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41 prop
I [prɔp] 1. сущ.1) подпорка; опора; стойка; подставкаSyn:2) диал.; разг.а) нога3) опора, поддержка2. гл.He needs no props to support his faith. — Ему не нужно никакой поддержки, чтобы сохранять свою веру.
1) = prop upа) подпирать; снабжать подпорками; поддерживатьUse these heavy books to prop the door open. — Положи эти тяжёлые книги под дверь, чтобы она не захлопнулась.
Propping myself up on my elbow, I could talk more easily to my visitors. — Я приподнялся на локте, так мне было легче разговаривать с моими гостями.
б) помогать, поддерживатьThe shipbuilding industry had to be propped up with government money. — Кораблестроительная промышленность нуждалась в финансовой помощи правительства.
2) прислонить (к чему-л.)II [prɔp] сущ.; студ.; сокр. от proposition 3) III [prɔp] сущ.; авиа; жарг.; сокр. от propeller IV [prɔp] сущ.; театр.; кино; жарг.; сокр. от property 5)He propped himself against the door. — Он опёрся о дверь.
( props) реквизит; бутафория -
42 pump in
фраз. гл.1) разг. вкладывать, "вливать" (деньги, капитал)Unless the government pumps more money in, the whole shipbuilding industry will fail. — Без государственных вливаний вся кораблестроительная промышленность обрушится.
2) разг. вдалбливать (что-л. кому-л.)Syn: -
43 rocket
1. n ракета2. n реактивный снаряд3. n ракетный двигатель4. n сл. разнос, выговор5. n ракетный6. v пускать ракету7. v взлетать, взмывать8. v подниматься резко, подскакиватьunemployment in the shipbuilding industry has rocketed since the beginning of the year — с начала года безработица в судостроительной промышленности резко увеличилась
9. v делать резкий рывок вперёд10. n бот. ночная фиалка, вечерницаСинонимический ряд:1. missile (noun) air-to-air missile; ballistic missile; flying bomb; missile; mortar; projectile; rocket launcher; surface-to air-missile; torpedo2. spacecraft (noun) booster; propulsion; retrorocket; rocket propulsion; shuttle engine; spacecraft; spacecraft propulsion method; spaceship; thruster3. climb skyward (verb) ascend; climb skyward; fly; lift off; shoot up; shoot upward; skyrocket; sky-rocket; soar; zoom4. hurry (verb) barrel; barrelhouse; beeline; bolt; bucket; bullet; bustle; dart; dash; fleet; flit; haste; hasten; highball; hotfoot; hurry; hustle; pelt; race; rock; run; rush; sail; scoot; scour; scurry; shoot; skin; smoke; speed; sprint; stave; whirl; whish; whisk; whiz; zip -
44 Napier, Robert
SUBJECT AREA: Ports and shipping[br]b. 18 June 1791 Dumbarton, Scotlandd. 23 June 1876 Shandon, Dunbartonshire, Scotland[br]Scottish shipbuilder one of the greatest shipbuilders of all time, known as the "father" of Clyde shipbuilding.[br]Educated at Dumbarton Grammar School, Robert Napier had been destined for the Church but persuaded his father to let him serve an apprenticeship as a blacksmith under him. For a while he worked in Edinburgh, but then in 1815 he commenced business in Glasgow, the city that he served for the rest of his life. Initially his workshop was in Camlachie, but it was moved in 1836 to a riverside factory site at Lancefield in the heart of the City and again in 1841 to the Old Shipyard in the Burgh of Govan (then independent of the City of Glasgow). The business expanded through his preparedness to build steam machinery, beginning in 1823 with the engines for the paddle steamer Leven, still to be seen a few hundred metres from Napier's grave in Dumbarton. His name assured owners of quality, and business expanded after two key orders: one in 1836 for the Honourable East India Company; and the second two years later for the Royal Navy, hitherto the preserve of the Royal Dockyards and of the shipbuilders of south-east England. Napier's shipyard and engine shops, then known as Robert Napier and Sons, were to be awarded sixty Admiralty contracts in his lifetime, with a profound influence on ship and engine procurement for the Navy and on foreign governments, which for the first time placed substantial work in the United Kingdom.Having had problems with hull subcontractors and also with the installation of machinery in wooden hulls, in 1843 Napier ventured into shipbuilding with the paddle steamer Vanguard, which was built of iron. The following year the Royal Navy took delivery of the iron-hulled Jackall, enabling Napier to secure the contract for the Black Prince, Britain's second ironclad and sister ship to HMS Warrior now preserved at Portsmouth. With so much work in iron Napier instigated studies into metallurgy, and the published work of David Kirkaldy bears witness to his open-handedness in assisting the industry. This service to industry was even more apparent in 1866 when