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1 TSL
1) Компьютерная техника: Terminal System Language, Метка сигнала маршрута (Trail Signal Label)2) Спорт: Team Sportsmanship Liaison3) Военный термин: tri-service laser, troop safety line4) Техника: Three Stage Lug, Three Stage Lugs, Triple Stage Lug, test set logic, triservice laser, troubleshooting loop5) Религия: The Summit Lighthouse6) Сокращение: typesetting lead7) Университет: TechSideLine.com8) Электроника: Triple Super Lead9) Вычислительная техника: thread local storage, three state logic10) Иммунология: T cell-mediated specific lysis11) Фирменный знак: The Shifted Librarian12) Реклама: time spent listening13) СМИ: The Simpsons Lair14) Глоссарий компании Сахалин Энерджи: ТСЛ (Транссибирская линия, Trans Siberian Line), реле низкой температуры (temperature switch low)15) Сетевые технологии: Transport Layer Security16) Полимеры: Technical Service Laboratory (подразделение компании DuPont)17) Сахалин Р: Trans Siberian Line, temperature switch low18) Электротехника: transient stability limit19) Правительство: Texas State Library -
2 tsl
1) Компьютерная техника: Terminal System Language, Метка сигнала маршрута (Trail Signal Label)2) Спорт: Team Sportsmanship Liaison3) Военный термин: tri-service laser, troop safety line4) Техника: Three Stage Lug, Three Stage Lugs, Triple Stage Lug, test set logic, triservice laser, troubleshooting loop5) Религия: The Summit Lighthouse6) Сокращение: typesetting lead7) Университет: TechSideLine.com8) Электроника: Triple Super Lead9) Вычислительная техника: thread local storage, three state logic10) Иммунология: T cell-mediated specific lysis11) Фирменный знак: The Shifted Librarian12) Реклама: time spent listening13) СМИ: The Simpsons Lair14) Глоссарий компании Сахалин Энерджи: ТСЛ (Транссибирская линия, Trans Siberian Line), реле низкой температуры (temperature switch low)15) Сетевые технологии: Transport Layer Security16) Полимеры: Technical Service Laboratory (подразделение компании DuPont)17) Сахалин Р: Trans Siberian Line, temperature switch low18) Электротехника: transient stability limit19) Правительство: Texas State Library -
3 Ayrton, William Edward
[br]b. 14 September 1847 London, Englandd. 8 November 1908 London, England[br]English physicist, inventor and pioneer in technical education.[br]After graduating from University College, London, Ayrton became for a short time a pupil of Sir William Thomson in Glasgow. For five years he was employed in the Indian Telegraph Service, eventually as Superintendent, where he assisted in revolutionizing the system, devising methods of fault detection and elimination. In 1873 he was invited by the Japanese Government to assist as Professor of Physics and Telegraphy in founding the Imperial College of Engineering in Tokyo. There he created a teaching laboratory that served as a model for those he was later to organize in England and which were copied elsewhere. It was in Tokyo that his joint researches with Professor John Perry began, an association that continued after their return to England. In 1879 he became Professor of Technical Physics at the City and Guilds Institute in Finsbury, London, and later was appointed Professor of Physics at the Central Institution in South Kensington.The inventions of Avrton and Perrv included an electric tricycle in 1882, the first practicable portable ammeter and other electrical measuring instruments. By 1890, when the research partnership ended, they had published nearly seventy papers in their joint names, the emphasis being on a mathematical treatment of subjects including electric motor design, construction of electrical measuring instruments, thermodynamics and the economical use of electric conductors. Ayrton was then employed as a consulting engineer by government departments and acted as an expert witness in many important patent cases.[br]Principal Honours and DistinctionsFRS 1881. President, Physical Society 1890–2. President, Institution of Electrical Engineers 1892. Royal Society Royal Medal 1901.Bibliography28 April 1883, British patent no. 2,156 (Ayrton and Perry's ammeter and voltmeter). 1887, Practical Electricity, London (based on his early laboratory courses; 7 edns followed during his lifetime).1892, "Electrotechnics", Journal of the Institution of Electrical Engineers 21, 5–36 (for a survey of technical education).Further ReadingD.W.Jordan, 1985, "The cry for useless knowledge: education for a new Victorian technology", Proceedings of the Institution of Electrical Engineers, 132 (Part A): 587– 601.G.Gooday, 1991, History of Technology, 13: 73–111 (for an account of Ayrton and the teaching laboratory).GW -
4 company
