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81 пускаться во все тяжкие
пускаться во все тяжкие (нелёгкие), тж. пускаться во вся тяжкая уст.1) ( безудержно предаваться чему-либо предосудительному) cf. go to the bad; cast prudence to the winds; fling (throw) one's cap over the mill; go on the spree; go on a bat (a bender, a blind); go all lengthsУтешительный.
Помнишь, Швохнев, свою брюнетку, что называл ты пиковой дамой? Где-то она теперь, сердечная? Чай, пустилась во все тяжкие. (Н. Гоголь, Игроки) — Uteshitelny. Remember that brunette of yours, Shvokhnev, the one you called the Queen of Spades? Where is she now, the darling? She's really gone to the bad by now, I expect.- Госпожа эта, - возразил князь с усмешкою, - пустилась теперь во все тяжкие. Он, может быть, у ней в пятом или четвёртом нумере... (А. Писемский, Тысяча душ) — 'The lady,' interrupted the Count scornfully, 'has gone all lengths. He may be fourth or fifth on her list...'
2) (прибегать к любым средствам для достижения желаемого; работать в полную силу) lay oneself out to do smth.; do smth. for all one is worth; work good and hardКузнец часто задумывался, случалось, пережигал поковку, а иногда в перекур говорил заковыристо и темно: - Вот, брат Гришка, стучим мы с тобой во все тяжкие, а дела на рыбью ногу. Оттесняет нас жизнь на задний двор, чтоб нас не задирали... (Н. Грибачёв, Кузница) — Often he became absorbed in silent thought and overheated the piece he was forging, and sometimes during the break for a smoke he would say queer gloomy things: 'That's the way it is, Grisha, my lad, we hammer away for all we are worth - and where do we find ourselves? Life shoves us into the back-yard so that we won't put on airs...'
Русско-английский фразеологический словарь > пускаться во все тяжкие
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82 press
пресс; тиски; II прессовать; нажимать; штамповать- press filter - press forging - press forming - press home - press in - press mould - press off - press on - press plate - press plate set - press-work - assembling press - automatic press - bolt-heading press -
83 assembling
n сборка; установка, монтажСинонимический ряд:1. convention (noun) assemblage; assembly; congress; convention; gathering; meeting; mob; party; throng2. making (verb) building; constructing; erecting; fabricating; fashioning; forging; forming; framing; making; manufacturing; molding; moulding; producing; put together; putting together; shaping3. meeting (verb) calling; closing; clustering; collecting; congregating; convening; converging; convoking; forgathering; gathering; get together; grouping; marshalling; meeting; mustering; raising; rendezvousing; round up; rounding up; summoning -
84 pressure
1. n давление, надавливание; сжатие2. n давление, воздействие; нажимpopulation pressure — давление избытка населения; экономическое перенаселение; демографическое давление
3. n чрезмерная эксплуатация или использование4. n затруднительные обстоятельства, трудное положение5. n гнёт6. n неотложность, безотлагательность7. n спец. давление; сжатиеpressure zone — зона повышенного давления; зона нагнетания
8. n метеор. атмосферное давление9. n тех. прессование, вдавливание10. n редк. эл. напряжение11. n редк. печатаниеprinting pressure — давление печатания, натиск
12. n отпечатокСинонимический ряд:1. coercion (noun) coercion; constraint; insistence; persuasion2. force (noun) duress; force; influence; potency; power; violence3. strain (noun) burden; demand; obligation; repression; strain; stress; tension; urgency4. push (verb) coerce; compel; constrain; drive; force; impel; insist; make; oblige; overpress; press; prod; push; urgeАнтонимический ряд: -
85 facing rough
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86 заготовка
1. ж. bar; billet; bloom; slab2. ж. feed3. ж. blank -
87 Barber, John
[br]baptized 22 October 1734 Greasley, Nottinghamshire, Englandd. 6 November 1801 Attleborough, Nuneaton, England[br]English inventor of the gas turbine and jet propulsion.[br]He was the son of Francis Barber, coalmaster of Greasley, and Elizabeth Fletcher. In his will of 1765. his uncle, John Fletcher, left the bulk of his property, including collieries and Stainsby House, Horsley Woodhouse, Derbyshire, to John Barber. Another uncle, Robert, bequeathed him property in the next village, Smalley. It is clear that at this time John Barber was a man of considerable means. On a tablet erected by John in 1767, he acknowledges his debt to his uncle John in the words "in remembrance of the man who trained him up from a youth". At this time John Barber was living at Stainsby House and had already been granted his first patent, in 1766. The contents of this patent, which included a reversible