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1 open-hearth steelmaking
• производство n мартеновское -
2 open-hearth steelmaking plant
stalownia martenowskaEnglish-Polish dictionary for engineers > open-hearth steelmaking plant
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3 open-hearth process
English-Russian big polytechnic dictionary > open-hearth process
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4 open-hearth scrap
stores fit for scrap — имущество, идущее на лом и в утиль
uranium scrap — отходы уранового производства; лом урана
English-Russian big polytechnic dictionary > open-hearth scrap
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5 stalownia martenowska
• open-hearth furnace plant• open-hearth melting shop• open-hearth shop• open-hearth steelmaking plantSłownik polsko-angielski dla inżynierów > stalownia martenowska
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6 преобладающий
•Open-hearth steelmaking was the ( pre) dominant method.
•The prevailing hypothesis is that the primordial atmospheres...
•The prevailing winds blow from the west in the middle latitudes and...
Русско-английский научно-технический словарь переводчика > преобладающий
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7 Talbot, Benjamin
SUBJECT AREA: Metallurgy[br]b. 19 September 1864 Wellington, Shropshire, Englandd. 16 December 1947 Solberge Hall, Northallerton, Yorkshire, England[br]Talbot, William Henry Fox English steelmaker and businessman who introduced a technique for producing steel "continuously" in large tilting basic-lined open-hearth furnaces.[br]After spending some years at his father's Castle Ironworks and at Ebbw Vale Works, Talbot travelled to the USA in 1890 to become Superintendent of the Southern Iron and Steel Company of Chattanooga, Tennessee, where he initiated basic open-hearth steelmaking and a preliminary slag washing to remove silicon. In 1893 he moved to Pennsylvania as Steel Superintendent at the Pencoyd works; there, six years later, he began his "continuous" steelmaking process. Returning to Britain in 1900, Talbot marketed the technique: after ten years it was in successful use in Britain, continental Europe and the USA; it promoted the growth of steel production.Meanwhile its originator had joined the Cargo Fleet Iron Company Limited on Teesside, where he was made Managing Director in 1907. Twelve years later he assumed, in addition, the same position in the allied South Durham Steel and Iron Company Limited. While remaining Managing Director, he was appointed Deputy Chairman of both companies in 1925, and Chairman in 1940. The companies he controlled survived the depressed 1920s and 1930s and were significant contributors to British steel output, with a capacity of more than half a million tonnes per year.[br]Principal Honours and DistinctionsPresident, Iron and Steel Institute 1928, and (British) National Federation of Iron and Steel Manufacturers. Iron and Steel Institute (London) Bessemer Gold Medal 1908. Franklin Institute (Philadelphia), Elliott Cresson Gold Medal, and John Scott Medal 1908.Bibliography1900, "The open-hearth continuous steel process", Journal of the Iron and Steel Institute 57 (1):33–61.1903, "The development of the continuous open-hearth process", Journal of the Iron and Steel Institute 63(1):57–73.1905, "Segregation in steel ingots", Journal of the Iron and Steel Institute 68(2):204–23. 1913, "The production of sound steel by lateral compression of the ingot whilst its centre is liquid", Journal of the Iron and Steel Institute 87(1):30–55.Further ReadingG.Boyce, 1986, entry in Dictionary of Business Biography, Vol. V, ed. J.Jeremy, Butterworth.W.G.Willis, 1969, South Durham Steel and Iron Co. Ltd, South Durham Steel and Iron Company Ltd (includes a few pages specifically on Talbot, and a portrait photo). J.C.Carr and W.Taplin, 1962, History of the British Steel Industry, Cambridge, Mass.: Harvard University Press (mentions Talbot's business attitudes).JKA -
8 Martin, Pierre Emile
SUBJECT AREA: Metallurgy[br]b. 18 August 1824 Bourges, Franced. 23 May 1915 Fourchambault, France[br]French metallurgist, pioneer of open-hearth steelmaking.[br]His father Emile owned an iron-and steelworks at Sireuil, near Angoulême, and, through this, Pierre became interested in improving the steelmaking process. In England, C.W. Siemens had developed the regenerative principle of waste-heat recovery that produced a much higher furnace temperature. In 1863, the Martins applied this process in an open-hearth furnace built under licence from Siemens, with the aid of his engineers. They melted a mixture of pig-and wrought iron to produce steel with the required carbon content. Martin exhibited the product at the Paris Exhibition of 1867 and was awarded a gold medal. The open-hearth process was for a long time known as the Siemens-Martin process, but Martin did not share in the profits which others gained from its successful adoption. He had difficulty in obtaining patent rights as it was claimed that the principles of the process were already known and in use. The costs of litigation brought Martin to the brink of poverty, from which relief came only late in life, when in 1907 the Comité des Forges de France opened a subscription for him that was generously supported. A week before his death, the Iron and Steel Institute of London bestowed on him their Bessemer gold medal.[br]Principal Honours and DistinctionsIron and Steel Institute Bessemer Gold Medal 1915.Further ReadingObituary, 1915, Journal of the Iron and Steel Institute 91:466.LRD -
9 Siemens, Sir Charles William
[br]b. 4 April 1823 Lenthe, Germanyd. 19 November 1883 London, England[br]German/British metallurgist and inventory pioneer of the regenerative principle and open-hearth steelmaking.[br]Born Carl Wilhelm, he attended craft schools in Lübeck and Magdeburg, followed by an intensive course in natural science at Göttingen as a pupil of Weber. At the age of 19 Siemens travelled to England and sold an electroplating process developed by his brother Werner Siemens to Richard Elkington, who was already established in the plating business. From 1843 to 1844 he obtained practical experience in the Magdeburg works of Count Stolburg. He settled in England in 1844 and later assumed British nationality, but maintained close contact with his brother Werner, who in 1847 had co-founded the firm Siemens \& Halske in Berlin to manufacture telegraphic equipment. William began to develop his regenerative principle of waste-heat recovery and in 1856 his brother Frederick (1826–1904) took out a British patent for heat regeneration, by which hot waste gases were passed through a honeycomb of fire-bricks. When they became hot, the gases were switched to a second mass of fire-bricks and incoming air and fuel gas were led through the hot bricks. By alternating the two gas flows, high temperatures could be reached and considerable fuel economies achieved. By 1861 the two brothers had incorporated producer gas fuel, made by gasifying low-grade coal.Heat regeneration was first applied in ironmaking by Cowper in 1857 for heating the air blast in blast furnaces. The first regenerative furnace was set up in Birmingham in 1860 for glassmaking. The first such furnace for making steel was developed in France by Pierre Martin and his father, Emile, in 1863. Siemens found British steelmakers reluctant to adopt the principle so in 1866 he rented a small works in Birmingham to develop his open-hearth steelmaking furnace, which he patented the following year. The process gradually made headway; as well as achieving high temperatures and saving fuel, it was slower than Bessemer's process, permitting greater control over the content of the steel. By 1900 the tonnage of open-hearth steel exceeded that produced by the Bessemer process.In 1872 Siemens played a major part in founding the Society of Telegraph Engineers (from which the Institution of Electrical Engineers evolved), serving as its first President. He became President for the second time in 1878. He built a cable works at Charlton, London, where the cable could be loaded directly into the holds of ships moored on the Thames. In 1873, together with William Froude, a British shipbuilder, he designed the Faraday, the first specialized vessel for Atlantic cable laying. The successful laying of a cable from Europe to the United States was completed in 1875, and a further five transatlantic cables were laid by the Faraday over the following decade.The Siemens factory in Charlton also supplied equipment for some of the earliest electric-lighting installations in London, including the British Museum in 1879 and the Savoy Theatre in 1882, the first theatre in Britain to be fully illuminated by electricity. The pioneer electric-tramway system of 1883 at Portrush, Northern Ireland, was an opportunity for the Siemens company to demonstrate its equipment.[br]Principal Honours and DistinctionsKnighted 1883. FRS 1862. Institution of Civil Engineers Telford Medal 1853. President, Institution of Mechanical Engineers 1872. President, Society of Telegraph Engineers 1872 and 1878. President, British Association 1882.Bibliography27 May 1879, British patent no. 2,110 (electricarc furnace).1889, The Scientific Works of C.William Siemens, ed. E.F.Bamber, 3 vols, London.Further ReadingW.Poles, 1888, Life of Sir William Siemens, London; repub. 1986 (compiled from material supplied by the family).S.von Weiher, 1972–3, "The Siemens brothers. Pioneers of the electrical age in Europe", Transactions of the Newcomen Society 45:1–11 (a short, authoritative biography). S.von Weihr and H.Goetler, 1983, The Siemens Company. Its Historical Role in theProgress of Electrical Engineering 1847–1980, English edn, Berlin (a scholarly account with emphasis on technology).GWBiographical history of technology > Siemens, Sir Charles William
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10 производство мартеновское
• производство n мартеновскоеenglish: open-hearth steelmakingdeutsch: SM-Betrieffrançais: production f de l'acier dans le four MartinРусско-английский (-немецко, -французский) металлургический словарь > производство мартеновское
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11 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 -
12 process
