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Robert Stephenson M.P., F.R.S., Hon.MA, Hon DCL (1803-1859) was the leading engineer of his day. He was acclaimed for his development of the main-line steam locomotive and renowned for his innovations in bridge building. He built the first trunk railway line in the world between London and Birmingham, was at the centre of the railway ’mania’ that gripped early Victorian Britain, and by 1850 had been responsible for one third of the railway network in England. Robert Stephenson - The Eminent Engineer is the first biographical study to be devoted to Robert Stephenson for over a century, and is fully illustrated in black-and-white and colour. Written by a team of experts in railway and engineering history, chapters explore Stephenson’s early training and work with his father, George and examine his influence and achievements in railway development, noting his advocacy of planning, rather than an unbridled free market. They also examine his innovation and techniques in railway and bridge building and port and water engineering. Not least they consider Stephenson’s public face - the immense recognition he won as a person who contributed to the transformation of society by opening up communications and transport, and his career as a respected arbitrator, MP, and Commissioner for the Great Exhibition of 1851.
Robert Stephenson M.P., F.R.S., Hon.MA, Hon DCL (1803-1859) was the leading engineer of his day. He was acclaimed for his development of the main-line steam locomotive and renowned for his innovations in bridge building. He built the first trunk railway line in the world between London and Birmingham, was at the centre of the railway 'mania' that gripped early Victorian Britain, and by 1850 had been responsible for one third of the railway network in England. Robert Stephenson - The Eminent Engineer is the first biographical study to be devoted to Robert Stephenson for over a century, and is fully illustrated in black-and-white and colour. Written by a team of experts in railway and engineering history, chapters explore Stephenson's early training and work with his father, George and examine his influence and achievements in railway development, noting his advocacy of planning, rather than an unbridled free market. They also examine his innovation and techniques in railway and bridge building and port and water engineering. Not least they consider Stephenson's public face - the immense recognition he won as a person who contributed to the transformation of society by opening up communications and transport, and his career as a respected arbitrator, MP, and Commissioner for the Great Exhibition of 1851.
Robert Stephenson, the leading engineer of the mid-nineteenth century whose substantial public works brought about considerable social change is now the subject of this excellent new biography: Robert Stephenson - The Eminent Engineer. Stephenson's engineering practice was responsible for major railway building programmes in Britain and overseas. He oversaw the building of many bridges, particularly the innovative tubular bridges in North Wales and was influential in the development of England's railway network. Stephenson's engineering practice in Westminster, whose many associates were engaged throughout England, were responsible for substantial railway building programmes during the 'mania' years of the 1840s. By 1850, he was associated with one third of the railway network. His overseas railway involvements included building many miles of line and developing national transport plans. Robert Stephenson - The Eminent Engineer also considers Stephenson's public roles and shows how he was perceived by his contemporaries. Stephenson was a Member of Parliament and Commissioner for the Great Exhibition, was well respected as an arbitrator, received several British and overseas honours and was President of both the Institutions of Civil and Mechanical Engineering.
New edition of succesful George & Robert Stephenson biography
John Roebling was one of the nineteenth century's most brilliant engineers, ingenious inventors, successful manufacturers, and fascinating personalities. Raised in a German backwater amid the war-torn chaos of the Napoleonic Wars, he immigrated to the US in 1831, where he became wealthy and acclaimed, eventually receiving a carte-blanche contract to build one of the nineteenth century's most stupendous and daring works of engineering: a gigantic suspension bridge to span the East River between New York and Brooklyn. In between, he thought, wrote, and worked tirelessly. He dug canals and surveyed railroads; he planned communities and founded new industries. Horace Greeley called him "a model immigrant"; generations later, F. Scott Fitzgerald worked on a script for the movie version of his life. Like his finest creations, Roebling was held together by the delicate balance of countervailing forces. On the surface, his life was exemplary and his accomplishments legion. As an immigrant and employer, he was respected throughout the world. As an engineer, his works profoundly altered the physical landscape of America. He was a voracious reader, a fervent abolitionist, and an engaged social commentator. His understanding of the natural world, however, bordered on the occult and his opinions about medicine are best described as medieval. For a man of science and great self-certainty, he was also remarkably quick to seize on a whole host of fads and foolish trends. Yet Roebling held these strands together. Throughout his life, he believed in the moral application of science and technology, that bridges--along with other great works of connection, the Atlantic Cable, the Transcontinental Railroad--could help bring people together, erase divisions, and heal wounds. Like Walt Whitman, Roebling was deeply committed to the creation of a more perfect union, forged from the raw materials of the continent. John Roebling was a complex, deeply divided yet undoubtedly influential figure, and this biography illuminates not only his works but also the world of nineteenth-century America. Roebling's engineering feats are well known, but the man himself is not; for alongside the drama of large scale construction lies an equally rich drama of intellectual and social development and crisis, one that mirrored and reflected the great forces, trials, and failures of nineteenth century America.
