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1 газораспределение
valve timing
(пд)
периодическое действие впускных и выпускных органов поршневого двигателя внутреннего сгорания, обеспечивающее соответственно заполнение цилиндра свежим зарядом и удаление из него продуктов сгорания. — the valve timing is the order of opening and closing of intake and exhaust valves of а reciprocating engine асcording to the crankshaft rotationat position.
диаграмма г. (рис. 64) — valve timing diagram
механизм г. — valve operating mechanism
регулировать г. — time the valves
the valves are timed on cylinder no. 5Русско-английский сборник авиационно-технических терминов > газораспределение
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2 механизм газораспределения
Русско-английский военно-политический словарь > механизм газораспределения
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3 газораспределение
Авиация и космонавтика. Русско-английский словарь > газораспределение
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4 механизм газораспределения
Авиация и космонавтика. Русско-английский словарь > механизм газораспределения
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5 регулировать газораспределение
1) Engineering: time the valves (двигателя)2) Automobile industry: time the valvesУниверсальный русско-английский словарь > регулировать газораспределение
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6 регулировать
adjust
(путем изменения положения регулировочных элементов)
- (поддерживать к-л. параметр или изменять его с помощью автоматики или органов управления) — control
- газораспределение (пд) — time the valves
the valves are timed on cylinder no. 5.
- громкость — control volume
- громкость (настраивать на определенный уровень громкости) — adjust volume control
- до момента полной выборки люфта — adjust until play just disappears
- зазор между контактами до... мм — adjust contact gap to... mm
- качество смеси — adjust mixture
- момент (магнето пд) — adjust breaker timing
- натяжение троса на... кг — adjust cable to kg... tension
- обороты холостого хода — adjust idling speed
- поворотом винта — adjust by turning the screw
- no высоте — adjust for height
- соконусность (лопастей несущего винта) — track rotor bladesРусско-английский сборник авиационно-технических терминов > регулировать
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7 регулировать
регулировать несовset upрегулировать газораспределениеtime the valvesрегулировать двигатель до заданных параметровadjust the engineрегулировать качество смесиadjust mixtureрегулировать малый газadjust idle powerрегулировать по высотеadjust for heightрегулировать применениеgovern the applicationрегулировать тросadjust the cable -
8 регулируемый
регулировать несовset upвоздухозаборник с регулируемой передней кромкойvariable lip air intakeкислородный прибор регулируемой подачиdemand-type oxygen regulatorрегулировать газораспределениеtime the valvesрегулировать двигатель до заданных параметровadjust the engineрегулировать качество смесиadjust mixtureрегулировать малый газadjust idle powerрегулировать по высотеadjust for heightрегулировать применениеgovern the applicationрегулировать тросadjust the cableрегулируемая опораajustable support(например, гидроподъемника) регулируемая поворотная лопаткаvariable bladeрегулируемая распорная втулкаabutment sleeve assemblyрегулируемая скоростьgoverned speedрегулируемая тяга1. controllable thrust2. variable thrust регулируемое сиденьеadjustable seatрегулируемый воздухозаборник1. controllable intake2. variable-geometry intake регулируемый насадок индивидуальной вентиляцииadjustable air outletрегулируемый упорajustable stop(шага лопасти воздушного винта) сопло с регулируемым сечениемvariable area nozzleтяга, регулируемая по величине и направлениюvectored thrust -
9 газораспределение
газораспределение сущvalve timingдиаграмма газораспределенияvalve timing diagramрегулировать газораспределениеtime the valves -