1) процесс2) (технологический) процесс; (технологическая) обработка3) технологический приём; способ4) технология5) режим; ход (процесса)6) обрабатывать, подвергать обработке7) подвергать анализу, анализировать•to design process — разрабатывать технологию-
acetone-acetylene process
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acetylene process
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Acheson process
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acid Bessemer process
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acid process
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acid reclaiming process
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acyclic process
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Adapti investment casting process
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additive process
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adiabatic process
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Aero case process
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aerobic process
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age-dependent process
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air blast process
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air-sand process
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Alcan process
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Al-Dip process
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alfin process
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alkali reclaiming process
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alkaline process
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Allis-Chalmers agglomeration reduction process
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ALT process
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aluminothermic process
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anaerobic process
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anamorphotic process
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annealing-in-line process
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anode process
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anodic electrode process
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AOD process
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aqua-cast process
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ARBED-ladle-treatment process
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arc-air process
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arc-remelting process
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argon-oxygen-decarburization process
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ASEA-SKF process
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autoregressive process
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averaging process
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Azincourt process
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azo coupling process
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background process
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bag process
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BAP process
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Barrow process
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Basett process
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basic Bessemer process
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basic oxygen process
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basic process
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basic-arc process
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batch process
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biofiltration process
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bipolar process
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bipolar-FET process
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bipolar-MOS process
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BISRA degassing process
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black-heart process
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Blackodising process
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blast-furnace process
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Blaw-Knox process
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bleaching process
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Bochumer-Verein process
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boiling process
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bonding process
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bottom-argon-process process
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broadband random process
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bromoil transfer process
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bromoil process
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bubble-column process
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bubble-hearth process
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buffer-slag process
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Calmes process
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Canadizing process
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carbon mold process
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carbon process
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carbon-arc process
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carbon-in-leach process
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carbon-in-pulp process
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carbothermic process
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carbro process
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carrier-gas degassing process
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cascade process
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cast shell process
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catalytic DENO process
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cathodic process
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CC-CR process
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CC-DR process
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CC-HCR process
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cementation process
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cementation-in-pulp process
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cementing process
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centrifugal spinning process
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cermet process
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CESM process
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CEVAM process
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charge transfer process
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chemical vapor deposition process
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chemical-bonding process
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Chenot process
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china process
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cine exposure process
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cine process
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CLC process
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clean burn process
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cloudburst process
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CLU process
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CMOS process
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CNC process
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CO2 silicate process
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coal reduction process
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coal to gas process
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coal-gas-sumitomo process
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coal-oxygen-injection process
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COIN process
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cold box process
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cold doping process
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cold process
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cold scrap process
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cold type process
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collodion process
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color process
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concurrent processes
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consteel process
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consumable electrode vacuum arc melting process
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contact process
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continuous annealing process
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continuous casting-cleaning rolling process
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continuous casting-direct rolling process
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continuous casting-hot charging and rolling process
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continuous electroslag melting process
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continuous metal cast process
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continuous-on-line control process
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continuous-time process
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controlled pressure pouring process
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controlled process
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converter process
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cooking process
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coppering process
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copying process
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coupled cathodic-anodic process
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cracking process
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Creusot Loire Uddenholm process
