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1 American Society of Civil Engineers
Универсальный русско-английский словарь > American Society of Civil Engineers
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2 american Society of Civil Engineers
Англо-русский словарь промышленной и научной лексики > american Society of Civil Engineers
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3 Fellow of the American Society of Civil Engineers
Abbreviation: FASCEУниверсальный русско-английский словарь > Fellow of the American Society of Civil Engineers
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4 ASCE
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5 Bond, George Meade
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 17 July 1852 Newburyport, Massachusetts, USAd. 6 January 1935 Hartford, Connecticut, USA[br]American mechanical engineer and metrologist, co-developer of the Rogers- Bond Comparator.[br]After leaving school at the age of 17, George Bond taught in local schools for a few years before starting an apprenticeship in a machine shop in Grand Rapids, Michigan. He then worked as a machinist with Phoenix Furniture Company in that city until his savings permitted him to enter the Stevens Institute of Technology at Hoboken, New Jersey, in 1876. He graduated with the degree of Mechanical Engineer in 1880. In his final year he assisted William A.Rogers, Professor of Astronomy at Harvard College Observatory, Cambridge, Massachusetts, in the design of a comparator for checking standards of length. In 1880 he joined the Pratt \& Whitney Company, Hartford, Connecticut, and was Manager of the Standards and Gauge Department from then until 1902. During this period he developed cylindrical, calliper, snap, limit, thread and other gauges. He also designed the Bond Standard Measuring Machine. Bond was elected a member of the American Society of Mechanical Engineers in 1881 and of the American Society of Civil Engineers in 1887, and served on many of their committees relating to standards and units of measurement.[br]Principal Honours and DistinctionsVice-President, American Society of Mechanical Engineers 1908–10. Honorary degrees of DEng, Stevens Institute of Technology 1921, and MSc, Trinity College, Hartford, 1927.Bibliography1881. "Standard measurements", Transactions of the American Society of Mechanical Engineers 2:81.1882. "A standard gauge system", Transactions of the American Society of MechanicalEngineers 3:122.1886, "Standard pipe and pipe threads", Transactions of the American Society of Mechanical Engineers 7:311.1887. Standards of Length and Their Practical Application, Hartford.Further Reading"Report of the Committee on Standards and Gauges", 1883, Transactions of the American Society of Mechanical Engineers 4:21–9 (describes the Rogers-Bond Comparator).RTS -
6 Rowland, Thomas Fitch
SUBJECT AREA: Mining and extraction technology[br]b. 15 March 1831 New Haven, Connecticut, USAd. 13 December 1907 New York City, USA[br]American engineer and manufacturer, inventor of off-shore drilling.[br]The son of a grist miller, Rowland worked in various jobs until 1859 when he established his own business for the construction of wooden and iron steamships and for structural iron works, in Greenpoint, Long Island, New York. In 1860 he founded the Continental Works and during the American Civil War he started manufacturing gun carriages and mortar beds. He fitted out many vessels for the navy, and as a contractor for John Ericsson he built heavily armoured war vessels.He continued shipbuilding, but later diversified his business. He devoted great attention to the design of gas-works, constructing innovative storage facilities all over the United States, and he was concerned with the improvement of welding iron and steel plates and other processes in the steel industry. In the late 1860s he also began the manufacture of steam-engines and boilers for use in the new but expanding oil industry. In 1869 he took out a patent for a fixed platform for drilling for oil off-shore up to a depth of 15 m (49 ft). With this idea, just ten years after Edwin Drake's success in on-shore oil drilling in Titusville, Pennsylvania, Rowland pioneered the technology of off-shore drilling for petroleum in which the United States later became the leading nation.[br]Principal Honours and DistinctionsAmerican Society of Civil Engineers: Director 1871–3, Vice-President 1886–7, Honorary Member 1899.Further Reading"Thomas Fitch Rowland", Dictionary of American Biography.1909, "Memoir", Transactions of the American Society of Civil Engineers 62:547–9.WK -