10 Allen, John F.
SUBJECT AREA: Steam and internal combustion engines[br]b. 1829 Englandd. 2 October 1900 New York (?), USA[br]English inventor of the Allen valve used on his pioneering high-speed engines.[br]Allen was taken to the United States from England when he was 12 years old. He became an engineer on the Curlew, a freight boat running between New York and Providence. A defect which caused the engine to race in rough weather led Allen to invent a new valve gear, but he found it could not be fitted to the Corliss engine. In 1856 he patented an improved form of valve and operating gear to reduce back-pressure in the cylinder, which was in fact the reverse of what happened in his later engines. In 1860 he repaired the engines of a New York felt-hat manufacturer, Henry Burr, and that winter he was introduced to Charles Porter. Porter realized the potential of Allen's valves for his idea of a high-speed engine, and the Porter-Allen engine became the pioneer of high-speed designs.Porter persuaded Allen to patent his new valves and two patents were obtained in 1862. These valves could be driven positively and yet the travel of the inlet could be varied to give the maximum expansion at different cut-offs. Also, the valves allowed an exceptionally good flow of steam. While Porter went to England and tried to interest manufacturers there, Allen remained in America and continued work on the engine. Within a few years he invented an inclined watertube boiler, but he seemed incapable of furthering his inventions once they had been placed on the market. Although he mortgaged his own house in order to help finance the factory for building the steam engine, in the early 1870s he left Porter and built a workshop of his own at Mott Haven. There he invented important systems for riveting by pneumatic machines through both percussion and pressure which led into the production of air compressors and riveting machines.[br]Further ReadingObituaries appeared in engineering journals at the time of his death.Dictionary of American Biography, 1928, Vol. I, New York: C.Scribner's Sons. C.T.Porter, 1908, Engineering Reminiscences, New York: J.Wiley \& Sons, reprint 1985, Bradley, Ill.: Lindsay Publications (provides details of Allen's valve design).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (covers the development of the Porter-Allen engine).RLH -
11 клапан
valve
- аварийного останова, (электромагнитный) (двигателя) — emergency fuel shut-off (solenoid) valve
- аварийного сброса двления (гермокабины) — pressure relief valve
- аварийного слива топлива — fuel dump /jettison/ valve
-, автоматический — automatic valve, automaticallyactuated /operated/ valve
- блокировки (напр., системы реверса) — interlock valve
клапан срабатывает при neремещении створок реверса в положение реверсивной тяги. — the valve is mechanically actuated by reverser buckets as they move into reverse position.
-, боковой (ранца парашюта) — side flap
-, бортовой (нагнетания или всасывания, гидросистемы) — external (hydraulic pressure or suction) valve
- вдоха (кислородной маски) — inhalation valve
-, вентиляционный — vent valve
- впрыска — injection valve
- впуска (пд) — intake valve
клапан, открывающийся для впуска рабочей смеси в ципиндр поршневого двигателя — the inlet valve which permits the inflow of fuel-air mixture to the cylinder or cylinders of an internal combustion engine.
-, вспомогательный — sub-valve
- встречной заправки маслом (двигателя через сливной штуцер) — oil pressure filling valve
- выдоха (кислородной маски) — exhalation valve
- выключения (поврежденной части тормозной магистрали) (см. дозатор) — lockout valve
-, выпускной (пд) — exhaust valve
клапан, открывающийся для отвода выхлопных газов, продуктов сгорания после рабочего хода поршневого двигателя. — the outlet valve which permits the burnt gases to be discharged from the cylinder of an internal combustion engine after the power stroke has been completed.
- выпускной (системы кондиционирования воздуха) — outflow valve, pressure relief valve
operate the outflow valve manual control switch to increase cabin altitude.
- высотного корректора (пд) — mixture-control valve
-, выхлопной — exhaust valve
-, главный (ранца парашюта) — main flap
-, грибовидный — mushroom valve
- давления (топливных контуров двигателя) — pressurizing valve
- (-) датчик (напр. давления) — (pressure) sensing valve
the piston is sensitive to pressure difference across the sensing valve.