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critical process
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cumulative process
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cuprammonium process
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curing process
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CVD process
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cyclic process
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Cyclosteel process
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Czochralski process
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daguerre photographic process
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dense-media process
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Desco process
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deterministic process
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developing process
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DH degassing process
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diabatic process
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diazo process
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diffused planar process
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diffusion process
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diffusion transfer process
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dip-forming process
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direct iron process
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direct process
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direct reduction process
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direct-sintering process
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discrete-time process
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discrete process
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DLM process
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Domnarvet process
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Dored process
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double-crucible process
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double-epi process
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doubling process
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D-process
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DR process
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drop-molding process
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dry adiabatic process
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dry process
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dry-blanch-dry process
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duplex process
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easy drawing process
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EBM process
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EBR process
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EF-AOD process
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electric furnace-argon oxygen decarburization process
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electroarc process
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electrocatalytic process
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electrocolor process
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electrodialysis reversal process
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electroflux-remelting process
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electromembrane process
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electron-beam-melting process
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electron-beam-refining process
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electrophotoadhesive process
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electrophotographic process
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electroslag refining process
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electroslag remelting process
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electroslag remelt process
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electrostatographic process
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electrostream process
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Elo-Vac process
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elquench process
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endothermic process
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energy efficient process
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entropy process
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enzymatic process
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EPIC process
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epidemic process
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epitaxial growth process
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epitaxy growth process
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ergodic process
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ESR process
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Estel process
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etching process
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exoergic process
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exothermic process
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extrusion-molded neck process
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ferroprussiate process
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Ferrox process
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filming process
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filtration-chlorination process
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Finkl-Mohr process
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FIOR process
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first process
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fixed-bed MTG process
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flash steel direct reduction process
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float process
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float-and-sink process
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float-zone process
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flow process
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fluid iron ore reduction process
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fluid-bed MTG process
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fluidized roasting process
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fluid-sand process
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FMC coke process
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foaming process
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foehn process
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food-machinery and chemical coke process
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foreground process
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Foren process
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FOS process
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freeze concentration process
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fuel-oxygen-scrap process
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full-mold process
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fusion-casting process
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Futacuchi process
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Gaussian process
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Gero mold degassing process
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Gero vacuum casting process
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GGS process
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girbitol process
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gradual reduction process
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growing process
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growth process
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gypsum-sulfuric acid process
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Hall electrolytic process
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Harris process
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hazardous process
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H-coal process
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heat-transfer process
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heavy-media process
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hibernating process
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HI-GAS process
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high-frequency induction process
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HIP process
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H-iron process
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Hoope process
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hot isostatic pressing process
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hot process
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hot-metal process
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hot-metal-and-scrap process
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hot-type process
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hydrogasification process
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hydrotype process
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HyL process
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IC-DR process
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image process
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imbibition process
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immiscible displacement process
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implantation process
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impurity doping process
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in-bulk process
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inchrome process
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in-draw process