7 Taylor, David Watson
SUBJECT AREA: Ports and shipping[br]b. 4 March 1864 Louisa County, Virginia, USAd. 29 July 1940 Washington, DC, USA[br]American hydrodynamicist and Rear Admiral in the United States Navy Construction Corps.[br]Taylor's first years were spent on a farm in Virginia, but at the age of 13 he went to RandolphMacon College, graduating in 1881, and from there to the US Naval Academy, Annapolis. He graduated at the head of his class, had some sea time, and then went to the Royal Naval College in Greenwich, England, where in 1888 he again came top of the class with the highest-ever marks of any student, British or overseas.On his return to the United States he held various posts as a constructor, ending this period at the Mare Island Navy Yard in California. In 1894 he was transferred to Washington, where he joined the Bureau of Construction and started to interest the Navy in ship model testing. Under his direction, the first ship model tank in the United States was built at Washington and for fourteen years operated under his control. The work of this establishment gave him the necessary information to write the highly acclaimed text The Speed and Power of Ships, which with revisions is still in use. By the outbreak of the First World War he was one of the world's most respected naval architects, and had been retained as a consultant by the British Government in the celebrated case of the collision between the White Star Liner Olympic and HMS Hawke.In December 1914 Taylor became a Rear-Admiral and was appointed Chief Constructor of the US Navy. His term of office was extremely stressful, with over 1,000 ships constructed for the war effort and with the work of the fledgling Bureau for Aeronautics also under his control. The problems were not over in 1918 as the Washington Treaty required drastic pruning of the Navy and a careful reshaping of the defence force.Admiral Taylor retired from active service at the beginning of 1923 but retained several consultancies in aeronautics, shipping and naval architecture. For many years he served as consultant to the ship-design company now known as Gibbs and Cox. Many honours came his way, but the most singular must be the perpetuation of his name in the David Taylor Medal, the highest award of the Society of Naval Architects and Marine Engineers in the United States. Similarly, the Navy named its ship test tank facility, which was opened in Maryland in 1937, the David W. Taylor Model Basin.[br]Principal Honours and DistinctionsPresident, Society of Naval Architects and Marine Engineers 1925–7. United States Distinguished Service Medal. American Society of Civil Engineers John Fritz Medal. Institution of Naval Architects Gold Medal 1894 (the first American citizen to receive it). Society of Naval Architects and Marine Engineers David W.Taylor Medal 1936 (the first occasion of this award).BibliographyResistance of Ships and Screw Propulsion. 1911, The Speed and Power of Ships, New York: Wiley.Taylor gave many papers to the Maritime Institutions of both the United States and the United Kingdom.FMW -
8 Roebling, Washington Augustus
SUBJECT AREA: Civil engineering[br]b. 26 May 1837 Saxonburg, Pennsylvania, USAd. 21 July 1926 Trenton, New Jersey, USA.[br]American civil engineer.[br]The son of John Augustus Roebling, he graduated in 1857 from the Rensselaer Polytechnic Institute as a civil engineer, and joined his father in his suspension bridge construction work. He served in the Civil War as a colonel of engineers in the Union Army, and in 1867, two years after the end of the war, he went to Europe to study new methods of sinking underwater foundations by means of compressed air. These new methods were employed in the construction of the Brooklyn Bridge, of which he took charge on his father's death in 1869. Timber pneumatic caissons were used, with a maximum pressure of 34 psi (2.4 kg/cm2) above atmospheric pressure. Two years after work on the piers had started in the caissons, Roebling, who had been working constantly with the men on the foundations of the piers, was carried unconscious out of the caisson, a victim of decompression sickness, then known as “caisson disease”. He was paralysed and lost the use of his voice. From then on he directed the rest of the work from the sickroom of his nearby house, his wife, Emily Warren Roebling, helping with his instructions and notes and carrying them out to the workforce; she even read a statement from him to the American Society of Civil Engineers. The erection of the cables, which were of steel, began in August 1876 and took twenty-six months to complete. In 1881 eleven trustees and Emily Warren Roebling walked across temporary planking, but the decking of the total span was not completed until 1885, fourteen years after construction of the bridge had started. The Brooklyn Bridge was Roebling's last major work, although following the death of his nephew in 1921 he was forced to head again the management of Roebling \& Company, though aged 84 and an invalid.