bulk petrol (transport) company — Бр. рота подвоза наливного (бестарного) горючего
Commando (oil gas extraction area) company — рота охраны и защиты (нефтегазовых промыслов), рота «команчо»
field company, RE — Бр. саперная рота
field survey company, RE — Бр. полевая топографическая рота инженерных войск
HQ company, US Army — штабная рота штаба СВ США
long-range (reconnaissance) patrol company — рота дальней [глубинной] разведки
special boat company, Royal Marines — Бр. особая [отдельная] рота десантных катеров МП
— AG's company— airborne infantry company— air-mission company light— commandos company— Rangers company— smoke generator company -
5 specialist
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6 Gabor, Dennis (Dénes)
SUBJECT AREA: Photography, film and optics[br]b. 5 June 1900 Budapest, Hungaryd. 9 February 1979 London, England[br]Hungarian (naturalized British) physicist, inventor of holography.[br]Gabor became interested in physics at an early age. Called up for military service in 1918, he was soon released when the First World War came to an end. He then began a mechanical engineering course at the Budapest Technical University, but a further order to register for military service prompted him to flee in 1920 to Germany, where he completed his studies at Berlin Technical University. He was awarded a Diploma in Engineering in 1924 and a Doctorate in Electrical Engineering in 1927. He then went on to work in the physics laboratory of Siemens \& Halske. He returned to Hungary in 1933 and developed a new kind of fluorescent lamp called the plasma lamp. Failing to find a market for this device, Gabor made the decision to abandon his homeland and emigrate to England. There he joined British Thompson-Houston (BTH) in 1934 and married a colleague from the company in 1936. Gabor was also unsuccessful in his attempts to develop the plasma lamp in England, and by 1937 he had begun to work in the field of electron optics. His work was interrupted by the outbreak of war in 1939, although as he was not yet a British subject he was barred from making any significant contribution to the British war effort. It was only when the war was near its end that he was able to return to electron optics and begin the work that led to the invention of holography. The theory was developed during 1947 and 1948; Gabor went on to demonstrate that the theories worked, although it was not until the invention of the laser in 1960 that the full potential of his invention could be appreciated. He coined the term "hologram" from the Greek holos, meaning complete, and gram, meaning written. The three-dimensional images have since found many applications in various fields, including map making, medical imaging, computing, information technology, art and advertising. Gabor left BTH to become an associate professor at the Imperial College of Science and Technology in 1949, a position he held until his retirement in 1967. In 1971 he was awarded the Nobel Prize for Physics for his work on holography.[br]Principal Honours and DistinctionsRoyal Society Rumford Medal 1968. Franklin Institute Michelson Medal 1968. CBE 1970. Nobel Prize for Physics 1971.Bibliography1948. "A new microscopic principle", Nature 161:777 (Gabor's earliest publication on holography).1949. "Microscopy by reconstructed wavefronts", Proceedings of the Royal Society A197: 454–87.1951, "Microscopy by reconstructed wavefronts II", Proc. Phys. Soc. B, 64:449–69. 1966, "Holography or the “Whole Picture”", New Scientist 29:74–8 (an interesting account written after laser beams were used to produce optical holograms).Further ReadingT.E.Allibone, 1980, contribution to Biographical Memoirs of Fellows of the Royal Society 26: 107–47 (a full account of Gabor's life and work).JW -
7 equipment
оборудование; снаряжение; оснащениеequipment for the manufacture of asbestos cement — оборудование для производства асбестоцементных изделий
equipment for the manufacture of ceramic products — оборудование для производства керамических материалов