water turbine, and his subsequent patents, suggest that he was very familiar with mining equipment, including the Newcomen engine. It comes as rather a surprise that c.1784 he became bankrupt and had to leave Stainsby House, evidently moving to Attleborough. In a strange twist, a descendent of Mr Sitwell, the new owner, bought the prototype Akroyd Stuart oil engine from the Doncaster Show in 1891.The second and fifth (final) patents, in 1773 and 1792, were concerned with smelting and the third, in 1776, featured a boiler-mounted impulse steam turbine. The fourth and most important patent, in 1791, describes and engine that could be applied to the "grinding of corn, flints, etc.", "rolling, slitting, forging or battering iron and other metals", "turning of mills for spinning", "turning up coals and other minerals from mines", and "stamping of ores, raising water". Further, and importantly, the directing of the fluid stream into smelting furnaces or at the stern of ships to propel them is mentioned. The engine described comprised two retorts for heating coal or oil to produce an inflammable gas, one to operate while the other was cleansed and recharged. The resultant gas, together with the right amount of air, passed to a beam-operated pump and a water-cooled combustion chamber, and then to a water-cooled nozzle to an impulse gas turbine, which drove the pumps and provided the output. A clear description of the thermodynamic sequence known as the Joule Cycle (Brayton in the USA) is thus given. Further, the method of gas production predates Murdoch's lighting of the Soho foundry by gas.It seems unlikely that John Barber was able to get his engine to work; indeed, it was well over a hundred years before a continuous combustion chamber was achieved. However, the details of the specification, for example the use of cooling water jackets and injection, suggest that considerable experimentation had taken place.To be active in the taking out of patents over a period of 26 years is remarkable; that the best came after bankruptcy is more so. There is nothing to suggest that the cost of his experiments was the cause of his financial troubles.[br]Further ReadingA.K.Bruce, 1944, "John Barber and the gas turbine", Engineer 29 December: 506–8; 8 March (1946):216, 217.C.Lyle Cummins, 1976, Internal Fire, Carnot Press.JB -
88 Perkins, Jacob
[br]b. 9 July 1766 Newburyport, Massachusetts, USAd. 30 July 1849 London, England[br]American inventor of a nail-making machine and a method of printing banknotes, investigator of the use of steam at very high pressures.[br]Perkins's occupation was that of a gold-and silversmith; while he does not seem to have followed this after 1800, however, it gave him the skills in working metals which he would continue to employ in his inventions. He had been working in America for four years before he patented his nail-making machine in 1796. At the time there was a great shortage of nails because only hand-forged ones were available. By 1800, other people had followed his example and produced automatic nail-making machines, but in 1811 Perkins' improved machines were introduced to England by J.C. Dyer. Eventually Perkins had twenty-one American patents for a range of inventions in his name.In 1799 Perkins invented a system of engraving steel plates for printing banknotes, which became the foundation of modern siderographic work. It discouraged forging and was adopted by many banking houses, including the Federal Government when the Second United States Bank was inaugurated in 1816. This led Perkins to move to Philadelphia. In the intervening years, Perkins had improved his nail-making machine, invented a machine for graining morocco leather in 1809, a fire-engine in 1812, a letter-lock for bank vaults and improved methods of rolling out spoons in 1813, and improved armament and equipment for naval ships from 1812 to 1815.It was in Philadelphia that Perkins became interested in the steam engine, when he met Oliver Evans, who had pioneered the use of high-pressure steam. He became a member of the American Philosophical Society and conducted experiments on the compressibility of water before a committee of that society. Perkins claimed to have liquified air during his experiments in 1822 and, if so, was the real discoverer of the liquification of gases. In 1819 he came to England to demonstrate his forgery-proof system of printing banknotes, but the Bank of England was the only one which did not adopt his system.While in London, Perkins began to experiment with the highest steam pressures used up to that time and in 1822 took out his first of nineteen British patents. This was followed by another in 1823 for a 10 hp (7.5 kW) engine with