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1 все скорости были
Русско-английский научно-технический словарь переводчика > все скорости были
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2 clock
̈ɪklɔk I
1. сущ.
1) часы( стенные, настольные, башенные) like a clock
2) разг. счетчик taximeter, speedometer, milometer
3) время It is five o'clock. ≈ Сейчас пять часов. ∙ the clock strikes for him ≈ настал его час to put/set back the clock ≈ (пытаться) повернуть назад колесо истории;
задерживать развитие
2. гл.
1) измерять( время или другие параметры, связанные со временем), фиксировать время, хронометрировать wind velocities were clocked at 80 miles per hour ≈ по данным приборов, скорость ветра составляла 80 миль в час Syn: time
2) спорт показать результат( по времени)
3) сильно бить, ударять
4) брит. осуществлять, выполнять, достигнуть Syn: realize, attain ∙ clock in clock off clock on clock out clock up II сущ. стрелка( на одежде, сделанной из эластичной ткани) часы (настольные, стенные, башенные) - hanging * висячие часы - the face of a * циферблат часов - to wind a * завести часы - to put the * on переставить часы вперед - the * is fast часы спешат - the * gains часы идут вперед табельные часы-автомат, таймер - * card хронокарта;
карта контрольных часов биологические часы( организма) - circannual * регулятор годичной жизнедеятельности время - what o'clock is it? который час? - it is five o'clock пять часов (грубое) "вывеска", лицо, рожа - he sat there with a grin all over his * он сидел и ухмылялся во весь рот( разговорное) таксометр, счетчик такси( разговорное) спидометр( разговорное) счетчик пройденного пути( автомобиля) - like a * как часы;
пунктуально, точно, аккуратно - when one's * strikes когда пробьет час - to set back the * тормозить развитие;
повернуть вспять колесо истории - around the * круглые сутки - to sleep the * round проспать двенадцать часов подряд или круглые сутки - to work against the * работать с большим напряжением, чтобы выполнить задание в срок - to kill the *, to run out the * тянуть время (в футболе) хронометрировать время (на скачках, состязаниях) (спортивное) показывать время - to * the best time показать лучшее время засекать время прихода на работу и ухода с работы (с помощью автоматического приспособления) (грубое) дать по морде - I'll * you one if you annoy me again будешь еще ко мне приставать, получишь в морду стрелка на чулке (украшение) (диалектизм) сидеть на яйцах( диалектизм) кудахтать clock включать в работу ~ генератор синхронизирующих импульсов ~ вчт. генератор тактовых импульсов ~ задающий генератор ~ засекать время прихода на работу и ухода с работы ~ контрольные часы ~ отмечать время прихода на работу (in, on) или ухода с работы (out, off) на специальных часах ~ подавать тактовые импульсы ~ спорт. показать время;
he clocked
11. 6 seconds for the 80 metres hurdles он показал время 11,6 секунды в барьерном беге на 80 метров ~ показывать время ~ синхронизатор ~ синхронизация ~ синхронизировать ~ синхронизирующие импульсы ~ стрелка (чулка) ~ схема синхронизации ~ тактирование ~ вчт. тактовые импульсы ~ тактовые импульсы ~ хронометрировать ~ часы (стенные, настольные, башенные) ;
like a clock пунктуально;
he worked the clock round он проработал круглые сутки ~ вчт. часы ~ часы ~ in отмечать время прихода на работу ~ out отмечать время ухода с работы what o'~ is it? который час?;
the clock strikes for him настал его час;
to put (или to set) back the clock = (пытаться) повернуть назад колесо истории;
задерживать развитие control ~ вчт. синхронизация управления day ~ вчт. часы истинного времени elapsed time ~ вчт. часы использованного времени external ~ вчт. внешняя синхронизация ~ спорт. показать время;
he clocked
11. 6 seconds for the 80 metres hurdles он показал время 11,6 секунды в барьерном беге на 80 метров ~ часы (стенные, настольные, башенные) ;
like a clock пунктуально;
he worked the clock round он проработал круглые сутки what o'~ is it? который час?;
it is six o'clock шесть часов ~ часы (стенные, настольные, башенные) ;
like a clock пунктуально;
he worked the clock round он проработал круглые сутки master ~ вчт. генератор синхроимпульсов multiphase ~ вчт. многофазная синхронизация on-chip ~ вчт. внутрикристальный генератор operating time ~ вчт. часы общего времени работы program addressable ~ вчт. часы с возможностью обращения из программы pulse ~ вчт. импульсный синхронизирующий сигнал what o'~ is it? который час?;