the company laid out the Skelmorlie Measured Mile on the Firth of Clyde for ship testing, a mile still in use by ships of all nations.The greatest legacy of Robert Napier was his training of young engineers, shipbuilders and naval architects. Almost every major Scottish shipyard, and some English too, was influenced by him and many of his early foremen left to set up rival establishments along the banks of the River Clyde. His close association with Samuel Cunard led to the setting up of the company now known as the Cunard Line. Napier designed and engined the first four ships, subcontracting the hulls of this historic quartet to other shipbuilders on the river. While he contributed only 2 per cent to the equity of the shipping line, they came back to him for many more vessels, including the magnificent paddle ship Persia, of 1855.It is an old tradition on the Clyde that the smokestacks of ships are made by the enginebuilders. The Cunard Line still uses red funnels with black bands, Napier's trademark, in honour of the engineer who set them going.[br]Principal Honours and DistinctionsKnight Commander of the Dannebrog (Denmark). President, Institution of Mechanical Engineers 1864. Honorary Member of the Glasgow Society of Engineers 1869.Further ReadingJames Napier, 1904, The Life of Robert Napier, Edinburgh, Blackwood.J.M.Halliday, 1980–1, "Robert Napier. The father of Clyde shipbuilding", Transactions of the Institution of Engineers and Shipbuilders in Scotland 124.Fred M.Walker, 1984, Song of the Clyde. A History of Clyde Shipbuilding, Cambridge: PSL.FMW -
45 Ayre, Sir Amos Lowrey
SUBJECT AREA: Ports and shipping[br]b. 23 July 1885 South Shields, Englandd. 13 January 1952 London, England[br]English shipbuilder and pioneer of the inter-war "economy" freighters; Chairman of the Shipbuilding Conference.[br]Amos Ayre grew up on the Tyne with the stimulus of shipbuilding and seafaring around him. After an apprenticeship as a ship draughtsman and distinction in his studies, he held responsible posts in the shipyards of Belfast and later Dublin. His first dramatic move came in 1909 when he accepted the post of Manager of the new Employment Exchange at Govan, then just outside Glasgow. During the First World War he was in charge of fleet coaling operations on the River Forth, and later was promoted Admiralty District Director for shipyard labour in Scotland.Before the conclusion of hostilities, with his brother Wilfrid (later Sir Wilfrid Ayre) he founded the Burntisland Shipbuilding Company in Fife. Setting up on a green field site allowed the brothers to show innovation in design, production and marketing. Such was their success that the new yard was busy throughout the Depression, building standard ships which incorporated low operating costs with simplicity of construction.Through public service culminating in the 1929 Safety of Life at Sea Conference, Amos Ayre became recognized not only as an eminent naval architect, but also as a skilled negotiator. In 1936 he was invited to become Chairman of the Shipbuilding Conference and thereby virtual leader of the industry. As war approached he planned with meticulous care the rearrangement of national shipbuilding capacity, enabling Britain to produce standard hulls ranging from the legendary TID tugs to the standard freighters built in Sunderland or Port Glasgow. In 1939 he became Director of Merchant Shipbuilding, a position he held until 1944, when with typical foresight he asked to be released to plan for shipbuilding's return to normality.[br]Principal Honours and DistinctionsKnighted 1937. KBE 1943. Officer of the Order of Orange-Nassau.Bibliography1919, "The theory and design of British shipbuilding", The Syren and Shipping, London.Further ReadingWilfrid Ayre, 1968, A Shipbuilders Yesterdays, Fife (published privately). James Reid, 1964, James Lithgow, Master of Work, London.Maurice E.Denny, 1955, "The man and his work" (First Amos Ayre Lecture), Transactions of the Institution of Naval Architects vol. 97.FMW -
46 fitter
noun (a person who puts the parts of a machine together.) montadortr['fɪtəSMALLr/SMALL]1 SMALLTECHNICAL/SMALL montador,-ra2 SMALLSEWING/SMALL probador,-ran.• ajustador s.m.• entallador, -ora s.m.,f.• montador s.m.• montador mecánico s.m.• proveedor, -ora s.m.,f.'fɪtər, 'fɪtə(r)1) ( Clothing) probador, -dora m,f2) ( Tech) ( mechanic - in garage) mecánico, -ca m,f; (- in car industry, shipbuilding) operario, -ria m,f['fɪtǝ(r)]N2) [of garment] probador(a) m / f* * *['fɪtər, 'fɪtə(r)]1) ( Clothing) probador, -dora m,f2) ( Tech) ( mechanic - in garage) mecánico, -ca m,f; (- in car industry, shipbuilding) operario, -ria m,f -