- двойного действия — double-acting valve
- двойного действия (у главных клапанов заправки топливом) — two-way valve
- двойного действия, разгрузочный — double-acting pressure relief valve
-, двухпозиционный — two-position valve
-, двухсторонний — dual valve
-, двухступенчатый — two-stage valve
-, двухходовой — two-way valve
-, демпфирующий — damping valve
-, дифференциальный (носаca-регулятора) — proportional /proportioning/ valve
-, дозирующий — (flow) metering valve
- дренажа (слива) топливного контура — fuel manifold drain /dump/ valve
- дренажирования (стравливания воздуха при заполнении топливной системы двигателя) — bleeder valve
-, дренажный (воздушный) — vent valve
-, дренажный (сливной) — drain valve
-, дроссельный — throttle valve
-, дроссельный (в отличие от дроссельного крана) — throttling valve
-, дроссельный, вспомогатепьный (насоса высокого давления топлива) — auxiliary throttling valve
- закрыт — valve closed (valve clsd)
-, заливной (заливочный, пд) — priming valve
-, запорный — shut-oft valve
-, запорный (прекращающий подачу топлива в основной топливный контур при уменьшенном расходе топлива, напр., при запуске) — pressurizing valve the valve prevents fuel from entering and pressurizing the main manifold when fuel flow is low (as during engine starting).
- заправка водобака — water tank fill valve
-, заправочный — fill valve
-, заправочный (бака) — tank fill valve
-, заправочный (топливный) — fueling valve, fuel entry valve
-, запуска (возд. стартера) — engine air start valve
- запуска двигателя (воздушный) — engine start valve
установлен в трубопроводе подвода воздуха к воздушному стартеру. — the valve is located in the air duct leading from the aircraft pneumatic manifold to the starter.
-, зарядный — charging valve
-, зарядный (амортизатора шасси) (рис. 31) — shock strut (air) charging valve
-, зарядный (пневматика колеса) (рис. 35) — tire inflation valve
-, золотниковый — slide valve
-, игольчатый — needle valve
-, исполнительный — servo valve
-, кинетический — kinetic valve
-, комбинированный — combined valve
-, лепестковый (кислородной маски) — flap valve, flapper
-, контрольный — check valve
-, магистральный (системы заправки топливом) — (cross-ship) isolation valve
- малого газа — idling valve
- минимального расхода (насоса-регулятора топлива) — minimum flow valve
-, нагнетательный pressure — valve
- нагнетания — pressure valve
-, нагнетающий — pressure valve
-, обеспечивающий подачу давления в к-л. магистраль — pressurizing valve
- обратного торможения (амортстойки шасси) (рис. 29) — snubber valve
-, обратный — check valve (сша), non-return valve (англ.)
клапан, устанавливаемый в трубопроводах или арматурах и пропускающий жидкость или газ только в одном заданном направлении, закрывается при изменении направления движения жидкости. — а valve fitted in pipes and fittings.that automatically seals the return passage of a fluid or а gas because of fluid pressure (back pressure) acting on the valve, i.e., it stops (or checks) reverse flow.
-, обратный калиброванный — orifice check valve
-, общий (системы заправки топливом) — (cross-ship) isolation valve
- ограничения давления пускового топлива — starting fuel pressure limiting valve
- ограничения предельных оборотов (двигателя) — maximum speed limiting /limiter/ valve
- ограничения предельных оборотов ротора квд — hp rotor /shaft/ speed limiter valve
- ограничения расхода (игольчатый) — flow restrictor (needle) valve
- останова (гтд) — hp fuel shut-off valve /cock/
- отбора воздуха от компрессора — compressor air bleed valve
- отбора воздуха за квд — hp compressor air bleed valve
-, отжимной (разъемный) — disconnect /non-spill/ valve
- открыт (трафарет) — valve open(ed)
- отрицательных перегрузок — negative acceleration valve
-, отсечный — cutoff /cutout, shutoff/ valve
- перезаливки — overflow valve
-, переключающий — selector valve
- переключения, челночный (гидросистем бустера) — selector shuttle valve
- перелома характеристики приемистости — acceleration time control valve
- перепада (в топливном регуляторе) — differential pressure regulator valve
- перепуска (обводной) — bypass /by-pass/ valve
- перепуска (из одной полости в другую, напр. для выравнивания давления) — spill valve
- перепуска воздуха (из компрессора) при запуске двигателя клапаны открыты, при достижении определенных оборотов - закрываются, и при снижении режима - открываются. (рис. 49) — compressor bleed valve the compressor bleed valve has two positions: fully open (during starting and acceleration) and fully closed (during normal operating thrust), during deceleration the valve opens.