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inductoslag-melting process
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ingot casting direct rolling process
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injection molding process
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in-line process
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Inred process
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interpolation process
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investment process
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ion-implantation process
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irreversible process
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isentropic process
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ISM process
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isobaric process
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isochoric process
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isoenthalpic process
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isoentropic process
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isometric process
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isoplanar process
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isothermal process
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iterative process
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jet-expanding process
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Kaldo process
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katadyn process
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Kawasaki-bottom-oxygen-process process
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Kawasaki-Gas-Lime-Injection process
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K-BOP process
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KEK process
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KG-LI process
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kiln-reduction process
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KIVCET cyclone smelting process
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KIVCET process
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knit-deknit process
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koetherizing process
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KR process
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kraft process
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lance bubbling equilibrium process
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LBE process
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LD-AB process
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LD-AC process
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LD-AOD process
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LD-argon bottom process
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LD-argon oxygen decarburization process
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LD-CB process
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LD-circle lance process
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LD-CL process
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LD-combination blow process
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LD-HC top and botton blowing process
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LDK process
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LD-Kawasaki-Gas process
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LD-KG process
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LD-OB process
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LD-OTB process
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LD-oxygen bottom process
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LD-oxygen-top-bottom process
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lift-off process
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liquefaction process
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liquid gas plug process
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liquid-phase process
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loop transfer process
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lost core process
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low-waste technological process
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LSI process
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LVR process
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LVS process
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Mannesmann powder process
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mapping process
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Markovian process
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Markov process
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masking process
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matte fuming process
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melting process
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mercast process
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Midland-Ross process
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Midrex process
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migration process
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miscible displacement process
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miscible plug process
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mixed autoregressive-moving average process
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moist adiabatic process
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Molynutz process
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monochrome process
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monolithic process
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MOS process
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MOSFET process
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motion-picture process
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moving average process
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narrowband random process
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Neely process
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negative-positive process
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Nitemper process
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no pickle process
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nonflow process
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non-Gaussian process
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Nord-Fuvo process
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Nu-iron process
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OBM process
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OG process
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OLP converter process
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one-way process
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open-hearth process
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orbitread process
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ore process
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Orthoflow cracking process
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Orthoforming process
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orthogonal increment process
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oxidation process
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oxide-isolated process
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oxygen-blow process
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oxygen-gas process
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oxygen-lancing process
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oxygen-steelmaking process
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packaging process
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pad-batch dyeing process
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pad-dry dyeing process
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pad-jig dyeing process
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pad-roll dyeing process
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pad-steam dyeing process
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pad-steam vat-print process
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PAMCO-hot-alloy process
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parent process
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PCR process
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Perrin process
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PHA process
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phonon process
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photoelectric process
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photomechanical process
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photovoltaic process
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pig iron-scrap process
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pig-and-ore process
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pigment padding dying process
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pigment padding process
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pigment process
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pinatype process
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planar process
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plasma etching process
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plasma etch process
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plasma process
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plasma-arc process
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Plasmamelt process
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Plasmared process
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plaster mold process
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plastic wirecut process
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polytropic process
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powder silicon ribbon process