47 Peter the Great (Pyotr Alekseyevich Romanov)
SUBJECT AREA: Ports and shipping[br]b. 10 June 1672 (30 May 1672 Old Style) Moscow, Russiad. 8 February 1725 (28 January 1725 Old Style) St Petersburg, Russia[br]Russian Tsar (1682–1725), Emperor of all the Russias (1722–5), founder of the Russian Navy, shipbuilder and scientist; as a shipbuilder he was known by the pseudonym Petr Mikhailov.[br]Peter the Great was a man with a single-minded approach to problems and with passionate and lifelong interests in matters scientific, military and above all maritime. The unusual and dominating rule of his vast lands brought about the age of Russian enlightenment, and ensured that his country became one of the most powerful states in Europe.Peter's interest in ships and shipbuilding started in his childhood; c. 1687 he had an old English-built day sailing boat repaired and launched, and on it he learned the rudiments of sailing and navigation. This craft (still preserved in St Petersburg) became known as the "Grandfather of the Russian Navy". In the years 1688 to 1693 he established a shipyard on Lake Plestsheev and then began his lifelong study of shipbuilding by visiting and giving encouragement to the industry at Archangelsk on the White Sea and Voronezh in the Sea of Azov. In October 1696, Peter took Azov from the Turks, and the Russian Fleet ever since has regarded that date as their birthday. Setting an example to the young aristocracy, Peter travelled to Western Europe to widen his experience and contacts and also to learn the trade of shipbuilding. He worked in the shipyards of Amsterdam and then at the Naval Base of Deptford on the Thames.The war with Sweden concentrated his attention on the Baltic and, to establish a base for trading and for the Navy, the City of St Petersburg was constructed on marshland. The Admiralty was built in the city and many new shipyards in the surrounding countryside, one being the Olonez yard which in 1703 built the frigate Standart, the first for the Baltic Fleet, which Peter himself commanded on its first voyage. The military defence of St Petersburg was effected by the construction of Kronstadt, seawards of the city.Throughout his life Peter was involved in ship design and it is estimated that one thousand ships were built during his reign. He introduced the building of standard ship types and also, centuries ahead of its time, the concept of prefabrication, unit assembly and the building of part hulls in different places. Officially he was the designer of the ninety-gun ship Lesnoe of 1718, and this may have influenced him in instituting Rules for Shipbuilders and for Seamen. In 1716 he commanded the joint fleets of the four naval powers: Denmark, Britain, Holland and Russia.He established the Marine Academy, organized and encouraged exploration and scientific research, and on his edict the St Petersburg Academy of Science was opened. He was not averse to the recruitment of foreigners to key posts in the nation's service. Peter the Great was a remarkable man, with the unusual quality of being a theorist and an innovator, in addition to the endowments of practicality and common sense.[br]Further ReadingRobert K.Massie, 1981, Peter the Great: His Life and Work, London: Gollancz.Henri Troyat, 1979, Pierre le Grand; pub. in English 1988 as Peter the Great, London: Hamish Hamilton (a good all-round biography).AK / FMWBiographical history of technology > Peter the Great (Pyotr Alekseyevich Romanov)
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48 Riley, James
SUBJECT AREA: Metallurgy[br]b. 1840 Halifax, Englandd. 15 July 1910 Harrogate, England[br]English steelmaker who promoted the manufacture of low-carbon bulk steel by the open-hearth process for tin plate and shipbuilding; pioneer of nickel steels.[br]After working as a millwright in Halifax, Riley found employment at the Ormesby Ironworks in Middlesbrough until, in 1869, he became manager of the Askam Ironworks in Cumberland. Three years later, in 1872, he was appointed Blast-furnace Manager at the pioneering Siemens Steel Company's works at Landore, near Swansea in South Wales. Using Spanish ore, he produced the manganese-rich iron (spiegeleisen) required as an additive to make satisfactory steel. Riley was promoted in 1874 to be General Manager at Landore, and he worked with William Siemens to develop the use of the latter's regenerative furnace for the production of open-hearth steel. He persuaded Welsh makers of tin plate to use sheets rolled from lowcarbon (mild) steel instead of from charcoal iron and, partly by publishing some test results, he was instrumental in influencing the Admiralty to build two naval vessels of mild steel, the