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1 machine-tool manufacture
Большой англо-русский и русско-английский словарь > machine-tool manufacture
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2 machine-tool manufacture
Англо-русский технический словарь > machine-tool manufacture
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3 machine-tool manufacture
Техника: станкостроениеУниверсальный англо-русский словарь > machine-tool manufacture
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4 machine tool manufacture
<mech.eng> ■ Zeugmaschinenbau mEnglish-german technical dictionary > machine tool manufacture
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5 machine-tool manufacture
English-Russian scientific dictionary > machine-tool manufacture
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6 machine-tool manufacture
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7 machine-tool
1) станок
2) станкостроительный
– machine-tool manufacture
– machine-tool plant
– setting-up of machine-tool -
8 machine-tool steel
English-Russian big polytechnic dictionary > machine-tool steel
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9 manufacture
1) производство
2) выработка
3) изготовление
4) обработка
5) изделия
6) фабрикаты
7) выделывать
8) производить
9) обрабатывать
10) изготавливать
– clothing manufacture
– cotton manufacture
– leather manufacture
– license to manufacture
– machine-tool manufacture
– manufacture acetylene
– textile manufacture -
10 manufacture
1) производство; изготовление || производить; изготовлять2) обработка || обрабатывать3) выработка; выделка || вырабатывать; выделывать4) изделие, продукт•license to manufacture — лицензия на производство; лицензия на изготовление
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11 machine
machine [mə'ʃi:n]1 noun(a) (mechanical device) machine f;∎ to do sth by machine or on a machine faire qch à la machine∎ he thinks she's just a machine for doing housework il la considère comme une machine à faire le ménage;∎ a thinking machine une machine à penser∎ the party machine l'appareil m du parti(e) (computer) ordinateur m►► the machine age l'ère f de la machine;Computing machine code code m machine;machine gun mitrailleuse f;machine intelligence intelligence f artificielle;Computing machine language langage m machine;machine operator opérateur(trice) m,f (sur machine);machine pistol mitraillette f, pistolet m mitrailleur;machine room salle f des machines;machine shop atelier m d'usinage;machine time temps-machine m;machine tool machine-outil f;machine tool operator machiniste mf;Computing machine translation traduction f assistée par ordinateur -
12 machine
1. n машина, механизмadding machine — счётная машина; арифмометр
machine for testing — испытательная машина, машина для испытаний
American machine — тигельная машина «американка»
2. n вчт. машина, ЭВМ3. n автомат, машина4. n станок5. n транспортное средство; автомобиль, самолёт, велосипед6. n амер. разг. пожарная машинаplant-top removing machine — ботвоудаляющая машина, ботворез
7. n механизм8. n аппаратstate machine — государственный аппарат, государственная машина
the conflict set the state machine in motion — из-за этого конфликта пришла в движение вся государственная машина
9. v подвергать механической обработке; обрабатывать на станке10. v разг. печататьСинонимический ряд:1. car (noun) auto; autocar; automobile; buggy; car; motor; motorcar2. drudge (noun) automaton; drudge; golem; grind; laborer; labourer; robot3. mechanism (noun) computer; contrivance; device; engine; gadget; implement; instrument; mechanism; tool4. organisation (noun) line-up; movement; organisation; organization; ring5. manufacture (verb) die; drill; lathe; manufacture; plane; shape; tool; turn; weld -
13 станкостроение
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14 станкостроение
Русско-английский научно-технический словарь Масловского > станкостроение
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15 станкостроение
1) General subject: engineering tools2) Engineering: machine tool building, machine tool industry, machine-tool manufacture3) Automation: machine tool technology, machine-tool building, machine-tool industry -
16 Zeugmaschinenbau
m < masch> ■ machine tool manufacture -
17 станкостроение
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18 Brown, Joseph Rogers
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 26 January 1810 Warren, Rhode Island, USAd. 23 July 1876 Isles of Shoals, New Hampshire, USA[br]American machine-tool builder and co-founder of Brown \& Sharpe.[br]Joseph Rogers Brown was the eldest son of David Brown, who was modestly established as a maker of and dealer in clocks and watches. Joseph assisted his father during school vacations and at the age of 17 left to obtain training as a machinist. In 1829 he joined his father in the manufacture of tower clocks at Pawtucket, Rhode Island, and two years later went into business for himself in Pawtucket making lathes and small tools. In 1833 he rejoined his father in Providence, Rhode Island, as a partner in the manufacture of docks, watches and surveying and mathematical instruments. David Brown retired in 1841.J.R.Brown invented and built in 1850 a linear dividing engine which was the first automatic machine for graduating rules in the United States. In 1851 he brought out the vernier calliper, the first application of a vernier scale in a workshop measuring tool. Lucian Sharpe was taken into partnership in 1853 and the firm became J.R.Brown \& Sharpe; in 1868 the firm was incorporated as the Brown \& Sharpe Manufacturing Company.In 1855 Brown invented a precision gear-cutting machine to make clock gears. The firm obtained in 1861 a contract to make Wilcox \& Gibbs sewing machines and gave up the manufacture of clocks. At about this time F.W. Howe of the Providence Tool Company arranged for Brown \& Sharpe to make a turret lathe required for the manufacture of muskets. This was basically Howe's design, but Brown added a few features, and it was the first machine tool built for sale by the Brown \& Sharpe Company. It was followed in 1862 by the universal milling machine invented by Brown initially for making twist drills. Particularly for cutting gear teeth, Brown invented in 1864 a formed milling cutter which could be sharpened without changing its profile. In 1867 the need for an instrument for checking the thickness of sheet material became apparent, and in August of that year J.R.Brown and L.Sharpe visited the Paris Exhibition and saw a micrometer calliper invented by Jean Laurent Palmer in 1848. They recognized its possibilities and with a few developments marketed it as a convenient, hand-held measuring instrument. Grinding lathes were made by Brown \& Sharpe in the early 1860s, and from 1868 a universal grinding machine was developed, with the first one being completed in 1876. The patent for this machine was granted after Brown's sudden death while on holiday.