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1 cell manufacture
= cellular manufacture1) изготовление в автоматизированных ячейках, изготовление схожих по технологическим параметрам деталей в автоматизированных ячейках2) гибкое производство, гибкое автоматизированное производствоEnglish-Russian dictionary of mechanical engineering and automation > cell manufacture
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2 cell manufacture
Автоматика: гибкое (автоматизированное) производство, изготовление ( схожих по технологическим параметрам деталей) в автоматизированных ячейках -
3 manufacture
1) производство; изготовление || производить; изготовлять2) обработка || обрабатывать3) изделие; продукция•- automatic sequence manufacture
- cell manufacture
- cellular manufacture
- computer-managed parts manufacture
- engineering manufacture
- flow line manufacture
- precision manufacture of machine tools
- series manufacture
- sets-of parts manufacture
- single-piece manufacture
- space-related component manufacture
- wholesale manufactureEnglish-Russian dictionary of mechanical engineering and automation > manufacture
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4 cell(ular) manufacture
изготовление ( схожих по технологическим параметрам деталей) в автоматизированных станочных ячейках; изготовление ( деталей) по принципам групповой технологии; см. также cell(ular) manufacturingАнгло-русский словарь промышленной и научной лексики > cell(ular) manufacture
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5 cell(ular) manufacture
изготовление ( схожих по технологическим параметрам деталей) в автоматизированных станочных ячейках; изготовление ( деталей) по принципам групповой технологии; см. также cell(ular) manufacturingАнгло-русский словарь промышленной и научной лексики > cell(ular) manufacture
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6 cell(ular) manufacturing
изготовление ( деталей) в предметно замкнутых станочных участкахсм. также cellular manufactureАнгло-русский словарь промышленной и научной лексики > cell(ular) manufacturing
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7 cell(ular) manufacturing
изготовление ( деталей) в предметно замкнутых станочных участкахсм. также cellular manufactureАнгло-русский словарь промышленной и научной лексики > cell(ular) manufacturing
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8 cellular manufacture
English-Russian dictionary of mechanical engineering and automation > cellular manufacture
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9 гибкое (автоматизированное) производство
Automation: cell manufacture, cell manufacturing, cellular manufacture, cellular manufacturing, variable-mission manufacturingУниверсальный русско-английский словарь > гибкое (автоматизированное) производство
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10 гибкое производство
1) Engineering: flexible fabrication (автоматизированное)2) Advertising: flexible manufacturing3) Automation: adaptable production, agile manufacturing, (автоматизированное) cell manufacture, (автоматизированное) cell manufacturing, (автоматизированное) cellular manufacture, (автоматизированное) cellular manufacturing, flexible production, (автоматизированное) variable-mission manufacturingУниверсальный русско-английский словарь > гибкое производство
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11 изготовление (схожих по технологическим параметрам деталей) в автоматизированных ячейках
Automation: cell manufacture, cellular manufactureУниверсальный русско-английский словарь > изготовление (схожих по технологическим параметрам деталей) в автоматизированных ячейках
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12 изготовление в автоматизированных ячейках
Automation: (схожих по технологическим параметрам деталей) cell manufacture, (схожих по технологическим параметрам деталей) cellular manufactureУниверсальный русско-английский словарь > изготовление в автоматизированных ячейках
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13 Faure, Camille Alphonse
SUBJECT AREA: Electricity[br]b. 21 May 1840 Vizille, Franced. September 1898[br]French chemist, inventor of an improved method of preparing the plates for Planté lead-acid secondary cells.[br]After technical training at the Ecole des Arts et Métiers at Aix, Faure was employed superintending the erection of factories in France and England. These included the Cotton Powder Company plant in Faversham for the manufacture of the explosive Tonite invented by Faure. He also invented distress signals used by the merchant navy. It was between 1878 and 1880 that he performed his most important work, the improvement of the Planté cell. Faure's invention of coating the lead plates with a paste of lead oxide substantially reduced the time taken to form the plates. Their construction was subsequently further improved by Swan and others. These developments appeared at a particularly opportune time because lead-acid secondary cells found immediate application in telegraphy and later in electric lighting and traction systems, where their use resulted in reduced costs of providing supplies during peak-load periods. In his later years Faure's attention was directed to other electrochemical problems, including the manufacture of aluminium.[br]Bibliography1881, "Sur la pile secondaire de M C.Faure", Comptes rendus 92:951–3 (announcing his cell).11 January 1881, British patent no. 129 (Faure's improvement of the Planté cell).Further ReadingElectrician (1882) 7:122–3 (describes the Faure cell).G.Wood Vinal, 1955, Storage Batteries, 4th edn, London (describes later developments).GWBiographical history of technology > Faure, Camille Alphonse