Mercury and the Iris.In 1878 Riley moved north on his appointment as General Manager of the Steel Company of Scotland, a firm closely associated with Charles Tennant that was formed in 1872 to make steel by the Siemens process. Already by 1878, fourteen Siemens melting furnaces had been erected, and in that year 42,000 long tons of ingots were produced at the company's Hallside (Newton) Works, situated 8 km (5 miles) south-east of Glasgow. Under Riley's leadership, steelmaking in open-hearth furnaces was initiated at a second plant situated at Blochairn. Plates and sections for all aspects of shipbuilding, including boilers, formed the main products; the company also supplied the greater part of the steel for the Forth (Railway) Bridge. Riley was associated with technical modifications which improved the performance of steelmaking furnaces using Siemens's principles. He built a gasfired cupola for melting pig-iron, and constructed the first British "universal" plate mill using three-high rolls (Lauth mill).At the request of French interests, Riley investigated the properties of steels containing various proportions of nickel; the report that he read before the Iron and Steel Institute in 1889 successfully brought to the notice of potential users the greatly enhanced strength that nickel could impart and its ability to yield alloys possessing substantially lower corrodibility.The Steel Company of Scotland paid dividends in the years to 1890, but then came a lean period. In 1895, at the age of 54, Riley moved once more to another employer, becoming General Manager of the Glasgow Iron and Steel Company, which had just laid out a new steelmaking plant at Wishaw, 25 km (15 miles) south-east of Glasgow, where it already had blast furnaces. Still the technical innovator, in 1900 Riley presented an account of his experiences in introducing molten blast-furnace metal as feed for the open-hearth steel furnaces. In the early 1890s it was largely through Riley's efforts that a West of Scotland Board of Conciliation and Arbitration for the Manufactured Steel Trade came into being; he was its first Chairman and then its President.In 1899 James Riley resigned from his Scottish employment to move back to his native Yorkshire, where he became his own master by acquiring the small Richmond Ironworks situated at Stockton-on-Tees. Although Riley's 1900 account to the Iron and Steel Institute was the last of the many of which he was author, he continued to contribute to the discussion of papers written by others.[br]Principal Honours and DistinctionsPresident, West of Scotland Iron and Steel Institute 1893–5. Vice-President, Iron and Steel Institute, 1893–1910. Iron and Steel Institute (London) Bessemer Gold Medal 1887.Bibliography1876, "On steel for shipbuilding as supplied to the Royal Navy", Transactions of the Institute of Naval Architects 17:135–55.1884, "On recent improvements in the method of manufacture of open-hearth steel", Journal of the Iron and Steel Institute 2:43–52 plus plates 27–31.1887, "Some investigations as to the effects of different methods of treatment of mild steel in the manufacture of plates", Journal of the Iron and Steel Institute 1:121–30 (plus sheets II and III and plates XI and XII).27 February 1888, "Improvements in basichearth steel making furnaces", British patent no. 2,896.27 February 1888, "Improvements in regenerative furnaces for steel-making and analogous operations", British patent no. 2,899.1889, "Alloys of nickel and steel", Journal of the Iron and Steel Institute 1:45–55.Further ReadingA.Slaven, 1986, "James Riley", in Dictionary of Scottish Business Biography 1860–1960, Volume 1: The Staple Industries (ed. A.Slaven and S. Checkland), Aberdeen: Aberdeen University Press, 136–8."Men you know", The Bailie (Glasgow) 23 January 1884, series no. 588 (a brief biography, with portrait).J.C.Carr and W.Taplin, 1962, History of the British Steel Industry, Harvard University Press (contains an excellent summary of salient events).JKA -
49 Armstrong, Sir William George, Baron Armstrong of Cragside