- air equipment - air-conditioning equipment - air-humidifying equipment - air-painting equipment - automatic sampling equipment - cargo handling equipment - carrying and lifting equipment - construction equipment - crane equipment - crushing equipment - crushing and concentration equipment - crushing and screening equipment - decontaminating equipment - defective equipment - detritus equipment - direct-chlorine-feed equipment - durable equipment - earthmoving equipment - efficient earthmoving equipment - emergency equipment - erection equipment - exhibition equipment - fire-fighting equipment - fixed equipment - garage-repair equipment - gathering frames equipment - grit-dredging equipment - groundwater level-lowering equipment - handling equipment - hauling equipment - high-fi equipment - hi-fi equipment - homemade fire-fighting equipment - idle equipment - industrial cleaning equipment - installed equipment - kiln car conveying equipment - laboratory equipment - lime-handling equipment - loading and unloading equipment for dryer cars - manufacturing equipment - material mining equipment - measuring and control equipment - mountable pile-driving equipment - non-assembled equipment - nonstandard equipment - operational equipment - outdated equipment - pile-driving equipment - piling equipment - professional drilling equipment - quarry equipment - repair equipment - residential equipment - ripper's equipment - road-building equipment - rope-suspended boom equipment - safety equipment - sampling equipment - snow-cleaning equipment - standby equipment - stressing equipment - supplementary equipment - telescopic equipment - testing equipment - underwater construction equipment - universal equipment - up-to-date construction equipment - used equipment - vandalproof equipment - vehicle greasing equipment - water-purification equipment - water quality monitoring equipment - water-treatment equipment - weighing equipment - weld deposition equipment - welding deposition equipment - welding equipmentequipment for the manufacture of prefabricated reinforced concrete — оборудование для производства сборного железобетона
* * *оборудование- air equipmentequipment found to be damaged — оборудование с обнаруженными неисправностями ( после контрольного осмотра)
- air handling equipment
- application equipment
- automatic points equipment
- automatic spray equipment
- auxiliary building equipment
- carrying and lifting equipment
- compaction equipment
- compressed-air equipment
- concrete equipment
- concrete placing equipment
- construction equipment
- dust separation equipment
- earthmoving equipment
- EDM equipment
- electrical equipment of buildings
- electronic distance measuring equipment
- erecting equipment
- excavating equipment
- factory equipment
- fire control portable equipment
- fire-extinguishing equipment
- fire-protection equipment
- flame-cleaning equipment
- front-end equipment
- grouting equipment
- high-performance equipment
- high-pressure equipment
- hoisting equipment
- hydraulic equipment
- jacking equipment
- jacking equipment for lift slab
- joint sealing equipment
- laboratory equipment
- lifting equipment
- load-and-carry equipment
- load cell weighing equipment
- loading equipment
- materials-handling equipment
- measuring equipment
- mechanical handling equipment
- mobile equipment
- monitoring equipment
- motor-driven equipment
- office equipment
- own equipment
- oxygen flame-grooving equipment
- personal protective equipment
- pile driving equipment
- piling equipment
- play equipment
- pneumatic equipment
- portable equipment
- protective face equipment
- protective head equipment
- refrigeration equipment
- reverse circulating drilling equipment
- road repair equipment
- safety equipment
- scarifying equipment
- self-contained equipment
- service equipment
- shotcrete equipment
- signaling equipment
- site equipment
- snow clearing equipment
- specialized equipment
- spray equipment
- stationary equipment
- stressing equipment
- technical equipment
- tensioning equipment
- testing equipment
- track equipment
- vacuum lifting equipment
- vandal-proof equipment
- vehicle-mounted equipment
- water-borne equipment
- weight-moving equipment
- welding equipment -
8 Hertz, Heinrich Rudolph
[br]b. 22 February 1857 Hamburg, Germanyd. 1 January 1894 Bonn, Germany[br]German physicist who was reputedly the first person to transmit and receive radio waves.[br]At the age of 17 Hertz entered the Gelehrtenschule of the Johaneums in Hamburg, but he left the following year to obtain practical experience for a year with a firm of engineers in Frankfurt am Main. He then spent six months at the Dresden Technical High School, followed by year of military service in Berlin. At this point he decided to switch from engineering to physics, and after a year in Munich he studied physics under Helmholtz at the University of Berlin, gaining his PhD with high honours in 1880. From 1883 to 1885 he was a privat-dozent at Kiel, during which time he studied the electromagnetic theory of James Clerk Maxwell. In 1885 he succeeded to the Chair in Physics at Karlsruhe Technical High School. There, in 1887, he constructed a rudimentary transmitter consisting of two 30 cm (12 in.) rods with metal balls separated by a 7.5 mm (0.3 in.) gap at the inner ends and metallic plates at the outer ends, the whole assembly being mounted at the focus of a large