- перепуска воздуха (с входа кнд на выход квд) — p1/p3 air transfer valve
- перепуска воздуха за v и vi ступенями квд — hp compressor stage 5 and 6 bleed valve
- перепуска, поворотный (компрессора гтд) — rotary-action compressor bleed valve
-, перепускной (поршневого компрессора) — transfer valve
-, перепускной (с термостатическим управлением) — (thermostatically controlled) by-pass valve
-, перепускной (топливомасляного радиатора) — (oil cooler) pressure differential by-pass valve
- подачи топлива при отрицательных перегрузках (в перевернутом полете) — inverted-flight fuel valve
- поддавливания — pressurizing valve
- поддержания (постоянного перепада давления (на дроссельном клапане - дозирующей игле) — proportional /proportioning/ valve. regulates automatically pressure diffrential across throttle valve.
- подпитки (в гидро- или маcляной системе) — replenishment valve
- подпитки (в системе топливной автоматики двигателя) — enrichment valve
-, подпиточный (в гидросистемe) — replenishment valve
-, подпорный (в гидравлической системе уборки и выпуска шасси) (см. усилитель-мультипликатор) — intensifier
-, подпружиненный на закрытие — valve spring-loaded into closed position
-, подпружиненный на открытие — valve spring-loaded into open position
- подсоса воздуха кислороднаго прибора — oxygen regulator diluter valve
-, подтормаживания (колес шасси после уборки) — wheel stopping valve то stop the lg wheel rotation after retraction.
- полной срезки топлива (двиг.) — fuel cutoff /shut-off/ valve
- поплавковой камеры, игольчатый — float needle valve
-, поплавковый — float valve
- последовательного включения — sequence valve
- постоянного давления (кпд, насоса-регулятора или кта) — constant pressure valve
- постоянного (пропорционального) перепада давления (насоса-регулятора или кта) — proportional /proportioning/ valve
клапан поддерживает постаянное давление в каналах подвода топлива к дозирующей игле. работает совместно с высотным корректором. — the proportional valve (works together with an altitude sensing unit) regulates automatically the pressure differentiaf across the throttle valve.
- предельного давления — maximum pressure valve
-, предохранительный — safety valve
-, предохранительный (перепускной) — by-pass valve
-, предохранительный (предотвращающий возникновение отрицательного перепада в гермокабине) — reverse pressure differential relief valve. pressurized cabins must have reverse pressure differential relief valves to automatically prevent a negative pressure differential that would damage the structure.
-, предохранительный (предохраняющий от превышения положительного перепада давлений в гермокабине) — positive pressure relief valve pressurized cabins must have pressure relief valves to automatically limit the positive pressure differential to a predetermined value.
-, предохранительный (разгрузочный) — pressure relief valve
-, предохранительный (регулятора давления гермокабины) — relief valve, pressure safety геlief valve
-, предохранительный (ранца парашюта) — protector flap
-, предохранительный, для вытяжного парашюта — pilot chute protector flap
-, предохранительный, для вытяжного троса (парашюта) — ripcord protector flap
- приемистости (двигателя) — acceleration control valve
- продувки (стравливания) — (air) bleeder valve
-, продувочный — blow-off valve
- проливки маслосистемы (для стравливания воздуха при заполнении системы маслом) — (air) bleeder valve
- пропорционального давления (постоянного перепада) — proportional /proportioning/ valve
- пропорционального расхода — proportional valve
- противодавления (в топливном насосе-регуляторе) — back pressure valve
- противообпеденительного трубопровода, перекрывной — anti-icing shut-off valve (antiice valve)
- противообледенительной системы (двигателя, лобового капота, крыла, оперения) — (engine, nose cowl, wing, сиpennage) anti-icing valve
- пускового топлива (электромагнитный) — (solenoid) starting fuel valve
-, пусковой — starting valve
- разгрузки насоса — pump relief valve
-, разгрузочный — relief valve
-, разгрузочный (системы кондиционирования воздуха) — pressure relief valve pressurized cabin must have pressure relief valve to limit positive pressure differential.