[br]Further ReadingD.B.Steinman and S.R.Watson, 1941, Bridges and their Builders, New York: Dover Books.D.McCullough, 1982, The Great Bridge: The Epic Story of the Building of the BrooklynBridge, New York: Simon \& Schuster.IMcNBiographical history of technology > Roebling, Washington Augustus
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9 Американское общество инженеров гражданского строительства
2) Sakhalin energy glossary: American Society of Civil Engineers (ASCE; АОИГС)Универсальный русско-английский словарь > Американское общество инженеров гражданского строительства
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10 Американское общество инженеров-строителей
1) Cartography: American society of Civil Engineers2) Drilling: ASCE (American Society of Civil Engineers)Универсальный русско-английский словарь > Американское общество инженеров-строителей
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11 Американское общество инженеров гражданского строительства
Русско-английский словарь нормативно-технической терминологии > Американское общество инженеров гражданского строительства
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12 Американское общество инженеров-строителей
Американское общество инженеров-строителей
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > Американское общество инженеров-строителей
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13 Whipple, Squire
SUBJECT AREA: Civil engineering[br]b. 1804 Hardwick, Massachusetts, USAd. 15 March 1888 Albany, New York, USA[br]American civil engineer, author and inventor.[br]The son of James and Electa Whipple, his father was a farmer and later the owner of a small cotton mil at Hardwick, Massachusetts. In 1817 Squire Whipple moved with his family to Otego County, New York. He helped on the farm and attended the academy at Fairfield, Herkimer County. For a time he taught school pupils, and in 1829 he entered Union College, Schenectady, where he received the degree of AB in 1830; his interest in engineering was probably aroused by the construction of the Erie Canal near his home during his boyhood. He was first employed in a minor capacity in surveys for the Baltimore and Ohio Railroad and for the Erie Canal. In 1836–7 he was resident engineer for a division of the New York and Erie Railroad and was also employed in a number of other railroad and canal surveys, making surveying instruments in the intervals between these appointments; in 1840, he completed a lock for weighing canal boats.Whipple received his first bridge patent on 24 April 1841; this was for a truss of arched upper chord made of cast and wrought iron. Five years later, he devised a trapezoidal truss which was used in the building of many bridges over the succeeding generation. In 1852–3 Whipple used his truss in an iron railroad bridge of 44.5 m (146 ft) span on the Rensselaer and Saratoga Railroad. He also built a number of bridges with lifting spans.Whipple's main contribution to bridge engineering was the publication in 1847 of A Work on Bridge Building. In 1869 he issued a continuation of this treatise, and a fourth edition of both was published in 1883.[br]Principal Honours and DistinctionsHonorary Member, American Society of Civil Engineers.IMcN -
14 Американское общество гражданских инженеров
1) General subject: American Society of Civil Engineers2) Oil: ASCEУниверсальный русско-английский словарь > Американское общество гражданских инженеров
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15 Общество инженеров гражданского строительства США
Engineering: American Society of Civil EngineersУниверсальный русско-английский словарь > Общество инженеров гражданского строительства США
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16 Общество инженеров-строителей США
Engineering: American Society of Civil EngineersУниверсальный русско-английский словарь > Общество инженеров-строителей США
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17 член Американского общества гражданских инженеров
General subject: Fellow of the American Society of Civil EngineersУниверсальный русско-английский словарь > член Американского общества гражданских инженеров