parabolic metal mirror and the two rods being connected to an induction coil. At the other side of his laboratory he placed a 70 cm (27½ in.) diameter wire loop with a similar air gap at the focus of a second metal mirror. When the induction coil was made to create a spark across the transmitter air gap, he found that a spark also occurred at the "receiver". By a series of experiments he was not only able to show that the invisible waves travelled in straight lines and were reflected by the parabolic mirrors, but also that the vibrations could be refracted like visible light and had a similar wavelength. By this first transmission and reception of radio waves he thus confirmed the theoretical predictions made by Maxwell some twenty years earlier. It was probably in his experiments with this apparatus in 1887 that Hertz also observed that the voltage at which a spark was able to jump a gap was significantly reduced by the presence of ultraviolet light. This so-called photoelectric effect was subsequently placed on a theoretical basis by Albert Einstein in 1905. In 1889 he became Professor of Physics at the University of Bonn, where he continued to investigate the nature of electric discharges in gases at low pressure until his death after a long and painful illness. In recognition of his measurement of radio and other waves, the international unit of frequency of an oscillatory wave, the cycle per second, is now universally known as the Hertz.[br]Principal Honours and DistinctionsRoyal Society Rumford Medal 1890.BibliographyMuch of Hertz's work, including his 1890 paper "On the fundamental equations of electrodynamics for bodies at rest", is recorded in three collections of his papers which are available in English translations by D.E.Jones et al., namely Electric Waves (1893), Miscellaneous Papers (1896) and Principles of Mechanics (1899).Further ReadingJ.G.O'Hara and W.Pricha, 1987, Hertz and the Maxwellians, London: Peter Peregrinus. J.Hertz, 1977, Heinrich Hertz, Memoirs, Letters and Diaries, San Francisco: San Francisco Press.R.Appleyard, 1930, Pioneers of Electrical Communication.See also: Heaviside, OliverKFBiographical history of technology > Hertz, Heinrich Rudolph
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9 Marrison, Warren Alvin
[br]b. 21 May 1896 Inverary, Canadad. 27 March 1980 Palo Verdes Estates, California, USA[br]Canadian (naturalized American) electrical engineer, pioneer of the quartz clock.[br]Marrison received his high-school education at Kingston Collegiate Institute, Ontario, and in 1914 he entered Queen's University in Kingston. He graduated in Engineering Physics in 1920, his college career having been interrupted by war service in the Royal Flying Corps. During his service in the Flying Corps he worked on radio, and when he returned to Kingston he established his own transmitter. This interest in radio was later to influence his professional life.In 1921 he entered Harvard University, where he obtained an MA, and shortly afterwards he joined the Western Electric Company in New York to work on the recording of sound on film. In 1925 he transferred to Western Electric's Bell Laboratory, where he began what was to become his life's work: the development of frequency standards for radio transmission. In 1922 Cady had used the elastic vibration of a quartz crystal to control the frequency of a valve oscillator, but at that time there was no way of counting and displaying the number of vibrations as the frequency was too high. In 1927 Marrison succeeded in dividing the frequency electronically until it was low enough to drive a synchronous motor. Although his purpose was to determine the frequency accurately by counting the number of vibrations that occurred in a given time, he had incidentally produced the first quartz-crystal -ontrolled clock. The results were sufficiently encouraging for him to build an improved version the following year, specifically as a time and frequency standard.[br]Principal Honours and DistinctionsBritish Horological Institute Gold Medal 1947. Clockmakers' Company Tompion Medal 1955.Bibliography1928, with J.W.Horton, "Precision measurement of frequency", Proceedings of the Institute of Radio Engineers 16:137–54 (provides details of the original quartz clock, although it was not described as such).1930, "The crystal clock", Proceedings of the National Academy of Sciences 16:496–507 (describes the second clock).Further ReadingW.R.Topham, 1989, "Warren A.Marrison—pioneer of the quartz revolution", NAWCC Bulletin 31(2):126–34.J.D.Weaver, 1982, Electrical and Electronic Clocks and Watches, London (a technical assessment of his work on the quartz clock).DV -
10 equipment
ɪˈkwɪpmənt сущ.
