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1 power-operated drawbolt
Англо-русский словарь промышленной и научной лексики > power-operated drawbolt
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2 power-operated drawbar
Англо-русский словарь промышленной и научной лексики > power-operated drawbar
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3 automatic power drawbar
Англо-русский словарь промышленной и научной лексики > automatic power drawbar
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4 механизированный шомпол
power drawbar, power drawboltРусско-английский исловарь по машиностроению и автоматизации производства > механизированный шомпол
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5 тяговое усилие
2) Geology: hauling power3) Aviation: thrust load4) Naval: towing tension5) Military: towing effort6) Engineering: draft force, drag force, driving force, motive force, moving force, propulsion, pulling force, pulling power, tonnage (станка, пресса), towing force, tracking force, traction, tractive effort, tractive force, tractive pull, (развиваемое) power to the ground7) Construction: tractive power8) Railway term: draw pull, traction effort9) Automobile industry: drawbar power, drawbar pull, drawbar, pull, effective tractive effort, haul capability, hauling capability, propulsive effort, propulsive force, propulsive thrust, pull, towing capacity10) Metallurgy: pulling capacity (при волочении)11) Oil: hauling capacity, traction power, traction pull13) Automation: broaching force (протяжного станка), draft, pulling capacity (протяжного станка), pulling load (напр. протяжного станка), tonnage (протяжного станка)14) General subject: motive force (машины), rimpull, traveling force15) Makarov: draft load, draft power, drag (метание), drawbar load, propelling force, pull (ремня, привода и т.п.), towing power, towing power (на крюке), traction force, tractive effort (транспортного средства)16) Combustion gas turbines: tractive effort (напр., буксира, локомотива, автомобиля)17) Electrical engineering: tractive effort (на ободе колеса) -
6 тяговое усилие на крюке
1) Engineering: drawbar load, drawbar power, drawbar pull, towing power, traction power, tractive power2) Railway term: drawbar tractive effortУниверсальный русско-английский словарь > тяговое усилие на крюке
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7 мощность на крюке
1) Geology: drawbar horsepower2) Engineering: draw bar horse power3) Automobile industry: draft power, drawbar power, pulling power, towing power4) Mining: drawbar horsepower (в лошадиных силах)5) Oil: hook horsepower6) Makarov: traction power -
8 сила тяги
1) General subject: locomotive power (паровоза и т. п.), propulsive effort2) Geology: draught intensity, traction force4) Naval: propulsive force6) Engineering: drawbar pull, driving force, hauling capacity, hauling power, motive force, moving force, propulsive power, thrust force, towing force, traction, tractive effort (двигателя), tractive force7) Agriculture: draught8) Construction: intensity of draught, propelling force, pulling force, thrust9) Railway term: traction effort10) Automobile industry: draft force, intensity of draft (в вытяжных устройствах), propelling power, propulsive thrust, traction power, tractive effort11) Metallurgy: intensity of draft (напр. вентилятора)12) Electronics: needle drag, stylus drag13) Astronautics: force of thrust, motive power14) Mechanics: tractive power15) Business: haulage capacity16) Drilling: pull17) Automation: draft, momentum force18) General subject: motive force (машины)19) Aviation medicine: strength of pull (ing)20) Makarov: draft power, drawbar power, drawing force, needle drag (звукоснимателя), pulling power, strength of pull, strength of pulling, stylus drag (звукоснимателя) -
9 механизированный шомпол
1) Engineering: power-operated drawbar (в шпинделе)2) Automation: power drawbar, power drawbolt, power-operated drawboltУниверсальный русско-английский словарь > механизированный шомпол
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10 механизированный затяжной винт
Automation: power drawbar, power-operated drawbarУниверсальный русско-английский словарь > механизированный затяжной винт
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11 Leistung am Zughaken
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12 Zughakenleistung
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13 мощность на крюке
drawbar (horse)power; draft power, towing power -
14 тяговая мощность
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15 механизированный затяжной винт
Русско-английский исловарь по машиностроению и автоматизации производства > механизированный затяжной винт
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16 сила тяги на крюке
1) Geology: draw-bar capacity2) Military: draw-bar force3) Engineering: drawbar capacity, drawbar horsepower, tractive effort at drawbar4) Railway term: draw pull (локомотива), net tractive effort, tractive power at coupling (локомотива)5) Automobile industry: drawbar force, drawbar pull, effective tractive effort6) Makarov: drawbar horse-powerУниверсальный русско-английский словарь > сила тяги на крюке
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17 тяговая мощность
1) Aviation: motive power, thrust horsepower2) Naval: towrope horsepower3) Engineering: draw bar horse power, propulsive power, pulling power, tensile force, thrust power, tow rope horsepower, traction4) Automobile industry: drawbar horsepower, tractive power5) Oil: traction power6) Fishery: propulsion power7) Astronautics: jet horsepower8) Makarov: propelling power, pulling power (трактора), towing power9) Logistics: drawbar-pull capacity -
18 сила
tighting force, force мех., intensity, strength* * *си́ла ж. мех.
