late nineteenth century, few considered engineering as a profession on par with law or medicine, but Chanute devoted much time and energy to the newly established professional societies that were created to set standards and serve the needs of civil engineers. Though best known for his aviation work, he became a key figure in the opening of the American continent by laying railroad tracks and building bridges, experiences that later gave him the engineering knowledge to build the first stable aircraft structure. Chanute also introduced a procedure to treat wooden railroad ties with an antiseptic that increased the wood’s lifespan in the tracks. Establishing the first commercial plants, he convinced railroad men that it was commercially feasible to make money by spending money on treating ties to conserve natural resources. He next introduced the date nail to help track the age and longevity of railroad ties. A versatile engineer, Chanute was known as a kind and generous colleague during his career. Using correspondence and other materials not previously available to scholars and biographers, Short covers Chanute's formative years in antebellum America as well as his experiences traveling from New Orleans to New York, his apprenticeship on the Hudson River Railroad, and his early engineering successes. His multiple contributions to railway expansion, bridge building, and wood preservation established his reputation as one of the nation's most successful and distinguished civil engineers. Instead of retiring, he utilized his experiences and knowledge as a bridge builder in the development of motorless flight. Through the reflections of other engineers, scientists, and pioneers in various fields who knew him, Short characterizes Chanute as a man who believed in fostering and supporting people who were willing to learn. This well-researched biography cements Chanute's place as a preeminent engineer and mentor in the history of transportation in the United States and the development of the airplane.
Focusing on globalization in the late nineteenth and early twentieth centuries, Jessica Teisch examines the processes by which American water and mining engineers who rose to prominence during and after the California Gold Rush of 1849 exported the United