1) оборудование;
оснащение;
арматура, оснастка( for) hunting equipment ≈ охотничье снаряжение military equipment ≈ военное обмундирование office equipment ≈ офисное оборудование sports equipment ≈ спортивные снаряды equipment for road construction ≈ оборудование для дорожного строительства Syn: armature, fittings
2) часто мн.;
воен. материальная часть;
боевая техника
3) ж.-д. подвижной состав оборудование;
оснащение;
снаряжение - the * of the laboratory took much time оборудование лаборатории потребовало много времени оборудование;
снаряжение;
аппаратура - capital * орудия производства, капитальное оборудование - fixed * стационарное оборудование - measuring * измерительная аппаратура - automatic * автоматика - diving * водолазное снаряжение - * stock станочный парк - with modern * с современными удобствами оснастка - yacht's * оснащение яхты экипировка( военное) материальная часть;
боевая техника - * density насыщенность техникой (специальное) имущество - * park склад имущества (умственный) багаж - professional * профессиональная подготовка - * for smth. подготовленность к чему-либо (американизм) (железнодорожное) подвижной состав analog ~ аналоговая аппаратура ancillary ~ вспомогательная аппаратура ancillary ~ вспомогательное оборудование business ~ производственное оборудование capital ~ капитальное оборудование capital ~ оборудование с длительным сроком службы capital ~ основное оборудование card-processing ~ счетно-перфорационное оборудование communication ~ аппаратура связи computer ~ вычислительное оборудование data terminal ~ вчт. терминал data terminal ~ вчт. терминалы данных equipment аппаратные средства ~ аппаратура ~ (умственный) багаж ~ имущество ~ (часто pl) воен. материальная часть;
боевая техника ~ оборудование;
оснащение;
арматура ~ оборудование ~ оснащение ~ подвижной состав ~ ж.-д. подвижной состав ~ приборы ~ снаряжение ~ экипировка facsimile ~ факсимильная аппаратура facsimile ~ факсимильное оборудование gaging ~ измерительное оборудование high-technology ~ высокотехнологичное оборудование hunting ~ снаряжение для охоты in-house ~ собственное оборудование industrial ~ промышленное оборудование input ~ вчт. входное оборудование key-driven ~ вчт. клавишная аппаратура land transport ~ наземные транспортные средства machinery and ~ машины и оборудование off-line ~ вчт. автономное оборудование office ~ вчт. конторское оборудование office ~ конторское оборудование operating ~ производственное оборудование optional ~ дополнительное оборудование optional ~ необязательное оборудование optional ~ оборудование, поставляемое по специальному заказу peripheral ~ вчт. периферийное оборудование plant and ~ здания, сооружения и оборудование plant: ~ завод, фабрика;
plant and equipment эк. основной капитал( в промышленности) processing ~ вчт. оборудование для обработки production ~ производственное оборудование production run ~ серийное оборудование protective ~ защитное оборудование;
защитные приспособления publishing ~ издательское оборудование service ~ сервисное оборудование simulation ~ аппаратура моделирования spy ~ разведывательное оборудование stand-by ~ запасное оборудование stand-by ~ резервное оборудование standard ~ типовое оборудование technical ~ техническое оборудование terminal ~ вчт. терминальное оборудование transhipment ~ оборудование для перевалки грузов transport ~ транспортное оборудование transportation ~ транспортное оборудование word processing ~ вчт. средства текстообработкиБольшой англо-русский и русско-английский словарь > equipment
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11 equipment
- equipment
- nоборудование
equipment found to be damaged — оборудование с обнаруженными неисправностями ( после контрольного осмотра)
- air equipment
- air handling equipment
- application equipment
- automatic points equipment
- automatic spray equipment
- auxiliary building equipment
- carrying and lifting equipment
- compaction equipment
- compressed-air equipment
- concrete equipment
- concrete placing equipment
- construction equipment
- dust separation equipment
- earthmoving equipment
- EDM equipment
- electrical equipment of buildings
- electronic distance measuring equipment
- erecting equipment
- excavating equipment
- factory equipment
- fire control portable equipment
- fire-extinguishing equipment
- fire-protection equipment
- flame-cleaning equipment
- front-end equipment