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power-press process
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prepolymer process
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prepress processes
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pressure-driven membrane process
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primuline process
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propane-acid process
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pulsating mixing process
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Purex process
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pushbench process
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Q-BOP process
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QDT process
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quality basic oxygen process process
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quasi-independent processes
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quick and direct tapping process
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ram process
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random process
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rapid solidification plasma deposition process
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rayon continuous process
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receiving process
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reclamator reclaiming process
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recurrent process
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redox process
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reducing process
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reduction-smelting process
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relaxation process
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repetitive process
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reproduction process
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reversal process
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reversible process
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RH process
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RH-OB process
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ribbon process
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R-N direct-reduction process
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roasting-sintering process
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roast-leaching process
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robot-controlled process
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rongalit-potash process
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rotor process
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rustless process
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sample process
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schoop process
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scrap-and-pig process
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scrap-conditioning process
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scrap-ore process
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screen printed process
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self-developing process
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self-healing process
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semibatch process
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semiconductor process
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sending process
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Sendzimir coating process
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sequential process
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silicon-gate MOS process
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silicon-gate process
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silk-screen process
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single-pumpdown process
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SIP process
-
skein spinning process
-
Skinner multiple-hearth process
-
slag minimum process
-
slip-casting process
-
slow down process
-
SLPM process
-
SL-RN metallization process
-
SL-RN reduction process
-
solid source diffusion process
-
solution regrowth process
-
solvent extraction-electrowinning process
-
solvent plug process
-
SOS process
-
spin-draw-texturizing process
-
spinylock process
-
sponge iron process
-
spontaneous process
-
Stanal process
-
stationary random process
-
STB process
-
steady-flow process
-
steam-blow process
-
steelmaking process
-
Stelmor process
-
step and repeat process
-
stochastic process
-
stuffer box process
-
submerged arc process
-
subtractive process
-
suck-and-blow process
-
Sulf BT process
-
Sulfinuz process
-
Sumitomo-slag all recycling process
-
Sumitomo-top-bottom process
-
Sursulf process
-
system process
-
TBM process
-
T-die process
-
Technamation process
-
thermal DeNOx process
-
Therm-i-Vac process
-
Thermo-Flow process
-
thermoplastic process
-
Thomas process
-
Thorex process
-
three-color process
-
Thyssen-blast-metallurgy process
-
Tifran process
-
tightly coupled processes
-
time-varying process
-
trichromatic process
-
triplex process
-
Tropenas converter process
-
Tufftride process
-
Tufftride TF1 process
-
uncertain process
-
user process
-
vacuum arc remelting process
-
vacuum casting process
-
vacuum deoxidation process
-
vacuum induction refining process
-
vacuum stream-droplet process
-
vacuum-arc degassing process
-
vacuum-carbodeoxidation process
-
vacuum-carbonate process
-
vacuum-induction melting process
-
vacuum-melting process
-
vacuum-metallothermic process
-
vacuum-oxygen-decarburization process
-
VAD process
-
VAR process
-
VAW process
-
VHSIC process
-
vigom process
-
VIR process
-
viscose process
-
visual process
-
VLSI process
-
VOD process
-
waiting process
-
water gas process
-
waterfall process
-
wet process
-
white-heart process
-
Zinal process
-
zinc distilling process -
13 передельный чугун
1) Engineering: open-hearth pig iron (мартеновский), pig iron, steelmaking iron, steelmaking pig iron2) Metallurgy: conversion pig iron, steel-making iron3) Electrochemistry: open hearth iron -
14 Saniter, Ernest Henry
SUBJECT AREA: Metallurgy[br]b. 1863 Middlesbrough, Englandd. 2 November 1934 Rotherham, Yorkshire[br]English chemist and metallurgist who introduced a treatment to remove sulphur from molten iron.[br]Saniter spent three years as a pupil in J.E.Stead's chemical laboratory in Middlesbrough, and then from 1883 was employed in the same town as Assistant Chemist at the new North-Eastern Steelworks. In 1890 he became Chief Chemist to the Wigan Coal and Iron Company in Lancashire. There he devised a desulphurizing treatment for molten iron and steel, based upon the presence of abundant lime together with calcium chloride. Between 1898 and 1904 he was in the Middlesbrough district once more, employed by Dorman Long \& Co. and Bell Brothers in experiments which led to the establishment of Teesside's first large-scale basic open-hearth steel plant. Calcium fluoride (fluorspar), mentioned in Saniter's 1892 patent, soon came to replace the calcium chloride; with this modification, his method retained wide applicability throughout the era of open-hearth steel. In 1904 Saniter became chief metallurgist to Steel, Peech \& Tozer Limited of Sheffield, and he remained in this post until 1928. Throughout the last forty years of his life he participated in the discussion of steelmaking developments and practices.[br]Principal Honours and DistinctionsVice-President, Iron and Steel Institute 1927–34. Iron and Steel Institute (London) Bessemer Gold Medal 1910.Bibliography1892. "A new process for the purification of iron and steel from sulphur", Journal of the Iron and Steel Institute 2:216–22.1893. "A supplementary paper on a new process for desulphurising iron and steel", Journal of the Iron and Steel Institute 1:73–7. 29 October 1892, British patent no. 8,612.15 October 1892, British patent no. 8,612A. 29 July 1893, British patent no. 17, 692.28 October 1893, British patent no. 23,534.Further ReadingK.C.Barraclough, 1990, Steelmaking: 1850–1900 458, London: Institute of Metals, 271– 8.JKA -
15 plant
1) завод; фабрика; предприятие2) установка; агрегат3) электрическая станция, электростанция, ЭС (см. тж
station)4) энергоблок5) цех; отделение; мастерская6) установка сейсмоприёмника в грунте || устанавливать сейсмоприёмник в грунт•-
absorption plant
-
absorption refrigerating plant
-
accumulator plant
-
acetylene compressing plant
-
acid recovery acid restoring plant
-
acid recovery plant
-
adsorption plant
-
aerodrome accumulator plant
-
agglomeration plant
-
air separation plant
-
air-cooled refrigerating plant
-
aircraft development plant
-
aircraft manufacturing plant
-
aircraft overhaul plant
-
aircraft plant
-
aircraft washing plant
-
air-storage gas turbine plant
-
air-storage power plant
-
alkylation plant
-
A-plant
-
arc-furnace plant
-
arc-welding plant
-
asphalt plant
-
assembly plant
-
atomic marine plant
-
atomic power plant
-
automatic flour handling plant
-
auto-shredding plant
-
auxiliary gas turbine power plant
-
back-pressure heat generation plant
-
bakery plant
-
baling plant
-
basic arc-furnace plant
-
basic slag-grinding plant
-
batching plant
-
batch-weighing plant
-
Bessemer plant
-
biogas producing plant
-
blackout plant
-
blast-furnace plant
-
blending plant
-
bob-tail plant
-
boiler plant
-
bow-type plant
-
box plant
-
bread-making plant
-
breaking plant
-
brick-making plant
-
brine refrigerating plant
-
bulk plant
-
butter-making plant
-
by-product coke plant
-
by-product recovery plant
-
by-products plant
-
can-making plant
-
canning plant
-
captive plant
-
car assembly plant
-
carbon dioxide refrigerating plant
-
carbon plant
-
car-repair plant
-
casinghead gasoline plant
-
casting plant
-
CDQ plant
-
cell plant
-
centralized photovoltaic power plant
-
central-mixing plant
-
centrifugal refrigerating plant
-
centrifuge isotope separation plant
-
charge preparation plant
-
cheese-making plant
-
chemical desalting plant
-
chemical separation plant
-
circulation degassing plant
-
clarification plant
-
clay-drying plant
-
closed-cycle cryogenic plant