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18 CEQM
Committee on Environmental Quality Management — Комитет по управлению качеством окружающей среди ( при Обществе гражданских инженеров США)Committee on Environmental Quality Management of the American Society of Civil Engineers, Sanitary Engineering Division — Комитет по управлению качеством окружающей среды при Американском обществе гражданских инженеров, отделе санитарной техники -
19 SMDASCE
surveying and mapping division of the american society of civil engineers — Отделение геодезии и картографии при Американском обществе гражданских инженеровАнгло-русский словарь промышленной и научной лексики > SMDASCE
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20 Whitworth, Sir Joseph
[br]b. 21 December 1803 Stockport, Cheshire, Englandd. 22 January 1887 Monte Carlo, Monaco[br]English mechanical engineer and pioneer of precision measurement.[br]Joseph Whitworth received his early education in a school kept by his father, but from the age of 12 he attended a school near Leeds. At 14 he joined his uncle's mill near Ambergate, Derbyshire, to learn the business of cotton spinning. In the four years he spent there he realized that he was more interested in the machinery than in managing a cotton mill. In 1821 he obtained employment as a mechanic with Crighton \& Co., Manchester. In 1825 he moved to London and worked for Henry Maudslay and later for the Holtzapffels and Joseph Clement. After these years spent gaining experience, he returned to Manchester in 1833 and set up in a small workshop under a sign "Joseph Whitworth, Tool Maker, from London".The business expanded steadily and the firm made machine tools of all types and other engineering products including steam engines. From 1834 Whitworth obtained many patents in the fields of machine tools, textile and knitting machinery and road-sweeping machines. By 1851 the company was generally regarded as the leading manufacturer of machine tools in the country. Whitworth was a pioneer of precise measurement and demonstrated the fundamental mode of producing a true plane by making surface plates in sets of three. He advocated the use of the decimal system and made use of limit gauges, and he established a standard screw thread which was adopted as the national standard. In 1853 Whitworth visited America as a member of a Royal Commission and reported on American industry. At the time of the Crimean War in 1854 he was asked to provide machinery for manufacturing rifles and this led him to design an improved rifle of his own. Although tests in 1857 showed this to be much superior to all others, it was not adopted by the War Office. Whitworth's experiments with small arms led on to the construction of big guns and projectiles. To improve the quality of the steel used for these guns, he subjected the molten metal to pressure during its solidification, this fluid-compressed steel being then known as "Whitworth steel".In 1868 Whitworth established thirty annual scholarships for engineering students. After his death his executors permanently endowed the Whitworth Scholarships and distributed his estate of nearly half a million pounds to various educational and charitable institutions. Whitworth was elected an Associate of the Institution of Civil Engineers in 1841 and a Member in 1848 and served on its Council for many years. He was elected a Member of the Institution of Mechanical Engineers in 1847, the year of its foundation.[br]Principal Honours and DistinctionsBaronet 1869. FRS 1857. President, Institution of Mechanical Engineers 1856, 1857 and 1866. Hon. LLD Trinity College, Dublin, 1863. Hon. DCL Oxford University 1868. Member of the Smeatonian Society of Civil Engineers 1864. Légion d'honneur 1868. Society of Arts Albert Medal 1868.Bibliography1858, Miscellaneous Papers on Mechanical Subjects, London; 1873, Miscellaneous Papers on Practical Subjects: Guns and Steel, London (both are collections of his papers to technical societies).1854, with G.Wallis, The Industry of the United States in Machinery, Manufactures, andUseful and Ornamental Arts, London.Further ReadingF.C.Lea, 1946, A Pioneer of Mechanical Engineering: Sir Joseph Whitworth, London (a short biographical account).A.E.Musson, 1963, "Joseph Whitworth: toolmaker and manufacturer", Engineering Heritage, Vol. 1, London, 124–9 (a short biography).D.J.Jeremy (ed.), 1984–6, Dictionary of Business Biography, Vol. 5, London, 797–802 (a short biography).W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford (describes Whitworth's machine tools).RTS
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