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven: Yale University Press; repub. 1926, New York and 1987, Bradley, Ill.: Lindsay Publications Inc. (further details of Brown \& Sharpe Company and their products).R.S.Woodbury, 1958, History of the Gear-Cutting Machine, Cambridge, Mass.: MIT Press ——, 1959, History of the Grinding Machine, Cambridge, Mass.: MIT Press.——, 1960, History of the Milling Machine, Cambridge, Mass.: MIT Press.RTS -
19 Howe, Frederick Webster
[br]b. 28 August 1822 Danvers, Massachusetts, USAd. 25 April 1891 Providence, Rhode Island, USA[br]American mechanical engineer, machine-tool designer and inventor.[br]Frederick W.Howe attended local schools until the age of 16 and then entered the machine shop of Gay \& Silver at North Chelmsford, Massachusetts, as an apprentice and remained with that firm for nine years. He then joined Robbins, Kendall \& Lawrence of Windsor, Vermont, as Assistant to Richard S. Lawrence in designing machine tools. A year later (1848) he was made Plant Superintendent. During his time with this firm, Howe designed a profiling machine which was used in all gun shops in the United States: a barrel-drilling and rifling machine, and the first commercially successful milling machine. Robbins \& Lawrence took to the Great Exhibition of 1851 in London, England, a set of rifles built on the interchangeable system. The interest this created resulted in a visit of some members of the British Royal Small Arms Commission to America and subsequently in an order for 150 machine tools, jigs and fixtures from Robbins \& Lawrence, to be installed at the small-arms factory at Enfield. From 1853 to 1856 Howe was in charge of the design and building of these machines. In 1856 he established his own armoury at Newark, New Jersey, but transferred after two years to Middletown, Connecticut, where he continued the manufacture of small arms until the outbreak of the Civil War. He then became Superintendent of the armoury of the Providence Tool Company at Providence, Rhode Island, and served in that capacity until the end of the war. In 1865 he went to Bridgeport, Connecticut, to assist Elias Howe with the manufacture of his sewing machine. After the death of Elias Howe, Frederick Howe returned to Providence to join the Brown \& Sharpe Manufacturing Company. As Superintendent of that establishment he worked with Joseph R. Brown in the development of many of the firm's products, including machinery for the Wilcox \& Gibbs sewing machine then being made by Brown \& Sharpe. From 1876 Howe was in business on his own account as a consulting mechanical engineer and in his later years he was engaged in the development of shoe machinery and in designing a one-finger typewriter, which, however, was never completed. He was granted several patents, mainly in the fields of machine tools and firearms. As a designer, Howe was said to have been a perfectionist, making frequent improvements; when completed, his designs were always sound.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; repub. 1926, New York, and 1987, Bradley, 111. (provides biographical details).R.S.Woodbury, 1960, History of the Milling Machine, Cambridge, Mass, (describes Howe's contribution to the development of the milling machine).RTSBiographical history of technology > Howe, Frederick Webster
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20 Herbert, Sir Alfred Edward
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 5 September 1866 Leicester, Englandd. 26 May 1957 Kings Somborne, Hampshire, England[br]English mechanical engineer and machine-tool manufacturer.[br]Alfred Herbert was educated at Stoneygate School, Leicester, and served an apprenticeship with Joseph Jessop \& Sons, also of Leicester, from 1881 to 1886. In 1887 he was engaged as Manager of a small engineering firm in Coventry, and before the end of that year he purchased the business in partnership with William Hubbard. They commenced the manufacture of machine-tools especially for the cycle industry. Hubbard withdrew from the partnership in 1890 and Herbert continued on his own account, the firm being established as a limited liability company, Alfred Herbert Ltd, in 1894. A steady expansion of the business continued, especially after the introduction of their capstan lathe, and by 1914 it was the largest manufacturer of machine-tools in Britain. In addition to making machine-tools of all types for the home and export market, the firm acted as an agent for the import of specialist machine-tools from abroad. During the First World War Alfred Herbert was in 1915 appointed head of machine-tool production at the War Office and when the Ministry of Munitions was set up he was transferred to that Ministry as Controller of Machine Tools. He was President of the Machine Tools Trades Association from 1919 to 1934. He was elected a member of the Institution of Mechanical Engineers in 1892 and in 1921 was a founder member of the Institution of Production Engineers. Almost to the end of his long life he continued to take an active part in the direction of his company. He expressed his views on current events affecting industry in the technical press and in his firm's house journal.[br]Principal Honours and DistinctionsKBE 1917. Officier de la Légion d'honneur 1917. Order of St Stanislas of Russia 1918. Order of Leopold of Belgium 1918. Freeman of the City of Coventry 1933. President, Institution of Production Engineers 1927–9. Honorary Member, Institution of Mechanical Engineers 1941.Bibliography1948, Shots at the Truth, Coventry (a selection of his speeches and writings).Further ReadingD.J.Jeremy (ed.), 1984–6, Dictionary of Business Biography, Vol. 3, London, pp. 174–7 (a useful account).Obituary, 1957, Engineering, 183:680.RTSBiographical history of technology > Herbert, Sir Alfred Edward
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