-
coal gasification-gas cleaning plant
-
coal-cleaning plant
-
coal-conveying plant
-
coal-fired plant
-
coal-injection plant
-
coal-liquefaction plant
-
coal-preparation plant
-
coal-pulverizing plant
-
coal-reduction plant
-
coal-to-methanol plant
-
coal-washing plant
-
cogeneration plant
-
coke dry-quenching plant
-
coke-handling plant
-
coke-pitch plant
-
coke-quenching plant
-
coking plant
-
combination topping and cracking plant
-
combined heat power plant
-
combined photovoltaic-deolian electric plant
-
combined-cycle plant
-
combined-cycle steam plant
-
combiner plant
-
compressor plant
-
concentration plant
-
concrete product plant
-
concrete-mixing plant
-
concreting plant
-
condensate liquid recovery plant
-
condensate purification plant
-
condensing plant
-
confectionary producing plant
-
confectionary plant
-
constant-head plant
-
contactor centrifuge acid treating plant
-
continuous-casting plant
-
conventional power plant
-
converter plant
-
cooling plant
-
copper-smelting plant
-
countercurrent ion exchange plant
-
CR plant
-
crushing plant
-
cryogenic freezing plant
-
cryogenic power generation plant
-
crystal drawing plant
-
cutting and shearing plant
-
cycle-degassing plant
-
cycling plant
-
deaerating plant
-
degreasing plant
-
dendro-thermal power plant
-
desalting plant
-
desinfection plant
-
detinning plant
-
dewatering plant
-
diesel engine power plant
-
direct-expansion refrigerating plant
-
disposal plant
-
distilling plant
-
district-heating plant
-
diversion plant
-
double-strand plant
-
drainage pumping plant
-
drop-hammer plant
-
dry-process plant
-
dual-purpose turbine plant
-
dust extraction plant
-
dust handling plant
-
earth-freezing plant
-
earth-moving plant
-
EBM plant
-
EBR plant
-
ECM plant
-
edible fat plant
-
EDR plant
-
effluent treatment plant
-
eight-strand plant
-
ejector refrigerating plant
-
electric pig-iron plant
-
electric power plant
-
electrical propulsion plant
-
electricity distribution plant
-
electrochemical machining plant
-
electrodialysis plant
-
electrodialysis reversal plant
-
electrolytic tinning plant
-
electron-beam-melting plant
-
electron-beam-refining plant
-
electrostatic precipitation desalting plant
-
engineering plant
-
evaporation plant
-
extraction plant
-
extra-terrestrial power plant
-
fabric-dipping plant
-
feed milling
-
fermentation plant
-
filter plant
-
finishing plant
-
fish processing plant
-
fission power plant
-
fixed plant
-
fixed-head power plant
-
flexible manufacturing plant
-
flexing generating plant
-
floating nuclear power plant
-
floating pile-driving plant
-
floating power plant
-
flotation plant
-
flour milling plant
-
folding carton plant
-
food concentrate plant
-
force ventilation plant
-
formcoke plant
-
fossil-fuel plant
-
fractional horsepower refrigerating plant
-
fractional ton refrigerating plant
-
fragmentation plant
-
freezing plant
-
fruit-and-vegetable processing plant
-
fuel-pulverizing plant
-
full-fashioned sweater plant
-
full-scale plant
-
fume-cleaning plant
-
fume-extraction plant
-
furniture plant
-
fusion power plant
-
galvanizing plant
-
gas absorption plant
-
gas fire extinguishing plant
-
gas fractionation plant
-
gas liquids plant
-
gas plant
-
gas turbine power plant
-
gas turbine plant
-
gas-and-oil-buming power plant
-
gas-carburizing plant
-
gas-cleaning plant
-
gas-compressor plant
-
gaseous-diffusion plant
-
gas-fired plant
-
gas-generator plant
-
gasification-based combined cycle plant
-
gasifier-combined cycle plant
-
gasoline plant
-
gas-producer plant
-
gas-treating plant
-
gas-washing plant
-
generating plant
-
geothermal power plant
-
glass-manufacturing plant
-
glass-recycling plant
-
grading plant
-
graphite plant
-
graphite recovery plant
-
grease plant
-
hardening plant
-
H-cycle plant
-
heat power plant
-
heat pump plant
-
heat raising plant
-
heat-electric generating plant
-
heating and power plant
-
heating network plant
-
heating plant
-
heating-water converter plant
-
heavy-water plant
-
high-capacity refrigerating plant
-
high-head power plant
-
H-iron plant
-
hot dip filming plant
-
hot water peaking boiler plant
-
hybrid wind-photovoltaic plant
-
hydroelectric power plant
-
hydroelectric plant
-
hydroelectric pumped storage power plant
-
hydro-photovoltaic plant
-
ice plant
-
incinerator plant
-
indicator plant
-
industrial power plant
-
industrial steam plant
-
industrial waste treatment plant
-
industrial-scale plant
-
in-house printing plant
-
intake plant
-
integral coal gasification combined cycle plant
-
integrated steel plant
-
interlocking plant
-
intermediate solar plant
-
internal combustion power plant
-
ion-exchange plant
-
ion-exchange softening plant
-
iron powder plant
-
iron-ore pelletizing plant
-
isolated generating plant
-
isotope separation plant
-
jobbing plant
-
Kaldo-steelmaking plant
-
Kaldo plant
-
killing plant
-
laboratory-scale plant
-
ladle degassing plant
-
ladle-spraying plant
-
LD plant
-
LDAC oxygen-steelmaking plant
-
light plant
-
liquefied natural gas plant
-
liquefied petroleum gas plant
-
liquid freezing plant
-
liquor plant
-
loading plant
-
local plant
-
locomobile power plant
-
locomotive repair plant
-
loop plant
-
low-capacity refrigerating plant
-
low-head power plant
-
lube plant
-
machine tool plant
-
magnetohydrodynamic power plant
-
main propulsion machinery plant
-
marine reactor plant
-
marine refrigerating plant
-
meat packing plant
-
meat producing plant
-
mechanical air-conditioning plant
-
mechanical drive gas turbine plant
-
mechanical refrigerating plant
-
medium-head power plant
-
merchant-coke plant
-
metals-recovery plant
-
MHD power plant
-
midget power plant
-
milk plant
-
milling plant
-
mine-mouth power plant
-
mixed pumped-storage plant
-
mixing plant
-
mobile power plant
-
mold degassing plant
-
mold hydraulic cleaning plant
-
mortar-mixing plant
-
muck-shifting plant
-
mud-mixing plant
-
multiple-unit power plant
-
multipurpose sea-water desalination plant
-
multistrand plant
-
multiunit power plant
-
naphtha-treating plant
-
natural gasoline plant
-
natural gas-sweetening plant
-
noncondensing power plant
-
nonintegrated steel plant
-
nonterrestrial power plant
-
nuclear cogeneration plant
-
nuclear gas turbine plant
-
nuclear heating plant
-
nuclear power plant
-
nuclear steam power plant
-
oil shale retorting plant
-
oil-and-gas gathering plant
-
oil-burning power plant
-
oil-desulfurization plant
-
oil-extraction plant
-
oil-fired plant
-
oil-reclamation plant
-
oil-treating plant
-
on-line gas plant
-
open-coil annealing plant
-
open-cycle gas turbine plant
-
open-hearth plant
-
orbital power plant
-
orbital solar power plant
-
ore-bedding plant
-
ore-blending plant
-
ore-breaker plant
-
ore-conditioning plant
-
ore-dressing plant
-
ore-roasting plant
-
ore-washing plant
-
outdoor-type power plant
-
oxidizing plant
-
oxygen-converter plant
-
ozone plant
-
packaged power plant
-
packaged refrigerating plant
-
packing plant
-
paint varnish and lacquer plant
-
pallet conveyor mold-type plant
-
paperboard plant
-
peaking power plant
-
peaking boiler plant
-
peak-shaving liquefied natural gas plant
-
pellet plant
-
petroleum chemical plant
-
photovoltaic power plant
-
physical plant
-
pickling plant
-
pig-casting plant
-
pilot plant
-
plating plant
-
plywood manufacturing plant
-
polymerization plant
-
pontoon pile-driving plant
-
power plant
-
preserving plant
-
printing plant
-
process gas turbine plant
-
processing plant
-
Prolerizing plant
-
propulsion plant
-
public utility power plant
-
public-service power plant
-
pulverized-coal-fired plant
-
pulverizing plant
-
pump plant
-
pumped-storage plant
-
pumping plant
-
pumping-generating plant
-
quick-freezing plant
-
radiant freeze-drying plant
-
ready-mix plant
-
recovery plant
-
reforming plant
-
refrigerating plant
-
refuse-fired plant
-
regasifying plant
-
regenerative gas turbine plant
-
relift pumping plant
-
rendering plant
-
retreading plant
-
reverse osmosis plant
-
rolling plant
-
route interlocking plant
-
run-of-river plant
-
sack filling plant
-
salt plant
-
sand-preparing plant
-
satellite printing plant
-
scrap-shredding plant
-
screening plant
-
sea-water desalting plant
-
sedimentation plant
-
self-contained rail welding plant
-
self-contained refrigerating plant
-
self-sufficient plant
-
semiclosed-cycle gas turbine plant
-
semiunderground plant
-
separating plant
-
sewage disposal plant
-
simple-cycle gas turbine plant
-
simulated power plant
-
single-pool power plant
-
single-strand plant
-
single-unit plant
-
sinking plant
-
sintering plant
-
sizing plant
-
skimming plant
-
slab-producting plant
-
slag-expanding plant
-
slag-screening plant
-
slaughtering and meat processing plant
-
slaughtering plant
-
sludge filtration plant
-
small-size refrigerating plant
-
smoke extractor plant
-
soap plant
-
solar ice plant
-
solar plant
-
solar power plant
-
solar tower plant
-
solvent-extraction plant
-
split-shaft gas turbine plant
-
sputtering plant
-
stabilization plant
-
stand-alone solar power plant
-
standby plant
-
stationary gas turbine plant
-
stationary refrigerating plant
-
steam condensing plant
-
steam plant
-
steam power plant
-
steam-electric-turbine plant
-
steaming plant
-
steel continuous casting plant
-
steel plant
-
storage plant
-
stream degassing plant
-
stripping plant
-
sugar refining plant
-
sulfur recovery plant
-
sunken-type plant
-
superposed plant
-
supplementary fired combined cycle plant
-
supplementary heating plant
-
sweater knitting plant
-
tap-degassing plant
-
tar-boiling plant
-
tea plant
-
television plant
-
tertiary plant
-
thermal power plant
-
thermal plant
-
thermodynamic solar power plant
-
thermoelectric refrigerating plant
-
tidal power plant
-
tiger topping plant
-
tinning plant
-
tin-refining plant
-
tin-smelting plant
-
tonnage oxygen plant
-
top-blown oxygen vessel plant
-
topping plant
-
tower-type plant
-
train washing plant
-
transformer plant
-
trash-fired power plant
-
traveling pneumatic grain-discharging plant
-
treatment plant
-
tritium removal plant
-
turbine plant
-
turbo-refrigerating plant
-
two-axes focusing solar plant
-
two-shaft plant
-
ultrafiltration concentration plant
-
undercar power plant
-
underground nuclear power plant
-
underwater nuclear power plant
-
unit refrigerating plant
-
uranium enrichment plant
-
vacuum casting plant
-
vacuum degassing plant
-
vacuum dezincing plant
-
vacuum gas turbine plant
-