the clock strikes for him настал его час;
to put (или to set) back the clock = (пытаться) повернуть назад колесо истории;
задерживать развитие random ~ вчт. случайный синхронизирующий импульс real time ~ вчт. часы реального времени real-time ~ вчт. датчик истинного времени real-time ~ вчт. часы истинного времени ~ спорт. показать время;
he clocked
11. 6 seconds for the 80 metres hurdles он показал время 11,6 секунды в барьерном беге на 80 метров simulation ~ вчт. час модельного времени simulation ~ вчт. часы модельного времени single-phase ~ вчт. однофазная стнхронизация time ~ таймер time-of-day ~ вчт. датчик истинного времени time-of-day ~ вчт. часы истинного времени timer ~ вчт. датчик времени timer ~ вчт. таймер what o'~ is it? который час?;
the clock strikes for him настал его час;
to put (или to set) back the clock = (пытаться) повернуть назад колесо истории;
задерживать развитие what o'~ is it? который час?;
it is six o'clock шесть часов -
3 всего
. в сумме•All told (or Altogether) there are more than 20,000 items distributed by the firm.
•A total of eight holes is drilled at the first working station.
* * *Всего -- in all, in sum, total of, all told (итого, в общей сложности); only, but, as low as, as brief as (только, не более чем, всего лишь)In all, two distinct regions of flow were separately visualized.This was repeated twice more so that, in all, four different thermocouple installations were used.A total of twenty-two injection taps were installed.Tilly's tests were conducted at 104 m/s, while in this investigation velocities as low as 10 m/s at room temperature were employed.—завершён всего наРусско-английский научно-технический словарь переводчика > всего
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4 Bodmer, Johann Georg
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Railways and locomotives, Steam and internal combustion engines, Textiles, Weapons and armour[br]b. 9 December 1786 Zurich, Switzerlandd. 30 May 1864 Zurich, Switzerland[br]Swiss mechanical engineer and inventor.[br]John George Bodmer (as he was known in England) showed signs of great inventive ability even as a child. Soon after completing his apprenticeship to a local millwright, he set up his own work-shop at Zussnacht. One of his first inventions, in 1805, was a shell which exploded on impact. Soon after this he went into partnership with Baron d'Eichthal to establish a cotton mill at St Blaise in the Black Forest. Bodmer designed the water-wheels and all the machinery. A few years later they established a factory for firearms and Bodmer designed special machine tools and developed a system of interchangeable manufacture comparable with American developments at that time. More inventions followed, including a detachable bayonet for breech-loading rifles and a rifled, breech-loading cannon for 12 lb (5.4 kg) shells.Bodmer was appointed by the Grand Duke of Baden to the posts of Director General of the Government Iron Works and Inspector of Artillery. He left St Blaise in 1816 and entered completely into the service of the Grand Duke, but before taking up his duties he visited Britain for the first time and made an intensive five-month tour of textile mills, iron works, workshops and similar establishments.In 1821 he returned to Switzerland and was engaged in setting up cotton mills and other engineering works. In 1824 he went back to England, where he obtained a patent for his improvements in cotton machinery and set up a mill near Bolton incorporating his ideas. His health failing, he was obliged to return to Switzerland in 1828, but he was soon busy with engineering works there and in France. In 1833 he went to England again, first to Bolton and four years later to Manchester in partnership with H.H.Birley. In the next ten years he patented many more inventions in the fields of textile machinery, steam engines and machine tools. These included a balanced steam engine, a mechanical stoker, steam engine valve gear, gear-cutting machines and a circular planer or vertical lathe, anticipating machines of this type later developed in America by E.P. Bullard. The metric system was used in his workshops and in gearing calculations he introduced the concept of diametral pitch, which then became known as "Manchester Pitch". The balanced engine was built in stationary form and in two locomotives, but although their running was remarkably smooth the additional complication prevented their wider use.After the death of