- grouting equipment
- high-performance equipment
- high-pressure equipment
- hoisting equipment
- hydraulic equipment
- jacking equipment
- jacking equipment for lift slab
- joint sealing equipment
- laboratory equipment
- lifting equipment
- load-and-carry equipment
- load cell weighing equipment
- loading equipment
- materials-handling equipment
- measuring equipment
- mechanical handling equipment
- mobile equipment
- monitoring equipment
- motor-driven equipment
- office equipment
- own equipment
- oxygen flame-grooving equipment
- personal protective equipment
- pile driving equipment
- piling equipment
- play equipment
- pneumatic equipment
- portable equipment
- protective face equipment
- protective head equipment
- refrigeration equipment
- reverse circulating drilling equipment
- road repair equipment
- safety equipment
- scarifying equipment
- self-contained equipment
- service equipment
- shotcrete equipment
- signaling equipment
- site equipment
- snow clearing equipment
- specialized equipment
- spray equipment
- stationary equipment
- stressing equipment
- technical equipment
- tensioning equipment
- testing equipment
- track equipment
- vacuum lifting equipment
- vandal-proof equipment
- vehicle-mounted equipment
- water-borne equipment
- weight-moving equipment
- welding equipment
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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12 facility
n1) кредит, кредитная линия; ссуда3) pl возможности, условия деятельности; производственные мощности4) pl сооружения; объекты
- acceptance facility
- advance factory facilities
- airport facilities
- air traffic facilities
- approved delivery facilities
- auxiliary facilities
- backstop credit facility
- backup underwriting facility
- baggage facilities
- bank facilities
- banking facilities
- capital facilities
- cargo handling facilities
- catering facilities
- Central Bank facility
- cold storage facilities
- commercial facilities
- communications facilities
- community facilities
- Compensatory and Contingency Financing facility
- computer facilities
- contingency financing facility
- contingent investment support facility
- contingent swap facility
- creche facilities
- credit facilities
- customer look-up facility
- customs facilities
- designing facilities
- discounting facilities
- distribution facilities
- dockage facilities
- editing facilities
- educational facilities
- emergency facilities
- extended fund facility
- Euronote facilities
- fabrication facilities
- factory conveyance facilities
- field-test facilities
- financing facility
- freight handling facilities
- government facilities
- ground facilities
- handling facilities
- harbour facilities
- health facilities
- housing facilities
- idle facilities
- industrial facilities
- industrial conveyance facilities
- in-house facilities
- international banking facility
- inventory storage facilities
- laboratory facilities
- leisure facilities
- lifting facilities
- living facilities
- loading facilities
- loan facilities
- loan facility
- long-term credit facilities
- maintenance facilities
- management facilities
- manufacturing facility
- manufacturing facilities
- marketing facilities
- minimum facilities
- modern facilities
- multioption financing facility
- nonrelated facility
- nonunderwritten facilities
- office facilities
- off-loading facilities
- overdraft facility
- overhead facilities
- parking facilities
- passenger facilities
- payment facilities
- plant facilities
- plant storage facilities
- pollution control facilities
- port facilities
- port handling and receiving facilities
- processing facilities
- production facilities
- production and technical facilities
- public facilities
- R & D facilities
- reciprocal credit facilities
- recreational facilities
- refrigeration facilities
- related facility
- repair facilities
- research facilities
- revolving underwriting facility
- sales facilities
- service facilities
- shipping facilities
- shopping facilities
- sports facilities
- standby facilities
- storage facilities
- subsidiary facilities
- swap insurance facility
- telecommunications facilities
- terminal facilities
- test facilities
- testing facilities
- trade financing facility
- trade-related facility
- transfer facilities
- transport facilities
- transportation facilities
- underwritten facilities