[br]b. 26 November 1810 Shieldfield, Newcastle upon Tyne, Englandd. 27 December 1900 Cragside, Northumbria, England[br]English inventor, engineer and entrepreneur in hydraulic engineering, shipbuilding and the production of artillery.[br]The only son of a corn merchant, Alderman William Armstrong, he was educated at private schools in Newcastle and at Bishop Auckland Grammar School. He then became an articled clerk in the office of Armorer Donkin, a solicitor and a friend of his father. During a fishing trip he saw a water-wheel driven by an open stream to work a marble-cutting machine. He felt that its efficiency would be improved by introducing the water to the wheel in a pipe. He developed an interest in hydraulics and in electricity, and became a popular lecturer on these subjects. From 1838 he became friendly with Henry Watson of the High Bridge Works, Newcastle, and for six years he visited the Works almost daily, studying turret clocks, telescopes, papermaking machinery, surveying instruments and other equipment being produced. There he had built his first hydraulic machine, which generated 5 hp when run off the Newcastle town water-mains. He then designed and made a working model of a hydraulic crane, but it created little interest. In 1845, after he had served this rather unconventional apprenticeship at High Bridge Works, he was appointed Secretary of the newly formed Whittle Dene Water Company. The same year he proposed to the town council of Newcastle the conversion of one of the quayside cranes to his hydraulic operation which, if successful, should also be applied to a further four cranes. This was done by the Newcastle Cranage Company at High Bridge Works. In 1847 he gave up law and formed W.G.Armstrong \& Co. to manufacture hydraulic machinery in a works at Elswick. Orders for cranes, hoists, dock gates and bridges were obtained from mines; docks and railways.Early in the Crimean War, the War Office asked him to design and make submarine mines to blow up ships that were sunk by the Russians to block the entrance to Sevastopol harbour. The mines were never used, but this set him thinking about military affairs and brought him many useful contacts at the War Office. Learning that two eighteen-pounder British guns had silenced a whole Russian battery but were too heavy to move over rough ground, he carried out a thorough investigation and proposed light field guns with rifled barrels to fire elongated lead projectiles rather than cast-iron balls. He delivered his first gun in 1855; it was built of a steel core and wound-iron wire jacket. The barrel was multi-grooved and the gun weighed a quarter of a ton and could fire a 3 lb (1.4 kg) projectile. This was considered too light and was sent back to the factory to be rebored to take a 5 lb (2.3 kg) shot. The gun was a complete success and Armstrong was then asked to design and produce an equally successful eighteen-pounder. In 1859 he was appointed Engineer of Rifled Ordnance and was knighted. However, there was considerable opposition from the notably conservative officers of the Army who resented the intrusion of this civilian engineer in their affairs. In 1862, contracts with the Elswick Ordnance Company were terminated, and the Government rejected breech-loading and went back to muzzle-loading. Armstrong resigned and concentrated on foreign sales, which were successful worldwide.The search for a suitable proving ground for a 12-ton gun led to an interest in shipbuilding at Elswick from 1868. This necessitated the replacement of an earlier stone bridge with the hydraulically operated Tyne Swing Bridge, which weighed some 1450 tons and allowed a clear passage for shipping. Hydraulic equipment on warships became more complex and increasing quantities of it were made at the Elswick works, which also flourished with the reintroduction of the breech-loader in 1878. In 1884 an open-hearth acid steelworks was added to the Elswick facilities. In 1897 the firm merged with Sir Joseph Whitworth \& Co. to become Sir W.G.Armstrong Whitworth \& Co. After Armstrong's death a further merger with Vickers Ltd formed Vickers Armstrong Ltd.In 1879 Armstrong took a great interest in Joseph Swan's invention of the incandescent electric light-bulb. He was one of those who formed the Swan Electric Light Company, opening a factory at South Benwell to make the bulbs. At Cragside, his mansion at Roth bury, he installed a water turbine and generator, making it one of the first houses in England to be lit by electricity.Armstrong was a noted philanthropist, building houses for his workforce, and endowing schools, hospitals and parks. His last act of charity was to purchase Bamburgh Castle, Northumbria, in 1894, intending to turn it into a hospital or a convalescent home, but he did not live long enough to complete the work.[br]Principal Honours and DistinctionsKnighted 1859. FRS 1846. President, Institution of Mechanical Engineers; Institution of Civil Engineers; British Association for the Advancement of Science 1863. Baron Armstrong of Cragside 1887.Further ReadingE.R.Jones, 1886, Heroes of Industry', London: Low.D.J.Scott, 1962, A History of Vickers, London: Weidenfeld \& Nicolson.IMcNBiographical history of technology > Armstrong, Sir William George, Baron Armstrong of Cragside