-, разгрузочный аварийный — emergency relief valve
-, разгрузочный основной (в маслосистеме двигателя за фильтром) — (oil system) main pressure relief valve (located downstream of oil filter)
-, разделительный (заправки) — isolating valve
-, разделительный (межбаковый) — intertank valve
-, разделительный (порционер — flow-ratio valve
- разжижения масла (пд) — oil-dilution valve
-, разъемный (не допускающий утечки при отсоединении трубопровода под давлением) — disconnect valve, non-spill valve
- ранца (парашюта) — pack flap
-, распределительный — distributor valve
-, распределительный (гидроусилителя) — servo valve
- регулирования — control valve
- регулирования смеси — mixture-control valve
- регулирования степени повышения давления двигателем (насоса-регулятора) — pressure ratio control valve
-, регулировочный — control valve
- регулятора повышенных оборотов, дозирующий — overspeed governor metering valve
- регулятора пониженных оборотов, дозирующий — underspeed governor metering valve
-, редукционный (редуктор) — (pressure) reducing valve
клапан, понижающий подводимое давление и поддерживающий постоянное давление на выходе. — а pressure reducing valve in the pump outlet ensures that the predetermined outlet pressure is not exceeded.
-, редукционный, кислородный (редуктор) — oxygen pressure reducer
- режимный (термовоздушной противообледенительной системы) (срабатывает в зависимости от режима работы двигателей) — (hot air anti-icing) control valve
- с полым штоком — hollow-stem valve
- с пружиной, действующей на закрытие — valve spring-loaded into closed position
- с пружиной, действующей на открытие — valve spring-loaded into open position
- сброса давления — pressure relief valve
- сброса кислорода в атмосферу — oxygen overboard discharge valve
-, селекторный — selector valve
- слива (дренажный) — drain valve
- слива (возврата жидкости из полости высокого в полость низкого давления) — return valve
- слива (в насосе-регуляторе, для отвода топлива на вход насоса высокого давления) — spill valve operates as safety or relief valve.
- слива топлива (для опорожления баков на земле) — defueling valve, fuel offload valve
- слива топлива из коллектора — fuel manifold drain /dump/ valve
- слива топлива из контуров форсунок — fuel nozzle manifold drain valve
-, сливной (возврата из полости высокого в полость низкого давления) — return valve return valve permits fluid to return from the power cylinder to the hydraulic tank.
-, сливной (дренажный) — drain valve
-, сливной (санузла) — waste valve
- согласования последовательности срабатывания — sequence /sequencing/ valve
- согласования последовательности срабатывания створок реверса вентилятора и основной тяги — fan cascade and primary thrust reverser buckets sequence valve
согласования последовательности срабатывания створок реверсивного устройства — thrust reverser door /bucket/ sequence /sequencing/ valve
-, согласующий (управляющий последовательностью срабатывания) — sequence /sequencing/ valve
-, согласующий шасси (управляющей последовательностью срабатывания-открытия/закрытия створок шасси) — landing gear door operation sequence valve
- спинки (ранца парашюта) — pack pad flap
- срезки топлива — fuel sflutoff /cutoff/ valve
- стравливания воздуха (в маслоагрегате) — air bleeder valve
- стравливания воздуха (отвода) — air discharge valve
- стравливания давления (в баках при заправке топливом под давлением) — blow-off valve the valves prevent build-up of excessive pressures in tanks, when refuelling.