forceбыть в си́ле по отноше́нию к … (о теореме, математическом законе) — hold [be valid] for …в си́ле — in forceси́ла возде́йствует на … — a force acts on …си́ла коле́блется [пульси́рует, флуктуи́рует] — a force fluctuates …прикла́дывать си́лу — apply a force to, exert a force onси́ла противоде́йствует, напр. прило́женной — a force opposes, e. g., the impressed forceси́ла, ра́вная по величине́ и обра́тная по направле́нию — an equal and oppositely directed forceраскла́дывать си́лу на составля́ющие — resolve a force into componentsраспределя́ть си́лу — distribute a forceскла́дывать си́лы — combine forcesсосредото́чивать си́лу в … — concentrate a force at …уравнове́шивать си́лы — place forces in equilibrium, balance forcesархиме́дова си́ла — buoyancy forceастази́рующая си́ла — labilizing forceаэродинами́ческая си́ла — aerodynamic forceаэродинами́ческая, подса́сывающая си́ла — leading edge forceаэродинами́ческая, попере́чная си́ла — cross-wind forceаэростати́ческая си́ла — aerostatic forceбокова́я си́ла мор. — athwartship(s) [cross, lateral] forceвале́нтная си́ла — valence forceси́ла ве́тра — force of wind, wind forceси́ла ве́тра составля́ет, напр. 5 ба́ллов по шкале́ Бофо́рта — wind force is, e. g., 5 points on the Beaufort scaleВан-дер-Ва́льсовы си́лы ( межмолекулярного взаимодействия) — Van der Waals forcesвзаимоде́йствующая си́ла — interacting forceвибродви́жущая си́ла — vibromotive forceвнеце́нтренная си́ла — eccentric forceвне́шняя си́ла — impressed forceвозвраща́ющая си́ла — restoring cancelвозмуща́ющая си́ла — disturbing [perturbing] forceвраща́ющая си́ла — rotary [rotational] forceвыта́лкивающая си́ла ( из жидкости или газа) — buoyancy [buoyant] forceгрузоподъё́мная си́ла — carrying [lifting] capacityдальноде́йствующая си́ла — long-range forceдви́жущая си́ла — motive [driving] forceси́ла зву́ка — sound intensityзнакопереме́нная си́ла — alternating forceси́ла излуче́ния — intensity of radiation, radiant intensityси́ла ине́рции — inertial forceси́ла ине́рции, махова́я — fly-wheel forceкаса́тельная си́ла — tangential forceко́нтурная си́ла — boundary forceси́ла Корио́лиса — Coriolis forceкорио́лисова си́ла — Coriolis forceкороткоде́йствующая си́ла — short-range forceкоэрцити́вная си́ла — coercive forceкоэрцити́вная си́ла по враще́нию — rotational coercive forceкоэрцити́вная си́ла по движе́нию сте́нок — wall coercive forceкрити́ческая си́ла сопр. — critical loadкрутя́щая си́ла — torsional forceкуло́новская си́ла — Coulomb forceси́ла Ло́ренца ( в электромагнитном поле) — Lorentz forceлошади́ная си́ла — horse-power, hpлошади́ная, индика́торная си́ла — indicated horse-powerлошади́ная, эффекти́вная си́ла — effective horse-powerмагнетогидродинами́ческая си́ла — magnetohydrodynamic [MHD] forceмагни́тная си́ла — magnetic forceси́ла магни́тного по́ля — magnetic field strength, magnetic intensiveмагнитодви́жущая си́ла [мдс] — magnetomotive force, mmfси́ла межмолекуля́рного взаимоде́йствия — molecular forceнамагни́чивающая си́ла — magnetizing forceси́ла, напра́вленная вверх — upward forceси́ла, напра́вленная вниз — downward forceси́ла, напра́вленная вперё́д — forward forceси́ла, напра́вленная наза́д — rearward forceнаправля́ющая си́ла — directive forceоконе́чная си́ла — terminal loadопроки́дывающая си́ла — tilting [tipping] forceопти́ческая си́ла — focal [lens] powerосева́я си́ла — axial thrustси́ла отда́чи — recoil forceотклоня́ющая си́ла — deflecting forceотрыва́ющая си́ла — pullси́ла отта́лкивания (напр. между одноимённо заряженными частицами) — repulsive forceси́ла плаву́чести — buoyancy [buoyant] forceси́ла пове́рхностного натяже́ния — surface tension forceподъё́мная си́ла ав. — liftс нулево́й подъё́мной си́лой — zero-liftсоздава́ть подъё́мную си́лу — give [induce] liftподъё́мная, аэродинами́ческая си́ла — aerodynamic liftподъё́мная, гидродинами́ческая си́ла — hydrodynamic liftподъё́мная си́ла кра́на — carrying [lifting] capacity of a craneприведё́нная си́ла — equivalent forceприло́женная си́ла — superimposed [applied] forceси́ла притяже́ния — attractive force, force of attractionси́ла противоде́йствия — opposing forceпротивоэлектродви́жущая си́ла — back [counter] electromotive force, back [counter] emfрабо́чая си́ла — labour (force), manpowerрабо́чая, квалифици́рованная си́ла — skilled labour (force)равноде́йствующая си́ла — resultant forceразреша́ющая си́ла — resolving power, resolutionразруша́ющая си́ла — breaking forceрастя́гивающая си́ла — tensile forceси́ла расшире́ния — expansive forceреакти́вная си́ла — reaction (force), reactive forceрезульти́рующая си́ла — resultant forceси́ла све́та — luminous intensity, candle powerси́ла све́та, энергети́ческая — intensity of radiation, radiant intensityси́ла свя́зи физ., хим. — bonding forceсоставля́ющая си́ла — component forceсторо́нние си́лы — extraneous [external, applied] forcesсумма́рная си́ла — total forceси́ла сцепле́ния — cohesive forceтермоэлектродви́жущая си́ла [термоэдс] — thermoelectromotive force, thermo-emfси́ла то́ка — strength of currentси́ла тре́ния — frictional forceси́ла тя́ги ав. — thrust (force)си́ла тя́ги на крюке́ — drawbar capacity, drawbar horse-powerтя́говая си́ла — pullси́ла тя́жести — (pull of) gravity, gravitational forceпод де́йствием си́лы тя́жести … — by gravityтя́нущая си́ла — tractive force, pullуде́рживающая си́ла — confining [holding] forceупру́гая си́ла — elastic forceуравнове́шивающая си́ла — balancing forceси́ла ускоре́ния — acceleration forceфотоэлектродви́жущая си́ла [фотоэдс] — photoelectromotive force, photo-emfцентра́льная си́ла — central forceцентробе́жная си́ла — centrifugal forceцентростреми́тельная си́ла — centripetal forceэ́йлерова си́ла сопр. — critical loadси́ла электри́ческого то́ка — strength of currentэлектродви́жущая си́ла — electromotive force (см. тж. эдс)си́ла электростати́ческого по́ля — electrostatic force, electrostatic field intensity -
19 тяга
1) General subject: bent, desire, draft, draught, draw, hankering (к чему-л.), haul (сетей), haulage, pull, pulsion, traction, would, (к чему-л.) craving2) Biology: roding (вальдшнепа)3) Aviation: down-lock actuating rod, drawing bar, push, sliding shaft, lbs thrust4) Naval: air draft (о воздухе), reciprocating rod, towing5) American: draft (в топочных и вентиляционных устройствах)6) Sports: tugging8) Engineering: drag-link, dragging, drawbar, drawbar pull, drawing, handlebar, hauling, lever, link rod, linkage rod, operating rod (рычажной передачи), propulsion (передаваемая движителю сила), pull rod (ручного тормоза), pull stud, rod (соединительный элемент), shaft, signal rod (семафорного крыла), steering link (рулевого механизма), thrust (в воздушном транспорте), thrust power (в воздушном транспорте), tie (соединительный элемент), tie rod, tie rod assembly, traction (в наземном транспорте), tug9) Agriculture: dragbar10) Construction: guiding rule, guy rod in tension, pull-bar, stay brace, traction bar, bar, current (о воздухе), pull (дымовой трубы)11) British English: draught (в топочных и вентиляционных устройствах)12) Railway term: connection rod, detent pin (расширительного золотника)13) Automobile industry: blast, brace, draft effect, drafting, drag bar, guy, propulsive thrust, pull rod (работающая на растяжение), pull-rod, rod in tension, tension member, thrust (развиваемая гребным винтом, реактивной струёй и т. п.)14) Architecture: molding, moulding, string cornice16) Metallurgy: linkage, stack effect, tension rod17) Textile: cross rod, crossing rod19) Oil: link, rein (центрального привода при насосной эксплуатации), tension bar, thrust20) Fishery: roding (вальдшнепов)21) Astronautics: drive, drive shaft (замков продольного стыка), motive power, propulsive effort, propulsive power22) Mechanic engineering: tiller23) Silicates: suction26) Drilling: pulling27) Sakhalin energy glossary: connecting rod28) Automation: cross slide extension (конусной линейки токарного станка), drag link, motion rod, pitman (соединяющая, напр. коренной вал с ползуном пресса), pole, pull bar, strain stick, tension pole, tension stick29) Robots: stay ( соединительная), string, tendon (тросовая)30) Cables: draft (draught) (движение воздуха, газа), haul-off device, pull-off device31) Makarov: connection, connexion, draft (воздуха, топочных газов), drag, link (соединительный элемент рычажной системы), propulsion (сила, передаваемая движителю), stay, tensile member, tension arm, thrust (для воздушного транспорта), tie (соединительный элемент рычажной системы), tie member, tie-rod (соединительный элемент рычажной системы), traction (для наземного транспорта)32) Gold mining: draft regulated cell34) Tengiz: brace (металлич. стержень), rod (металлич. стержень)35) Combustion gas turbines: propulsive force, traction (напр., паровая, дизельная, электрическая и пр.) -