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50 confederation
confederation [kən‚fedə'reɪʃən]confédération f►► Confederation of Australian Industry = confédération du patronat australien;Confederation of British Industry = patronat britannique, ≃ Medef m;British Confederation of Health Service Employees = ancien syndicat des employés des services de santé;British Confederation of Shipbuilding and Engineering Unions = confédération des syndicats de la construction navale et de la mécaniqueUn panorama unique de l'anglais et du français > confederation
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51 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 -
52 subsidies
Субсидии agricultural ~ субсидии на развитие сельского хозяйства party ~ партийные субсидии production ~ субсидии на производство shipbuilding ~ субсидии на постройку судна subsidies субсидии ~ to trade and industry субсидии для торговли и промышленностиБольшой англо-русский и русско-английский словарь > subsidies
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53 confederation
сущ.1) общ. конфедерация (союз, объединение каких-л. организаций)a loose, weak confederation — непрочная конфедерация, слабая конфедерация
Syn:See:Confederation of Health Service Employees, Confederation of Shipbuilding Unions, European Trade Union Confederation, International Confederation of Free Trade Unions, World Confederation of Labour, Confederation of British Industry2) пол. конфедерацияа) (союз государств, сохраняющих свою независимость и объединяющихся лишь для осуществления определенных, преимущественно внешнеполитических и военных целей)б) (форма территориального устройства, при которой регионы сохраняют независимость от центральной власти в большинстве политических вопросов; такая система устанавливается, когда конституционно суверенные государства, объединяясь в союз, создают центральные органы власти, образуя государство)Swiss Confederation — Швейцарская конфедерация (официальное название — Confédération Helvétique)
Syn:See: -
54 steel
1) сталь
2) насталивать
3) стале
4) сталелитейный
5) сталеплавильный
6) стальной
– acid steel
– aircraft steel
– alloy steel
– aluminize steel
– anneal steel
– austenitic steel
– automatic steel
– bar steel
– basic steel
– bearing steel
– bessemer steel
– blue steel
– boiler steel
– burn steel
– carbon steel
– carburize steel
– case-harden steel
– cast steel
– cement steel
– checker steel
– chromium steel
– clad steel
– copper-plate steel
– corrugate steel
– crucible steel
– Damascus steel
– Damask steel
– deoxidize steel
– die steel
– drill steel
– dynamo steel
– extra-hard steel
– fagot steel
– fire-box steel
– free-cutting steel
– friction of steel
– galvanize steel
– grain-oriented steel
– harden steel
– hexagonal steel
– high-alloy steel
– high-temperature steel
– hypereutectoid steel
– hypoeutectoid steel
– kill steel
– killed steel
– low-alloyed steel
– low-carbon steel
– make steel
– manganese steel
– martensitic steel
– nitralloy steel
– nitride steel
– nitrided steel
– normatize steel
– off-grade steel
– overblow steel
– pearlitic steel
– pickle steel
– pipe steel
– place steel
– plain steel
– plate steel
– ply steel
– rail steel
– reheat steel
– reinforcement steel
– reinforcing-bar steel
– rimmed steel
– rising steel
– rivet steel
– rod steel
– rolled steel
– shallow-hardening steel
– sheet steel
– shipbuilding steel
– silicon steel
– skelp steel
– special steel
– spring steel
– stainless steel
– steel casting
– steel construction
– steel cord
– steel facing
– steel industry
– steel matrix
– steel mill
– steel pipe
– steel quality
– steel reinforcement
– steel ribbon
– steel rods
– steel shapes
– steel works
– stress steel
– strip steel
– structural steel
– temper steel
– tensioning of the steel
– through-hardening steel
– tool steel
– transformer steel
– weld steel
– work-harden steel
integrated steel plant — <metal.> комбинат металлургический
rail-and-structural steel mill — рельсобалочный прокатный стан
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55 ASI