only 2 in. (51 mm) bore, 12 in. (305 mm) stroke but a pressure of 500 psi (35 kg/cm2), for which he claimed exceptional economy. After 1826, Perkins abandoned his drum boiler for iron tubes and steam pressures of 1,500 psi (105 kg/cm2), but the materials would not withstand such pressures or temperatures for long. It was in that same year that he patented a form of uniflow cylinder that was later taken up by L.J. Todd. One of his engines ran for five days, continuously pumping water at St Katherine's docks, but Perkins could not raise more finance to continue his experiments.In 1823 one his high-pressure hot-water systems was installed to heat the Duke of Wellington's house at Stratfield Saye and it acquired a considerable vogue, being used by Sir John Soane, among others. In 1834 Perkins patented a compression ice-making apparatus, but it did not succeed commercially because ice was imported more cheaply from Norway as ballast for sailing ships. Perkins was often dubbed "the American inventor" because his inquisitive personality allied to his inventive ingenuity enabled him to solve so many mechanical challenges.[br]Further ReadingHistorical Society of Pennsylvania, 1943, biography which appeared previously as a shortened version in the Transactions of the Newcomen Society 24.D.Bathe and G.Bathe, 1943–5, "The contribution of Jacob Perkins to science and engineering", Transactions of the Newcomen Society 24.D.S.L.Cardwell, 1971, From Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (includes comments on the importance of Perkins's steam engine).A.F.Dufton, 1940–1, "Early application of engineering to warming of buildings", Transactions of the Newcomen Society 21 (includes a note on Perkins's application of a high-pressure hot-water heating system).RLH -
89 кувалда для свободной ковки
Русско-английский новый политехнический словарь > кувалда для свободной ковки
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Work hardening — Work hardening, also known as strain hardening or cold working, is the strengthening of a metal by plastic deformation. This strengthening occurs because of dislocation movements within the crystal structure of the material.[1] Any material with… … Wikipedia
Forging — For ging, n. 1. The act of shaping metal by hammering or pressing. [1913 Webster] 2. The act of counterfeiting. [1913 Webster] 3. (Mach.) A piece of forged work in metal; a general name for a piece of hammered iron or steel. [1913 Webster] There… … The Collaborative International Dictionary of English
Forging — This article is about the metalworking process. For specific hot forging hearth, see forge. For the act of counterfeiting, see forgery. Hot metal ingot being loaded into a hammer forge Forging is a manufacturing process involving the shaping of… … Wikipedia
forging — /fawr jing, fohr /, n. 1. an act or instance of forging. 2. something forged; a piece of forged work in metal. [1350 1400; ME; see FORGE1, ING1] * * * In metallurgy, the process of shaping metal and increasing its strength by hammering or… … Universalium
work, history of the organization of — Introduction history of the methods by which society structures the activities and labour necessary to its survival. work is essential in providing the basic physical needs of food, clothing, and shelter. But work involves more than the use … Universalium
Forging the Sword — Infobox Book name = Forging the Sword title orig = translator = image caption = author = Hilari Bell illustrator = Steve Stone cover artist = country = United States language = English series = Farsala Trilogy subject = genre = Fantasy publisher … Wikipedia
forging — noun Date: 14th century 1. the art or process of forging 2. a piece of forged work 3. forgery 3 … New Collegiate Dictionary
forging — n. act of forging, metalworking, work of a blacksmith fÉ”rdÊ’ /fÉ”ËdÊ’ n. smithy, blacksmith s shop; fireplace where metal is heated before being shaped v. strengthen; hammer into shape, fashion by heating and hammering; make, form; invent; copy … English contemporary dictionary
forging — forg•ing [[t]ˈfɔr dʒɪŋ, ˈfoʊr [/t]] n. 1) an act or instance of forging 2) mel something forged; a piece of forged work in metal • Etymology: 1350–1400 … From formal English to slang
forging — /ˈfɔdʒɪŋ/ (say fawjing) noun 1. something forged; a piece of forged work in metal. 2. (in horses) the act of striking and injuring the forelegs with the shoes of the hind legs while racing …
Induction forging — refers to the use of induction heating to pre heat metals prior to deformation using a press or hammer. Typically metals are heated to between 1100˚C and 1200˚C to increase their malleability and aid flow in the forging die.Induction Forging… … Wikipedia