-, стравливающий (давление из амортизатора шасси) — (shock strut) bleeder) valve
-, тарельчатый — plate valve
-, терморазгрузочный — thermal relief valve
-, термостатический (топливомасляного агрегата) — fuel temperature regulator valve
-, топливодозирующий — fuel metering valve
-, торможения (амортизатора шасси) (рис. 29) — shock strut snubber valve
- торможения обратного хода плавающего поршня (амортизатора шасси) — floating piston recovery stroke snubber valve
-, тормозной (тормоза колес) — brake control valve
-, тормозов, разъемный (гидропроводки тормоза) — brake line disconnect valve
-, торцовый (ранца парашюта) — end flap
-, треугольный (ранца парашюта) — triangular flap
-, угловой (ранца парашюта) — corner flap
- управления — control valve
-, управляющий — control valve
- ускоренного слива топлива из топливного коллектора (обычно срабатывает при остановке двигателя) — dump valve. an automatic valve which rapidly drains the fuel manifold when the fuel pressure falls below the predetermined valve.
-, челночный — shuttle valve
-, шариковый — ball valve
-, шаровой — ball-type valve
-, эпектровоздушный — electro-pneumatic valve
-, электрогидравлический — electro-hydraulic valve
-, электромагнитный — solenoid valve
высота подъема к. — valve travel
зависание к. — valve sticking
заедание к. — valve sticking
закрытие к. — valve closing
открытие к. — valve opening
перекрытие к. — valve lap
подсос в к. — valve leaking
отгибать к. (ранца) назад — fold (pack) flap back
притирать к. — grind in /lap/ the valve
расправлять к. (ранца) — straighten (pack) flapРусско-английский сборник авиационно-технических терминов > клапан
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12 Porter, Charles Talbot
SUBJECT AREA: Steam and internal combustion engines[br]b. 18 January 1826 Auburn, New York, USAd. 1910 USA[br]American inventor of a stone dressing machine, an improved centrifugal governor and a high-speed steam engine.[br]Porter graduated from Hamilton College, New York, in 1845, read law in his father's office, and in the autumn of 1847 was admitted to the Bar. He practised for six or seven years in Rochester, New York, and then in New York City. He was drawn into engineering when aged about 30, first through a client who claimed to have invented a revolutionary type of engine and offered Porter the rights to it as payment of a debt. Having lent more money, Porter saw neither the man nor the engine again. Porter followed this with a similar experience over a patent for a stone dressing machine, except this time the machine was built. It proved to be a failure, but Porter set about redesigning it and found that it was vastly improved when it ran faster. His improved machine went into production. It was while trying to get the steam engine that drove the stone dressing machine to run more smoothly that he made a discovery that formed the basis for his subsequent work.Porter took the ordinary Watt centrifugal governor and increased the speed by a factor of about ten; although he had to reduce the size of the weights, he gained a motion that was powerful. To make the device sufficiently responsive at the right speed, he balanced the centrifugal forces by a counterweight. This prevented the weights flying outwards until the optimum speed was reached, so that the steam valves remained fully open until that point and then the weights reacted more quickly to variations in speed. He took out a patent in 1858, and its importance was quickly recognized. At first he manufactured and sold the governors himself in a specially equipped factory, because this was the only way he felt he could get sufficient accuracy to ensure a perfect action. For marine use, the counterweight was replaced by a spring.Higher speed had brought the advantage of smoother running and so he thought that the same principles could be applied to the steam engine itself, but it was to take extensive design modifications over several years before his vision was realized. In the winter of 1860–1, J.F. Allen met Porter and sketched out his idea of a new type of steam inlet valve. Porter saw the potential of this for his high-speed engine and Allen took out patents for it in 1862. The valves were driven by a new valve gear designed by Pius Fink. Porter decided to display his engine at the International Exhibition in London in 1862, but it had to be assembled on site because the parts were finished in America only just in time