20 Chapelon, André
[br]b. 26 October 1892 Saint-Paul-en-Cornillon, Loire, Franced. 29 June 1978 Paris, France[br]French locomotive engineer who developed high-performance steam locomotives.[br]Chapelon's technical education at the Ecole Centrale des Arts et Manufactures, Paris, was interrupted by extended military service during the First World War. From experience of observing artillery from the basket of a captive balloon, he developed a method of artillery fire control which was more accurate than that in use and which was adopted by the French army.In 1925 he joined the motive-power and rolling-stock department of the Paris-Orléans Railway under Chief Mechanical Engineer Maurice Lacoin and was given the task of improving the performance of its main-line 4–6–2 locomotives, most of them compounds. He had already made an intensive study of steam locomotive design and in 1926 introduced his Kylchap exhaust system, based in part on the earlier work of the Finnish engineer Kyläla. Chapelon improved the entrainment of the hot gases in the smokebox by the exhaust steam and so minimized back pressure in the cylinders, increasing the power of a locomotive substantially. He also greatly increased the cross-sectional area of steam passages, used poppet valves instead of piston valves and increased superheating of steam. PO (Paris-Orléans) 4–6–2s rebuilt on these principles from 1929 onwards proved able to haul 800-ton trains, in place of the previous 500-ton trains, and to do so to accelerated schedules with reduced coal consumption. Commencing in 1932, some were converted, at the time of rebuilding, into 4–8–0s to increase adhesive weight for hauling heavy trains over the steeply graded Paris-Toulouse line.Chapelon's principles were quickly adopted on other French railways and elsewhere.H.N. Gresley was particularly influenced by them. After formation of the French National Railways (SNCF) in 1938, Chapelon produced in 1941 a prototype rebuilt PO 2–10–0 freight locomotive as a six-cylinder compound, with four low-pressure cylinders to maximize expansive use of steam and with all cylinders steam-jacketed to minimize heat loss by condensation and radiation. War conditions delayed extended testing until 1948–52. Meanwhile Chapelon had, by rebuilding, produced in 1946 a high-powered, three-cylinder, compound 4–8–4 intended as a stage in development of a proposed range of powerful and thermally efficient steam locomotives for the postwar SNCF: a high-speed 4–6–4 in this range was to run at sustained speeds of 125 mph (200 km/h). However, plans for improved steam locomotives were then overtaken in France by electriflcation and dieselization, though the performance of the 4–8–4, which produced 4,000 hp (3,000 kW) at the drawbar for the first time in Europe, prompted modification of electric locomotives, already on order, to increase their power.Chapelon retired from the SNCF in 1953, but continued to act as a consultant. His principles were incorporated into steam locomotives built in France for export to South America, and even after the energy crisis of 1973 he was consulted on projects to build improved, high-powered steam locomotives for countries with reserves of cheap coal. The eventual fall in oil prices brought these to an end.[br]Bibliography1938, La Locomotive à vapeur, Paris: J.B.Bailière (a comprehensive summary of contemporary knowledge of every function of the locomotive).Further ReadingH.C.B.Rogers, 1972, Chapelon, Genius of French Steam, Shepperton: Ian Allan.1986, "André Chapelon, locomotive engineer: a survey of his work", Transactions of the Newcomen Society 58 (a symposium on Chapelon's work).Obituary, 1978, Railway Engineer (September/October) (makes reference to the technical significance of Chapelon's work).PJGR
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