H.H.Birley in 1846, Bodmer removed to London until 1848, when he went to Austria. About 1860 he returned to his native town of Zurich. He remained actively engaged in all kinds of inventions up to the end of his life. He obtained fourteen British patents, each of which describes many inventions; two of these patents were extended beyond the normal duration of fourteen years. Two others were obtained on his behalf, one by his brother James in 1813 for his cannon and one relating to railways by Charles Fox in 1847. Many of his inventions had little direct influence but anticipated much later developments. His ideas were sound and some of his engines and machine tools were in use for over sixty years. He was elected a Member of the Institution of Civil Engineers in 1835.[br]Bibliography1845, "The advantages of working stationary and marine engines with high-pressure steam, expansively and at great velocities; and of the compensating, or double crank system", Minutes of the Proceedings of the Institution of Civil Engineers 4:372–99.1846, "On the combustion of fuel in furnaces and steam-boilers, with a description of Bodmer's fire-grate", Minutes of the Proceedings of the Institution of Civil Engineers 5:362–8.Further ReadingObituary, 1868–9, Minutes of the Proceedings of the Institution of Civil Engineers 28:573–608.H.W.Dickinson, 1929–30, "Diary of John George Bodmer, 1816–17", Transactions of the Newcomen Society 10:102–14.D.Brownlie, 1925–6, John George Bodmer, his life and work, particularly in relation to the evolution of mechanical stoking', Transactions of the Newcomen Society 6:86–110.W.O.Henderson (ed.), 1968, Industrial Britain Under the Regency: The Diaries of Escher, Bodmer, May and de Gallois 1814–1818, London: Frank Cass (a more complete account of his visit to Britain).RTS -
5 Herbert, Edward Geisler
[br]b. 23 March 1869 Dedham, near Colchester, Essex, Englandd. 9 February 1938 West Didsbury, Manchester, England[br]English engineer, inventor of the Rapidor saw and the Pendulum Hardness Tester, and pioneer of cutting tool research.[br]Edward Geisler Herbert was educated at Nottingham High School in 1876–87, and at University College, London, in 1887–90, graduating with a BSc in Physics in 1889 and remaining for a further year to take an engineering course. He began his career as a premium apprentice at the Nottingham works of Messrs James Hill \& Co, manufacturers of lace machinery. In 1892 he became a partner with Charles Richardson in the firm of Richardson \& Herbert, electrical engineers in Manchester, and when this partnership was dissolved in 1895 he carried on the business in his own name and began to produce machine tools. He remained as Managing Director of this firm, reconstituted in 1902 as a limited liability company styled Edward G.Herbert Ltd, until his retirement in 1928. He was joined by Charles Fletcher (1868–1930), who as joint Managing Director contributed greatly to the commercial success of the firm, which specialized in the manufacture of small machine tools and testing machinery.Around 1900 Herbert had discovered that hacksaw machines cut very much quicker when only a few teeth are in operation, and in 1902 he patented a machine which utilized this concept by automatically changing the angle of incidence of the blade as cutting proceeded. These saws were commercially successful, but by 1912, when his original patents were approaching expiry, Herbert and Fletcher began to develop improved methods of applying the rapid-saw concept. From this work the well-known Rapidor and Manchester saws emerged soon after the First World War. A file-testing machine invented by Herbert before the war made an autographic record of the life and performance of the file and brought him into close contact with the file and tool steel manufacturers of Sheffield. A tool-steel testing machine, working like a lathe, was introduced when high-speed steel had just come into general use, and Herbert became a prominent member of the Cutting Tools Research Committee of the Institution of Mechanical Engineers in 1919, carrying out many investigations for that body and compiling four of its Reports published between 1927 and 1933. He was the first to conceive the idea of the "tool-work" thermocouple which allowed cutting tool temperatures to be accurately measured. For this advance he was awarded the Thomas Hawksley Gold Medal of the Institution in 1926.His best-known invention was the Pendulum