1) Компьютерная техника: Automatic Scanning Input2) Авиация: указатель воздушной скорости3) Военный термин: Additional Skill Indicator, Advanced Study Institute, Aerospace Studies Institute, Alarm Status Indicator, All-Source Intelligence, Army Space Institute, U.S. Army Space Institute, additional skill identifier, amended shipping instruction, ammunition supply installation, annual supply inspection, armaments standardization and interoperability, azimuth/speed indicator4) Техника: Audience Studies Inc., adverse systems interaction, air speed indicator, axial shape index5) Автомобильный термин: Acceleration Severity Index (Индекс Тяжести Травм)6) Биржевой термин: accumulation swing index7) Грубое выражение: Another Shitty Investment8) Оптика: American Standards Institute9) Телекоммуникации: Alternate Space Inversion10) Сокращение: Advanced Scientific Instrument, Advanced Scientific Instruments, Aerospace Industry, Aerospace Studies Institute (USA), Airspeed Indicator, Armored Systems Integration, Australian Shipbuilding Industries (WA) Pty Ltd, Aviation Services International (Benelux) BV (Netherlands), Avionics Specialist Inc. (USA), Italian Space Agency, air-speed indicator11) Университет: Advertising Specialties Institute12) Физиология: Addiction Severity Index, Adrenal Stress Index13) Электроника: Actuator Sensor Interface14) Вычислительная техника: Asynchronous SCSI Interface, Automatic System Installation, Aquarius Systems International (Hersteller), Adapter Support Interface (IBM, LAN), Amorphous SIlicon drum (Kyocera)15) Нефть: Американский институт стандартов (American Standards Institute), Array Seismic Imager16) Транспорт: Aircraft Security International17) Фирменный знак: Aerospace Sales Industries, Inc., Agri Synthesis Inc, Air Serv International, Al Shugart International, Assessment Systems Inc, Avocet Systems, Inc., Axiom Sect Incorporated18) Экология: Air Sea Interaction19) СМИ: Artistic Skin Illustrations20) Деловая лексика: Advanced Solutions Inc, American Share Insurance, Inc.21) Сетевые технологии: Advanced Server Interface, asynchronous serial interface, асинхронный последовательный интерфейс22) Расширение файла: Assembler Include file23) МИД: Asian Statistical Institute24) Общественная организация: American SIDS Institute25) Должность: Aerospace Science Instructor26) NYSE. American Safety Insurance Group, LTD. -
56 asi
1) Компьютерная техника: Automatic Scanning Input2) Авиация: указатель воздушной скорости3) Военный термин: Additional Skill Indicator, Advanced Study Institute, Aerospace Studies Institute, Alarm Status Indicator, All-Source Intelligence, Army Space Institute, U.S. Army Space Institute, additional skill identifier, amended shipping instruction, ammunition supply installation, annual supply inspection, armaments standardization and interoperability, azimuth/speed indicator4) Техника: Audience Studies Inc., adverse systems interaction, air speed indicator, axial shape index5) Автомобильный термин: Acceleration Severity Index (Индекс Тяжести Травм)6) Биржевой термин: accumulation swing index7) Грубое выражение: Another Shitty Investment8) Оптика: American Standards Institute9) Телекоммуникации: Alternate Space Inversion10) Сокращение: Advanced Scientific Instrument, Advanced Scientific Instruments, Aerospace Industry, Aerospace Studies Institute (USA), Airspeed Indicator, Armored Systems Integration, Australian Shipbuilding Industries (WA) Pty Ltd, Aviation Services International (Benelux) BV (Netherlands), Avionics Specialist Inc. (USA), Italian Space Agency, air-speed indicator11) Университет: Advertising Specialties Institute12) Физиология: Addiction Severity Index, Adrenal Stress Index13) Электроника: Actuator Sensor Interface14) Вычислительная техника: Asynchronous SCSI Interface, Automatic System Installation, Aquarius Systems International (Hersteller), Adapter Support Interface (IBM, LAN), Amorphous SIlicon drum (Kyocera)15) Нефть: Американский институт стандартов (American Standards Institute), Array Seismic Imager16) Транспорт: Aircraft Security International17) Фирменный знак: Aerospace Sales Industries, Inc., Agri Synthesis Inc, Air Serv International, Al Shugart International, Assessment Systems Inc, Avocet Systems, Inc., Axiom Sect Incorporated18) Экология: Air Sea Interaction19) СМИ: Artistic Skin Illustrations20) Деловая лексика: Advanced Solutions Inc, American Share Insurance, Inc.21) Сетевые технологии: Advanced Server Interface, asynchronous serial interface, асинхронный последовательный интерфейс22) Расширение файла: Assembler Include file23) МИД: Asian Statistical Institute24) Общественная организация: American SIDS Institute25) Должность: Aerospace Science Instructor26) NYSE. American Safety Insurance Group, LTD. -
57 construcción
construcción sustantivo femenino obrero de la construcción building o construction workerc) (Ling) construction
construcción sustantivo femenino
1 (edificio) building: las construcciones de la zona no aguantaron el temblor de tierra, the buildings in the area did not withstand the earthquake
2 (acción) construction: la construcción de la catedral tardó más de un siglo, it took over a century to complete construction of the cathedral