vacuum metallothermic plant
-
vacuum molding plant
-
vacuum-decarburization plant
-
variable-head power plant
-
variable-load power plant
-
vertical plant
-
vulcanizing plant
-
washing plant
-
waste disposal plant
-
waste-to-energy cogeneration plant
-
waste-to-energy plant
-
water demineralization plant
-
water softening plant
-
water treatment plant
-
water-cooling plant
-
waterpower plant
-
wave energy plant
-
wax plant
-
wet-process plant
-
wind-mill electric generating plant
-
wire-drawing plant
-
year-round air-conditioning plant
-
zero-discharge plant
-
zinc ore roasting plant
-
zinc-smelting plant -
16 operation
1) работа; функционирование2) матем. действие3) эксплуатация4) (технологическая) операция; процесс; цикл ( обработки)6) управление7) вчт. операция; команда8) предприятие•-
abnormal operation
-
acquisition operation
-
aerial operation
-
aerial survey operation
-
aerial work operation
-
aerobatics operation
-
aerospace operations
-
air-bumped-and-rinse operation
-
aircraft operations
-
air-lift well operation
-
airport facilities operation
-
alignment operation
-
all-weather operations
-
AND operation
-
approach operation
-
arithmetic operation
-
artificial-lift well operation
-
associated fire control operation
-
asynchronous operation
-
attached operation
-
attempted operation
-
attended operation
-
authorized operation
-
automated operation
-
automatic block operation
-
averaging operation
-
background operation
-
batch operation
-
bidirectional operation
-
bilevel operation
-
binary operation
-
bistable operation
-
bitwise operation
-
bit operation
-
blanking operation
-
blasting operation
-
blocking-off operation
-
bookkeeping operations
-
Boolean operation
-
both-way operation
-
brake test operation
-
braking operation
-
branch operation
-
breaking operation
-
bytewise operation
-
byte operation
-
cable operation
-
Carnot operation
-
carrier-recovery operation
-
cation-anion operation
-
caving operations
-
cavitation-free operation
-
centralized operation
-
channel operation
-
check operation
-
chipping-and-hauling operation
-
class A operation
-
class B operation
-
class C operation
-
climb to cruise operation
-
closing operation
-
CNC operation
-
cocurrent operation
-
coded operation
-
co-frequency operation
-
cold end operation
-
commercial operation
-
comparison operation
-
complete operation
-
concurrent operation
-
conjunction operation
-
continual harvesting operations
-
continuous operation
-
continuous-wave operation
-
control operation
-
counter-current operation
-
critical operation
-
cutting operation
-
cycle operation
-
declarative operation
-
decrement operation
-
demonstration operation
-
dependent manual operation
-
dependent power operation
-
diplex operation
-
disjunction operation
-
diversity operation
-
docked operation
-
docking operations
-
domestic operations
-
double-track operation
-
dredging operations
-
dressing operation
-
drifting operation
-
drilling and blasting operations
-
drilling operation
-
dual operation
-
dual-point operation
-
duplex operation
-
dyadic operation
-
emergency operation
-
engine run-up operation
-
en-route operation
-
except operation
-
exclusive OR operation
-
experimental operation
-
explosionproof operation
-
face operations
-
fail-safe operation
-
fail-soft operation
-
failure-free operation
-
false operation
-
fault tolerant operation
-
faulty operation
-
felling operation
-
ferry operation
-
field operation
-
final felling operations
-
finite reflux operation
-
fire control operation
-
fixed-cycle operation
-
fixed-point operation
-
flashing operation
-
floating-point operation
-
flowing well operation
-
foreground operation
-
forest harvesting operations
-
free-flier operation
-
free-flying operation
-
freight operation
-
fretting operation
-
fringe operation
-
full tree operations
-
full-duplex operation
-
gas-lift well operation
-
gate operation
-
general aviation operations
-
generic operation
-
get-home engine operation
-
half-duplex operation
-
hands-off operation
-
harvesting operations
-
hauling operation
-
helicopter logging operation
-
high-gain operation
-
high-speed operation
-
hot end operation
-
hot-stick operation
-
housekeeping operation
-
hydropacker plunger lift well operation
-
idling engine operation
-
IF-THEN operation
-
illegal operation
-
impeded harmonic operation
-
implication operation
-
in-channel operation
-
increment operation
-
independent manual operation
-
individual-point operation
-
indoor operation
-
infinite reflux operation
-
in-phase operation
-
input/output operation
-
instruction operation
-
instrument flight rules operation
-
integer operation
-
international operations
-
iterative operation
-
jump operation
-
kernel operation
-
kiln operation
-
lagging power factor operation
-
landing operation
-
large-scale space operations
-
large-signal operation
-
leading power factor operation
-
leveling operation
-
level-off operation
-
linear operation
-
lock-on operation
-
logging operations
-
logical operation
-
loop operation
-
low flying operation
-
low-effort operation
-
low-gain operation
-
lumbering operation
-
machine operation
-
machining operation
-
maintenance operation
-
manual operation
-
marginal operation
-
measuring operation
-
mechanical operation
-
mechanized logging operations
-
melting operation
-
mill operation
-
minimally-manned operation
-
minimal operation
-
model operation
-
monadic operation
-
monostable operation
-
move operation
-
multicarrier operation
-
multimode operation
-
multiple operation
-
multiple-stream operation
-
multiple-unit operation
-
multiplex operation
-
NAND operation
-
no operation
-
no-load operation
-
noncentralized operation
-
noncommercial operations
-
noncondensing operation
-
nonextraction operation
-
nonfailure operation
-
nonresiduum operation
-
nonscheduled operations
-
nonslagging operation
-
NOR operation
-
normal pump operation
-
NOT operation
-
NOT-AND operation
-
NOT-OR operation
-
off-design operation
-
off-line operation
-
one-shot operation
-
one-step operation
-
on-line operation
-
on-off operation
-
open-air operation
-
open-hearth operation
-
opening operation
-
OR operation
-
outdoor operation
-
overburden operations
-
packet-mode operation
-
packet-switching operation
-
parallel operation
-
partial reflux operation
-
passenger operations
-
peak load operation
-
pleasure operation
-
point operation
-
point-to-point operation
-
positioning operation
-
post-drill operation
-
post-fault operation
-
power patrol operation
-
power station operation
-
power system operation
-
practice operation
-
predrill operation
-
primitive operation
-
products pipeline operation
-
pull-in operation
-
pulse laser operation
-
pulsed operation
-
punched tape operation
-
push-pull operation
-
push-push operation
-
quadrature operation
-
quantizing operation
-
quarry operation
-
rafting operation
-
read operation
-
real-time operation
-
refusing operation
-
remote operation
-
rendezvous operations
-
repetitive operation
-
rescue operations
-
reservoir operation
-
retarder operation
-
rotorcraft operations
-
rough engine operation
-
run-of-river operation
-
scale operation
-
scheduled operation
-
search operation
-
self-contained and self-monitored operation
-
semifinish operation
-
sensory operation
-
settling operation
-
shift operation
-
shunting operation
-
signal operation
-
simplex operation
-
simultaneous operation
-
single-block operation
-
single-contact operation
-
single-mode operation
-
single-pulse operation
-
single-step operation
-
sinking operation
-
slag-free operation
-
slag-tap operation
-
slightly manned operation
-
small-signal operation
-
solo supervised operation
-
solo operation
-
speed range operation
-
spike operation
-
stable operation
-
staggered-parallel operation
-
standby operation
-
starting engine operation
-
start-stop operation
-
staying operation
-
steady operation
-
steaming operation
-
steelmaking operation
-
step-and-repeat operation
-
step-by-step operation
-
stitch transfer operation
-
stone-free operation
-
storage operation
-
straight gas-lift well operation
-
string operation
-
studio operation
-
stump wood operation
-
suppressed-carrier operation
-
switch operation
-
switching operation
-
synchronous operation
-
tap-change operation
-
taxing operation
-
terminal operation
-
test operation
-
thinning operations
-
threading operation
-
throttled engine operation
-
timber-harvesting operations
-
total reflux operation
-
touchdown operation
-
track-while-scan operation
-
training operation
-
transfer operation
-
transient operation
-
tree length operations
-
trial operation
-
trouble-free operation
-
turbine operation
-
two-shift operation
-
two-vessel operation
-
typical operation
-
unary operation
-
unattended operation
-
unauthorized operation
-
underground operation
-
undocked operation
-
undocking operations
-
uninterrupted operation
-
unmanned operation
-
unthrottled engine operation
-
variable-load operation
-
vertical rotorcraft operation
-
water-system operation
-
well operation
-
whole tree operations
-
wide-open throttle operation
-
word operation
-
working operation
-
write operation
-
yard operation
-
year-round operations -
17 practice
2) режим работы•to specify drilling practices — задавать режим бурения-
continuous continuous casting practice
-
semicontinuous casting practice
-
aircraft maintenance practice
-
banking practice
-
blasting practice
-
blowing-in practice
-
blowing-out practice
-
capping practice
-
checking practice
-
drafting practice
-
drilling practice
-
fifty-fifty practice
-
flexible fuel practice
-
flush slag practice
-
flush practice
-
foundry practice
-
fuel practice
-
gating practice
-
high molten pig iron practice
-
ladle practice
-
melting practice
-
motion-picture practice
-
open-hearth practice
-
pit practice
-
pouring practice
-
recommended operating practices
-
recommended practices
-
refining practice
-
routine practice
-
safe practice
-
scrap practice
-
scrap-and-coke practice
-
scrap-and-hot metal practice
-
scrap-and-pig iron practice
-
scrap-and-pig practice
-
scrap-processing practice
-
sequence casting practice
-
single-slag practice
-
slag recovery practice
-
slagging practice
-
slag practice
-
smelting practice
-
standard practice
-
steelmaking practice
-
teeming practice
-
two-slag practice
-
welding practice -
18 цех
department, ( завода) floor, house, plant, production unit, room, shop, shopfloor, workshop* * *цех м.