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14 Bacon, Francis Thomas
SUBJECT AREA: Aerospace[br]b. 21 December 1904 Billericay, Englandd. 24 May 1992 Little Shelford, Cambridge, England[br]English mechanical engineer, a pioneer in the modern phase of fuel-cell development.[br]After receiving his education at Eton and Trinity College, Cambridge, Bacon served with C.A. Parsons at Newcastle upon Tyne from 1925 to 1940. From 1946 to 1956 he carried out research on Hydrox fuel cells at Cambridge University and was a consultant on fuel-cell design to a number of organizations throughout the rest of his life.Sir William Grove was the first to observe that when oxygen and hydrogen were supplied to platinum electrodes immersed in sulphuric acid a current was produced in an external circuit, but he did not envisage this as a practical source of electrical energy. In the 1930s Bacon started work to develop a hydrogen-oxygen fuel cell that operated at moderate temperatures and pressures using an alkaline electrolyte. In 1940 he was appointed to a post at King's College, London, and there, with the support of the Admiralty, he started full-time experimental work on fuel cells. His brief was to produce a power source for the propulsion of submarines. The following year he was posted as a temporary experimental officer to the Anti-Submarine Experimental Establishment at Fairlie, Ayrshire, and he remained there until the end of the Second World War.In 1946 he joined the Department of Chemical Engineering at Cambridge, receiving a small amount of money from the Electrical Research Association. Backing came six years later from the National Research and Development Corporation (NRDC), the development of the fuel cell being transferred to Marshalls of Cambridge, where Bacon was appointed Consultant.By 1959, after almost twenty years of individual effort, he was able to demonstrate a 6 kW (8 hp) power unit capable of driving a small truck. Bacon appreciated that when substantial power was required over long periods the hydrogen-oxygen fuel cell associated with high-pressure gas storage would be more compact than conventional secondary batteries.The development of the fuel-cell system pioneered by Bacon was stimulated by a particular need for a compact, lightweight source of power in the United States space programme. Electro-chemical generators using hydrogen-oxygen cells were chosen to provide the main supplies on the Apollo spacecraft for landing on the surface of the moon in 1969. An added advantage of the cells was that they simultaneously provided water. NRDC was largely responsible for the forma-tion of Energy Conversion Ltd, a company that was set up to exploit Bacon's patents and to manufacture fuel cells, and which was supported by British Ropes Ltd, British Petroleum and Guest, Keen \& Nettlefold Ltd at Basingstoke. Bacon was their full-time consultant. In 1971 Energy Conversion's operation was moved to the UK Atomic Energy Research Establishment at Harwell, as Fuel Cells Ltd. Bacon remained with them until he retired in 1973.[br]Principal Honours and DistinctionsOBE 1967. FRS 1972. Royal Society S.G. Brown Medal 1965. Royal Aeronautical Society British Silver Medal 1969.Bibliography27 February 1952, British patent no. 667,298 (hydrogen-oxygen fuel cell). 1963, contribution in W.Mitchell (ed.), Fuel Cells, New York, pp. 130–92.1965, contribution in B.S.Baker (ed.), Hydrocarbon Fuel Cell Technology, New York, pp. 1–7.Further ReadingObituary, 1992, Daily Telegraph (8 June).A.McDougal, 1976, Fuel Cells, London (makes an acknowledgement of Bacon's contribution to the design and application of fuel cells).D.P.Gregory, 1972, Fuel Cells, London (a concise introduction to fuel-cell technology).GW -
15 Leclanché, Georges
SUBJECT AREA: Electricity[br]b. 1839 Paris, Franced. 14 September 1882 Paris, France[br]French chemist and inventor of the primary cell named after him, from which the electrochemical principles of the modern dry cell have been developed.[br]Leclanché was sent to England for his early education. Returning to France, he entered the Central School of Arts and Manufacture, from which he graduated as a chemical engineer in 1860. He spent some years with a railway company in setting up an electrical timing system, and this work led him to electrochemical research. Driven by political pressure into exile, he set up a small laboratory in Brussels to continue the studies of the behaviour of voltaic cells he had started in France. Many workers directed their efforts to constructing a cell with a single electrolyte and a solid insoluble depo-larizer, but it was Leclanché who produced, in 1866, the prototype of a battery that was rugged, cheap and contained no highly corro-sive liquid. With electrodes of carbon and zinc and a solution of ammonium chloride, polarization was prevented by surrounding the positive electrode with manganese dioxide. The Leclanché cell was adopted by the Belgian Government Telegraph Service in 1868 and rapidly came into general use wherever an intermittent current was needed; for example, in telegraph and later in telephone circuits. Carl Gassner in 1888 pioneered successful dry cells based on the Leclanché system, with the zinc anode serving as the container, and c. 1890 commercial production of such cells began.[br]Bibliography10 October 1866, British patent no. 2,623 (Leclanché cell).1868, "Pile au peroxyde de manganèse à seul liquide", Les Mondes 16:532–3 (describes the Leclanché cell).Further ReadingM.Barak, 1966, "Georges Leclanché (1939–1882)", IEE Electronics and Power 12:184– 91 (a detailed account).N.C.Cahoon and G.W.Heise (eds), 1976, The Primary Battery, Vol. II, New York, pp. 1–147 (describes subsequent developments), GW -