Building Knowledge, Constructing Histories brings together the papers presented at the Sixth International Congress on Construction History (6ICCH, Brussels, Belgium, 9-13 July 2018). The contributions present the latest research in the field of construction history, covering themes such as: - Building actors - Building materials - The process of building - Structural theory and analysis - Building services and techniques - Socio-cultural aspects - Knowledge transfer - The discipline of Construction History The papers cover various types of buildings and structures, from ancient times to the 21st century, from all over the world. In addition, thematic papers address specific themes and highlight new directions in construction history research, fostering transnational and interdisciplinary collaboration. Building Knowledge, Constructing Histories is a must-have for academics, scientists, building conservators, architects, historians, engineers, designers, contractors and other professionals involved or interested in the field of construction history. This is volume 1 of the book set.
Building Knowledge, Constructing Histories brings together the papers presented at the Sixth International Congress on Construction History (6ICCH, Brussels, Belgium, 9-13 July 2018). The contributions present the latest research in the field of construction history, covering themes such as: - Building actors - Building materials - The process of building - Structural theory and analysis - Building services and techniques - Socio-cultural aspects - Knowledge transfer - The discipline of Construction History The papers cover various types of buildings and structures, from ancient times to the 21st century, from all over the world. In addition, thematic papers address specific themes and highlight new directions in construction history research, fostering transnational and interdisciplinary collaboration. Building Knowledge, Constructing Histories is a must-have for academics, scientists, building conservators, architects, historians, engineers, designers, contractors and other professionals involved or interested in the field of construction history.
Dow's Dictionary of Railway Quotations is an authoritative compendium of quotations about railways from 1608 to the present day. More than 3,400 entries are drawn from over 1,300 writers and speakers and a wide range of original sources both British and American—Acts of Parliament, poetry, songs, journals, advertisements, obituaries, novels, histories, plays, films, office memoranda, speeches, newspapers, television and radio broadcasts, and private documents and conversations. Here Andrew Dow records remarkable, memorable words—from the well-known to the abstruse, from the commonplace to the vital. The selected quotations are arranged by subject matter and searchable by speaker, subject, and keyword. Dow's Dictionary will inform and captivate railway enthusiasts along with readers interested in railway architecture, engineering, geography, and history.
Physical models have been, and continue to be used by engineers when faced with unprecedented challenges, when engineering science has been non-existent or inadequate, and in any other situation when the engineer has needed to raise their confidence in a design proposal to a sufficient level to begin construction. For this reason, models have mostly been used by designers and constructors of highly innovative projects, when previous experience has not been available. The book covers the history of using of physical models in the design and development of civil and building engineering projects including bridges in the mid-18th century, William Fairbairn?s Britannia bridge in the 1840s, the masonry Aswan Dam in the 1890s, concrete dams in the 1920s, thin concrete shell roofs and the dynamic behaviour of tall buildings in earthquakes from the 1930s, tidal flow in estuaries and the acoustics of concert halls from the 1950s, and cable-net and membrane structures in the 1960s. Traditionally, progress in engineering has been attributed to the creation and use of engineering science, the understanding materials properties and the development of new construction methods. The book argues that the use of reduced scale models have played an equally important part in the development of civil and building engineering. However, like the history of engineering design itself, this crucial contribution has not been widely reported or celebrated. The book concludes with reviews of the current use of physical models alongside computer models, for example, in boundary layer wind tunnels, room acoustics, seismic engineering, hydrology, and air flow in buildings.