- unloading facilities
- vacant facilities
- warehouse facilities
- waste treatment facilities
- water facilities
- water treating facilities
- waterworks facility
- wholly-owned facilities
- working capital facility
- workshop facilities
- facilities for credit buying
- facility for inspection
- enjoy credit facilities
- furnish necessary facilities
- grant facilities
- provide facilities
- provide transport facilities
- strengthen production facilitiesEnglish-russian dctionary of contemporary Economics > facility
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13 equipment
air equipment — оборудование с пневмодвигателем, пневматическое оборудование
air handling equipment — вентиляционное оборудование, оборудование для транспортирования и обработки воздуха
compaction equipment — уплотнительное оборудование, оборудование для уплотнения
compressed-air equipment — оборудование с пневмодвигателем, пневматическое оборудование
construction equipment — строительное оборудование, строительные машины
earthmoving equipment — землеройно-транспортные машины, машины для перевозки грунта
fire control portable equipment — портативное противопожарное оборудование, портативный противопожарный инвентарь
fire-protection equipment — противопожарное оборудование; оборудование пожаротушения
front-end equipment — передненавесное оборудование, передненавесные орудия
high-pressure equipment — оборудование, работающее под высоким давлением
hoisting equipment — подъёмное оборудование; подъёмно-транспортное оборудование
jacking equipment for lift slab — домкратные устройства для монтажа зданий методом подъёма перекрытий
measuring equipment — измерительное оборудование, измерительные приборы
monitoring equipment — контрольное оборудование; контрольная аппаратура
office equipment — конторское оборудование; оргтехника
pile driving equipment — оборудование для погружения свай; сваебойное оборудование
pneumatic equipment — оборудование с пневмоприводом, пневматическое оборудование
portable equipment — переносное оборудование; ручные машины
reverse circulating drilling equipment — буровое оборудование с обратной циркуляцией промывного раствора
safety equipment — средства защиты работающих; защитные средства; защитные приспособления
signaling equipment — сигнальное оборудование, сигнальные устройства
stressing equipment — оборудование для создания предварительного напряжения, оборудование для натяжения преднапрягаемой арматуры
vandal-proof equipment — оборудование, защищённое от повреждений при актах вандализма
vehicle-mounted equipment — оборудование, смонтированное на базовой машине
water-borne equipment — оборудование для работы на плаву; плавучее оборудование
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14 Boxer, Major-General Edward Mourrier
SUBJECT AREA: Weapons and armour[br]b. February 1822d. 11 January 1897 Isle of Wight, England[br]English Ammunition designer and inventor of the brass, fully obturating cartridge case.[br]Commissioned into the Royal Artillery in 1839, Boxer's flair for the technical aspects of gunnery led to his appointment, at the early age of 33, as Superintendent of the Laboratory at the Royal Arsenal, Woolwich. He was able to devote his attention to the design of more effective shells, cartridges and fuses, with his greatest achievement being the invention, in 1866, of the Boxer cartridge, which had a case made of brass and a percussion cap set into the base. The real significance of the cartridge was that for the first time the chamber could be fully sealed, by way of the propellant gases expanding the case against the chamber wall, with the result that effective weapon range and accuracy could be dramatically increased. His achievement was recognized when Parliament voted a special financial grant, and the Boxer cartridge is still in wide use today. Boxer was promoted Colonel in 1868 and retired the following year as an honorary Major-General.[br]Principal Honours and DistinctionsFRS 1858.Bibliography1855, Treatise on Artillery. Prepared for the Use of the Practical Class, Royal Military Academy, London: Eyre \& Spottiswode.1858, Diagrams to Illustrate the Service and Management of Heavy Ordnance Referredto in Treatise on Artillery, London: Eyre \& Spottiswode.CMBiographical history of technology > Boxer, Major-General Edward Mourrier
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