16 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 -
17 монтаж
arrangement, assemblage, ( процесс) assembly, bonding, composition, building, buildup, final copy, cut-and-paste, ( фильма) cutting, editing тлв, erection, fabrication, fitting, ( негативов) flat, incorporation, ( компонентов) insertion, installation, ( схемы) joining-up, montage, mount, mounting, packaging, placement, packaging process, rigging, setup, ( видеомагнитофонной ленты) splicing, wiring* * *монта́ж м.1. ( сборка) assembly, mounting2. ( строительных и других конструкций) erection3. ( промышленного и другого оборудования) installation, mounting4. ( электрической и электронной схем) wiringмонта́ж ведё́тся провода́ми в жгута́х — the (electric) wiring is carried in bundlesвыполня́ть монта́ж про́водом ма́рки — N carry out the wiring with type N wireмонта́ж осуществля́ется на обжи́мных соедине́ниях — wiring uses crimped connectionsпрозвони́ть монта́ж — test the wiring for continuity5. кфт. ( для достижения художественного эффекта) montage; ( для технических целей) editingбеспа́ечный монта́ж — solderless wiringвыдвижно́й монта́ж — drawout [telescopic] mountingмонта́ж в яче́йках ( электрооборудования) — cell mountingмонта́ж го́лым про́водом — piano wiringмонта́ж диапозити́вов — strippingмонта́ж ка́бельной прово́дки — cablingко́нтурный монта́ж полигр. — lay-outмногосло́йный монта́ж — multilayer wiringнавесно́й монта́ж — ( способ соединения элементов) point-to-point wiring; ( способ соединения по виду применяемых схемных элементов) discrete componentsмонта́ж на пане́ли — panel mountingмонта́ж на пла́тах — terminal-board wiringмонта́ж на ра́ме — frame mountingобъё́мный монта́ж — space-wired interconnections; элк. dense-packed point-to-point [three-dimensional] wiringоткры́тый монта́ж — exposed wiringпере́дний монта́ж (на щите, панели) — front-of-panel mountingпеча́тный монта́ж — ( печатные проводники без схемных элементов) printed wiring; ( печатные проводники и схемные элементы) printed circuitry (Примечание. Различие признается, но не соблюдается)изгота́вливать печа́тный монта́ж ва́куумным напыле́нием — manufacture the printed wiring by vacuum evaporationизгота́вливать печа́тный монта́ж вы́рубкой — make the printed wiring by stamping [embossing]изгота́вливать печа́тный монта́ж травле́нием фольги́рованной пла́ты — make the printed wiring by foil-etchingизгота́вливать печа́тный монта́ж электроосажде́нием — manufacture the printed wiring by electroplatingполууто́пленный монта́ж (на щите, панели) — semiflush mountingсилово́й монта́ж — power wiringскры́тый монта́ж — concealed wiringсто́ечный монта́ж — rack mountingмонта́ж схе́мы — circuit wiringтелескопи́ческий монта́ж (на щите, панели) — telescopic mountingмонта́ж трубопрово́да — pipe layingмонта́ж фотопла́на афс. — assembly [assembling] of a mosaicмонта́ж фо́рмы полигр. — ( в высокой печати) lay-out; ( в плоской или глубокой печати) stripping-inмонта́ж ши́ны — (tyre) mounting, fitting of tyre -
18 монтаж
1. м. assembly, mounting2. м. erectionпроцесс монтажа; монтажные работы — erection procedure
3. м. installation, mounting4. м. wiringмонтаж голым проводом; струнный монтаж — piano wiring
5. м. кфт. montage; editingнавесной монтаж — point-to-point wiring; discrete components
объёмный монтаж — space-wired interconnections; dense-packed point-to-point wiring
печатный монтаж — printed wiring; printed circuitry
изготавливать печатный монтаж вакуумным напылением — manufacture the printed wiring by vacuum evaporation
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19 method
- method
- nметод, способ; система; порядок; методика; технология
- method of analysis
- method of application
- method of attack
- method of bearing and distances
- method of bipolar coordinates
- method of calculation
- method of design
- method of detail survey
- method of elastic weights
- method of electric needles
- method of expansion into series
- method of fixed points
- method of intersection
- method of joint isolation
- method of least work
- methods of manufacture
- method of minimum strain energy
- method of moment distribution
- method of radiation
- method of redistribution of pressure
- method of sections
- method of steam jet
- methods of structural analysis
- method of successive approximations
- methods of testing
- method of water needles
- accepted method of building
- accepted method of house construction
- accurate method of analysis
- adhesive nail-on method
- admittance method
- advanced methods of concreting
- advance slope method
- aggregate exposure method
- air permeability method
- alternate methods
- American method
- analytical method of determining reactions
- API method of pile design
- approximate method
- approximation method
- area method
- area-moment method
- assembly methods