Hardness Tester, introduced in 1923. This used a spherical indentor, which was rolled over, rather than being pushed into, the surface being examined, by a small, heavy, inverted pendulum. The period of oscillation of this pendulum provided a sensitive measurement of the specimen's hardness. Following this work Herbert introduced his "Cloudburst" surface hardening process, in which hardened steel engineering components were bombarded by steel balls moving at random in all directions at very high velocities like gaseous molecules. This treatment superhardened the surface of the components, improved their resistance to abrasion, and revealed any surface defects. After bombardment the hardness of the superficially hardened layers increased slowly and spontaneously by a room-temperature ageing process. After his retirement in 1928 Herbert devoted himself to a detailed study of the influence of intense magnetic fields on the hardening of steels.Herbert was a member of several learned societies, including the Manchester Association of Engineers, the Institute of Metals, the American Society of Mechanical Engineers and the Institution of Mechanical Engineers. He retained a seat on the Board of his company from his retirement until the end of his life.[br]Principal Honours and DistinctionsManchester Association of Engineers Butterworth Gold Medal 1923. Institution of Mechanical Engineers Thomas Hawksley Gold Medal 1926.BibliographyE.G.Herbert obtained several British and American patents and was the author of many papers, which are listed in T.M.Herbert (ed.), 1939, "The inventions of Edward Geisler Herbert: an autobiographical note", Proceedings of the Institution of Mechanical Engineers 141: 59–67.ASD / RTSBiographical history of technology > Herbert, Edward Geisler
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6 если не указано иначе
•The analysis presented here pertains to the operation of a single 6697A triode, unless otherwise specified (or stated, or indicated) (or except as otherwise noted).
* * *Если не оговорено особо / указано иначеAll the plastic strain ratios are defined by incremental plastic strains unless otherwise stated.All samples used in the reactor experiments were -140 + 200 mesh unless otherwise noted.Unless specified, velocities and lengths are normalized by the area averaged velocity.Русско-английский научно-технический словарь переводчика > если не указано иначе
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7 если не оговорено особо
Если не оговорено особо / указано иначеAll the plastic strain ratios are defined by incremental plastic strains unless otherwise stated.All samples used in the reactor experiments were -140 + 200 mesh unless otherwise noted.Unless specified, velocities and lengths are normalized by the area averaged velocity.Русско-английский научно-технический словарь переводчика > если не оговорено особо
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8 позволять
Позволять - to allow, to permit, to enable; can (давать возможность, делать возможным); to allow for (давать возможность); to make it possible (делать возможным); to provide a means. Кроме того, некоторые русские штампы вроде "позволяет избежать", "позволяет предположить", "позволяет прояснить", "позволяет исключить", "позволяет использовать", "позволяет отметить", "позволяет сравнить", переводятся на английский без эквивалента слова "позволять", т.е. как avoids, suggests, clarifies, eliminates, makes use of, conveys, contrasts.This allows us to hope that the eighties will see the common presence of truly interactive computer aided design environments envisioned in the sixties.The hydraulic motor driving the dresser allowed for testing at speed ratios only up to v/V = 1.1.It [equation] enables the designer to predict the minimum load required to prevent gross skidding of the bearing elements.The counter makes it possible to distinguish between different particles which have velocities very close to one another.The L parameter is also similarly affected in that steelmaking practice can significantly change L in all cross-sections.A flange at the top of the model provided a means to remove and replace the individual tube supports.II Давать разрешение / позволять-- If you leave the room for any reason, you will not be allowed to finish the test.—не позволяет надеяться наРусско-английский научно-технический словарь переводчика > позволять
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