3 (industria) trabajo en la construcción, I work in the building industry ' construcción' also found in these entries: Spanish: ampliación - concatenación - elevada - elevado - escora - fortaleza - gremio - grúa - hundir - hundimiento - hundirse - levantar - parecerse - promotor - promotora - promover - resaltar - urbanización - barraca - carpintería - en - fuente - licitación - madera - material - obra - robusto - tosco - vivienda English: advocate - building - construction - defence - defense - demonstrate - deserve - erect - erection - flimsy - fountain - mention - rough - shipbuilding - solidly - sound - structure - timber - tumble - well-built - ship -
58 principal
• olennaisin• olennainen• oleellinen• toimeksiantaja• johtajaopettaja• johtoäänikerta• johtaja• johtoääni• johtoteema• tärkein• tärkeä• tähdellinen• huomattava• varsinainen• varallisuus• ensisijainen• ensimmäinen• esimiesmusic• solisti• valtuuttaja• valtuutettu• prinsipaali• päällikkö• pääsyyllinen• pääasiallinen• pääosan näyttelijä• pää• pää-• päämies• pääteema• päävelallinenfinance, business, economy• pääoma• pää-äänikerta• rehtori (koulun)• rehtoribuilding / construction industry• kattotuoli• kaupittaja• keskeinen• hallitseva• fuugan johtoteemafinance, business, economy• peruspääoma• main• äänenjohtajafinance, business, economy• komissionantaja• koulunjohtaja* * *'prinsəpəl 1. adjective(most important: Shipbuilding was one of Britain's principal industries.) merkittävin2. noun1) (the head of a school, college or university.) rehtori2) (a leading actor, singer or dancer in a theatrical production.) pääosan esittäjä3) (the amount of money in a bank etc on which interest is paid.) pääoma• -
59 bureau
управление; бюро; отделFirst Assistant, Permanent Undersecretary of State for the Navy bureau — Бр. управление первого помощника постоянного заместителя МО по ВМС
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60 subsidies
agricultural subsidies субсидии на развитие сельского хозяйства party subsidies партийные субсидии production subsidies субсидии на производство shipbuilding subsidies субсидии на постройку судна subsidies субсидии subsidies to trade and industry субсидии для торговли и промышленности
См. также в других словарях:
shipbuilding industry — noun an industry that builds ships • Hypernyms: ↑industry • Member Meronyms: ↑shipbuilder … Useful english dictionary
China Shipbuilding Industry Corporation — 中国船舶重工集团公司 Type State owned enterprise Industry Shipbuilding Founded 1999 Headquarters … Wikipedia
Dalian Shipbuilding Industry Company — in Dalian, Liaoning, China Dalian Shipbuilding Industry Company (DSIC or in Chinese: 大连船舶重工集团, located in Dalian, Liaoning, China, is the largest shipbuilding company in China. It is p … Wikipedia
Ministry of Shipbuilding Industry — People s Commissariat of the Shipbuilding Industry of the USSR (Народный комиссариат судостроительной промышленности CCCP) one of the central offices in the Soviet Union, the equivalent of the Ministry, which oversaw the production of… … Wikipedia
China Shipbuilding Industry Corporation — Rechtsform Corporation Gründung 1999 Sitz Peking, Volksrepublik China Leitung Li Changyin Branche Sch … Deutsch Wikipedia
Shipbuilding in Russia — Shipbuilding is a developed industry in Russia. The main short term plan of the industry is the Complex Program to Advance Production of the Shipbuilding Industry on the Market between 2008 and 2015, which was approved by the Russian Government… … Wikipedia
Shipbuilding — This article is about the construction of ships. For the song, see Shipbuilding (song). An expedition s shipwrights building a brigantine, 1541. Shipbuilding is the construction of ships and floating vessels. It normally takes place in a… … Wikipedia
shipbuilding — shipbuilder ship‧build‧er [ˈʆɪpˌbɪldə ǁ ər] noun [countable] a company that makes ships shipbuilding noun [uncountable] : • key industries such as steel and shipbuilding * * * shipbuilding UK US /ˈʃɪpˌbɪldɪŋ/ noun [U] TRANSPORT, PRODUCTION ► … Financial and business terms
industry — Spain became a fully industrialized nation much later than most other western European nations. Although Catalonia and the Basque country could be considered industrialized regions by the end of the nineteenth century, the rest of Spain was… … Encyclopedia of contemporary Spanish culture
Shipbuilding — Ship construction was an important branch of in dustry in the Low Countriesand the Netherlands, where transport by water was relatively easy. As early as the Middle Ages, coasters and canal boats were the main form of transportation for… … Historical Dictionary of the Netherlands
industry — noun ADJECTIVE ▪ booming, growing, thriving ▪ one of the fastest growing industries in the world ▪ important, key, major ▪ … Collocations dictionary