shop, department, plantбессеме́ровский цех — Bessemer plantцех блю́минга — blooming mill departmentбонда́рный цех — cooperage shopброшюро́вочный цех — book-stitching shopвагоноремо́нтный цех — carriage repair shopвспомога́тельный цех — service shop, service departmentцех вулканиза́ции — vulcanization shop, vulcanization departmentгальвани́ческий цех — electroplating shopцех глубо́кой печа́ти — gravure departmentдеревообраба́тывающий цех — wood-working shopдо́менный цех — blast-furnace plantдуби́льный цех — tan room, tanyardзаготови́тельный цех — blanking shopзо́льный цех кож. — lime yardинструмента́льный цех — tool (maker) shop, toolroomкала́ндровый цех — calendering shopкислоро́дно-конве́ртерный цех — oxygen-converter plantконсе́рвный цех — canning [preserving] shopкормоприготови́тельный цех — feed preparation shopкузне́чный цех — forge shopлите́йный цех — foundryлуди́льный цех — tinning plantмарте́новский цех — open-hearth plantмехани́ческий цех — machine shopмоде́льный цех — pattern shopмонта́жный цех — erecting shop; ( монтажа электропроводки) wiring shopнабо́рный цех — composing roomо́пытный цех — pilot shopосновно́й цех ( в отличие от вспомогательных) — producing [production] department (contrasts with service departments)цех отгру́зки гото́вой проду́кции — shipping departmentотде́лочный цех1. finishing shop, finishing department2. кож. currying shopпереде́льный цех прок. — rerolling departmentпереплё́тный цех — book bindery, bookbinding departmentпеча́тный цех — pressroom, printing departmentподготови́тельный цех рез. — stockpreparation shopпрока́тный цех — rolling-mill shopразли́вочный цех метал. — casting plantремо́нтный цех — repair [maintenance] shopсбо́рочный цех — assembling [assembly] shop, assembling departmentсва́рочный цех — welding shopсталелите́йный цех — steel(-casting) departmentсталеплави́льный цех — steelmaking plantтерми́ческий цех — heat-treating departmentфо́рмный цех полигр. — plateroom, plate departmentформо́вочный цех — moulding shopцех холо́дной листово́й штампо́вки — sheet-metal pressworking shopцех холо́дной объё́мной штампо́вки — cold-die-forging shopцех цветно́го литья́ — non-ferrous foundryчугунолите́йный цех — iron foundryэлектроремо́нтный цех — electrical repair shopэлектросталеплави́льный цех — electric-furnace (melting) shopцех электроста́нции, коте́льный — boiler departmentцех электроста́нции, маши́нный — engine [turbine] departmentцех электроста́нции, турби́нный — turbine department* * * -
19 производство
fabrication, generation, manufacture, making, manufacturing, production, trade* * *произво́дство с.1. productionсвё́ртывать произво́дство ( обычно постепенно) — phase out [phase back] productionсня́тый с произво́дства — out of production2. ( добыча) production3. ( изготовление) manufacture; ( из полуфабрикатов) fabricationпроизво́дство по за́мкнутому ци́клу — captive manufacture4. ( отрасль) industryпроизво́дство без вы́хода на ры́нок — captive productionбонда́рное произво́дство — cooperageбума́жное произво́дство — papermakingпроизво́дство в о́пытных масшта́бах — pilot productionпроизво́дство в промы́шленных масшта́бах — production in quantity, commercial productionвспомога́тельное произво́дство1. auxiliary process(es)2. ( подразделение завода) auxiliary departmentпроизво́дство га́за — (особ. природного) gas production; (особ. искусственного) gas generationдо́менное произво́дство — blast-furnace processедини́чное произво́дство — individual [single-unit, piece-work] productionкни́жное произво́дство — book productionпроизво́дство ко́жи — leather manufactureкоксохими́ческое произво́дство — cake and by-product processконве́ртерное произво́дство — converter process(es)крупносери́йное произво́дство — large-lot [large-scale] productionкузне́чно-пре́ссовое произво́дство — press forgingкузне́чно-штампо́вочное произво́дство — press forging; ( объёмная штамповка) die forgingлесохими́ческое произво́дство — wood chemical industryлистопрока́тное произво́дство — ( толстого листа) plate rolling; ( тонкого листа) sheet rollingлите́йное произво́дство — foundryмарте́новское произво́дство — open-hearth processма́ссовое произво́дство — mass productionмелкосери́йное произво́дство — small-lot [small-scale] productionмоде́льное произво́дство — pattern-makingнепреры́вное произво́дство — continuous processпроизво́дство о́буви — shoe makingо́пытное произво́дство — pilot(-scale) productionполузаводско́е произво́дство хим. — pilot-scale processпото́чное произво́дство — flow(-line) [in-line] productionпрока́тное произво́дство — rollingсва́рочное произво́дство — welding fabrication; ( раздел техники) welding engineeringсери́йное произво́дство — ( в противовес экспериментальному или опытному) quantity [full-scale] production; ( партиями) batch [series] productionпроизво́дство ста́ли — steelmakingтексти́льное произво́дство — textile manufactureпроизво́дство тепла́ — heat generation, heat productionтруболите́йное произво́дство — pipe castingтрубопрока́тное произво́дство — pipe rollingтрубосва́рочное произво́дство — pipe weldingфабри́чное произво́дство — manufacturing, manufactureпроизво́дство фо́сфорной кислоты́ экстракцио́нным спо́собом — production of phosphoric acid by the wet processхлопчатобума́жное произво́дство — cotton manufactureпроизво́дство чугуна́ — iron makingшве́йное произво́дство — clothing [garment] manufactureшо́рно-седе́льное произво́дство — saddleryшту́чное произво́дство — individual productionпроизво́дство электри́ческой эне́ргии — generation of electrical energy, electricity production -
20 platemaking operation
read operation — процесс чтения, чтение; считывание
English-Russian big polytechnic dictionary > platemaking operation
- 1
- 2
См. также в других словарях:
open-hearth steelmaking — Смотри мартеновское производство … Энциклопедический словарь по металлургии
Open hearth furnace — Engineering portal … Wikipedia
open-hearth process — a process of steelmaking in which the charge is laid in a furnace (open hearth furnace) on a shallow hearth and heated directly by burning gas as well as radiatively by the furnace walls. [1885 90] * * * or Siemens Martin process Steelmaking… … Universalium
open-hearth process — noun a process for making steel using an open hearth furnace • Hypernyms: ↑steel production * * * noun : a process of making steel in a furnace of the regenerative reverberatory type from pig iron usually charged molten by adding to it with lime… … Useful english dictionary
open-hearth process — /oʊpən ˈhaθ proʊsɛs/ (say ohpuhn hahth prohses) noun the steelmaking process using an open hearth furnace …
open-hearth — /oʊpən ˈhaθ/ (say ohpuhn hahth) adjective denoting a shallow hearth reverberatory furnace for steelmaking, with two openings at each end to admit fuel and air. Combustion takes place over the molten metal charge …
Steelmaking — is the second step in producing steel from iron ore. In this stage, impurities such as sulfur, phosphorus, and excess carbon are removed from the raw iron, and alloying elements such as manganese, nickel, chromium and vanadium are added to… … Wikipedia
Basic oxygen steelmaking — ( BOS, BOF, Linz Donawitz Verfahren, LD converter ) is a method of steelmaking in which carbon rich molten iron is made into steel. The process is an improvement over the historically important Bessemer process. The LD converter is named after… … Wikipedia
мартеновское производство — [open hearth steelmaking] производство стали в мартеновских печах окислительной плавкой железосодержащих материалов: чугуна, стального лома, железной руды и флюсов (Смотри Мартеновский процесс). Наибольший вклад в создание мартеновского… … Энциклопедический словарь по металлургии
steel — steellike, adj. /steel/, n. 1. any of various modified forms of iron, artificially produced, having a carbon content less than that of pig iron and more than that of wrought iron, and having qualities of hardness, elasticity, and strength varying … Universalium
Sparrows Point — is an unincorporated area in Baltimore County, Maryland, adjacent to Dundalk, Maryland. Named for Thomas Sparrow, landowner, it was the site of a very large industrial complex owned by Bethlehem Steel, known for steelmaking and… … Wikipedia