- Austrian method
- autogenous curing method
- balanced cantilever method
- Belgian method
- Benoto method
- bentonite method
- Billner method
- "bin" method
- boiling water method
- boom placement concreting method
- bricklaying methods
- building method
- building block module method
- cable method of rock stressing
- calculation method
- cantilever method
- Chicago method
- circular-arc method
- Coast-Survey method
- collapse method of structural design
- combined finite strip-finite element method
- compaction methods of clays
- conjugate beam method
- consistency measurement method
- construction methods
- construction and erection methods
- contiguous pile method
- continuous-flight augers method
- continuous-sample method of advance
- convergence method
- critical method
- critical path method
- Cross moment distribution method
- Cross method
- cross-section method
- current design methods
- cut-and-cover method
- dampproofing methods
- displacement method
- displacement method of advance
- dual-rail method
- dummy unit-load method
- dust-spot method
- Dutch cone method
- earth pressure balanced tunneling method
- elastic center method
- elastic weights method
- electric analogy method
- electric resisting method
- energy method
- equal friction method of duct sizing
- equal friction method
- equivalent load method
- erection method
- fast track construction methods
- fatigue test method
- finite difference method
- finite element method
- finite strip method
- flight auger method
- flotation caisson method
- flue loss method
- folded plate method of analysis
- force method
- free cantilever method of construction
- general method of analysis
- Glotzl hydraulic cell method
- Gow method
- Hardy Cross method
- housing appraisal method
- in-duct method
- industrialized methods of construction
- iterative method
- jack method
- jacking method
- lacquer curtain coating method
- laser beam method
- leap-frog method
- limit equilibrium method
- limit state method
- listening methods
- load factor design method
- mandrel method
- mathematical method of design
- matrix method of structural analysis
- maturity method
- measuring method
- mixed-mode method
- mix-in-place method
- modern building methods
- modular ratio method
- moiré fringe method
- moment-balance method
- nondestructive methods of tests
- normal method of quality control
- null method
- numerical method
- one-rail method
- optical square method
- permissible stress method
- phototheodolite method
- plastic methods of structural analysis
- plate count method
- precast concrete manufacturing methods
- pressuremeter method
- proven construction methods
- p-y method of pile design
- rapid test method
- ratio method of balancing
- rebound hammer method
- reference point method
- relaxation method
- reproducible methods
- resistivity method
- resonant-frequency method
- reverberant field method
- Rockwell method of hardness testing
- safe method
- safe working methods
- secant interlocking pile method
- secant pile method
- seismic method of surveying
- seismic reflection method
- seismic refraction method
- semiprobabilistic design method
- shear transfer method
- shock response method of pile testing
- sliding-wedge method
- slope deflection method
- solar radiation method
- sonic method
- special method of quality control
- standard test method
- static regain method of duct sizing
- static regain method
- statistical design method
- step-by-step method
- strength design method
- strength evaluation method
- successive approximations method
- suspended cantilever method
- swamp shooting method
- Tagg method
- tangent modulus method
- test methods
- Theis method
- thixotropic liquid method
- three-point method
- tilt-up method
- time-saving method of construction
- TNO method of analysis
- TNO method of pile testing
- transit and stadia method
- tremie method
- truss analogy method
- turn-of-nut method
- ultrasonic pulse velocity method
- vacuum concrete method of bridge construction
- valveless pulse-jet method
- vane shear method
- velocity reduction method of duct sizing
- velocity reduction method
- vibratory method
- Vickers method of hardness testing
- volume method of measuring aggregates
- warm water method
- water fog spray method
- western bricklaying method
- western method
- working-stress design method
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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20 осуществляться
•Control of the welding current is by a trip-switch.
•Traction is effected by the winding action of the cables.
•Routine maintenance is handled in the same way.
•Conditions under which the test is run should be improved.
•Our internal communications are handled by a network with nervous and metabolic subsystems.
•The determination of position by dead reckoning is commonly performed by plotting on...
•This reduction is most conveniently performed at the cathode.
•Cross pollination of flowers is effected principally by bees.
•The reaction is carried out (or conducted, or run) by the above-described mechanism.
•Controls are exercised by the cell.
•This substitution is realized under acidic conditions.
•Conduction usually occurs through a metallic wall.
•The manufacture of dyes proceeds from simple raw materials.
Русско-английский научно-технический словарь переводчика > осуществляться
- 1
- 2
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