to be shipped to meet the deadline. Running at 150 rpm, the engine caused a sensation, but as it was non-condensing there were few orders. Porter added condensing apparatus and, after the failure of Ormerod Grierson \& Co., entered into an agreement with Joseph Whitworth to build the engines. Four were exhibited at the 1867 Paris Exposition Universelle, but Whitworth and Porter fell out and in 1868 Porter returned to America.Porter established another factory to build his engine in America, but he ran into all sorts of difficulties, both mechanical and financial. Some engines were built, and serious production was started c. 1874, but again there were further problems and Porter had to leave his firm. High-speed engines based on his designs continued to be made until after 1907 by the Southwark Foundry and Machine Company, Philadelphia, so Porter's ideas were proved viable and led to many other high-speed designs.[br]Bibliography1908, Engineering Reminiscences, New York: J. Wiley \& Sons; reprinted 1985, Bradley, Ill.: Lindsay (autobiography; the main source of information about his life).Further ReadingR.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (examines his governor and steam engine).O.Mayr, 1974, "Yankee practice and engineering theory; Charles T.Porter and the dynamics of the high-speed engine", Technology and Culture 16 (4) (examines his governor and steam engine).RLH -
13 клапан
1. м. valve2. м. valve plate, valve disk, valve plugдвижение среды «на клапан» — the pressure is on the top side of the valve disk
прерывающий клапан; многоходовой клапан — intercepting valve
клапан, регулирующий подачу воздуха — blast regulation valve
3. м. drop4. м. push-to-talk button5. м. flapатмосферный клапан — explosion vent; dump steam atmospheric valve
золотниковый клапан — slide valve; spool valve
клапан, отогнутый наружу — outside folded flap
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14 механизм
(c.s.d. turbine) emergency air
аварийного закрытия (отсечки) воздуха (на турбину ппо) — cut-out valve mechanism
- автомата тяги, исполнительный (имат) — autothrottle actuator
- автоматического включения системы пожаротушения при посадке с убранным шасси — crash switch (activating fire ехtinguishing system on lg up landing)
- автоматического торможенив, инерционный (плечевых ремней) — (shoulder-harness) inertia reel
- блокировки — interlock mechanism
- блокировки рычага управления двигателем — throttle interlock actuator
- блокировки включения систем самолета, двигателя при обжатой передней амортстойке шасси — ground shift mechanism (actuated with nose oleo compressed)
- "болтанки" (тренажера) — rough air mechanism
- ввода парашюта (мвп, катапультного кресла) — parachute deployment cartridge-actuated device
- ввода спасательного парашюта — life-saving parachute deployment cartridge-actuated device
мвп обеспечивает отстрел заголовника катапультного кресла и вводит спасательный парашют.
- ввода стабилизирующего парашюта (катапультного кресла) — drogue parachute /chute/ gun
-, винтовой — screwjaek
- включения противопожарной системы при аварийной посадке — crash switch crash switch is used to energize the fire extinguishing system under crash conditions.
-, винтовой, с шаровой гайкой — ball nut-jack screw
- включения храповика стартора — starter jaw meshing device
-, временной — timer
- выпуска и уборки шасси — landing gear extension and retraction mechanism
данный механизм служит для выпуска и уборки опор шасси и открытия и закрытия створок отсеков шасси, — used to extend and retract the landing gear and open and close the landing gear doors.
- выстрела катапультного кресла — seat ejection gun
- выстрела пиромеханизма — cartridge-actuated device firing mechanism, cad firing mechanism
- газораспределения — valve operating mechanism
механизм, обеспечивающий наполнение цилиндров поршневого двигателя внутреннего сгорания свежим зарядом и очистку их от продуктов сгорания. — the valve operating mechanism is designed to time the intake and exhaust valves for opening and closing.
- горизонтальной коррекции (гпк) — (gyro) levelling mechanism
состоит из жидкостного маятникового переключателя и мотора гориз. коррекции. — consists of liquid level switch and levelling torque motor.
- градиента усилий — force gradient mechanism
- градиента усилий (на ручке управления) (мгу) — stick force gradient mechanism
- зависания элеронов — aileron droop mechanism
-, загрузочный (обеспечивающий заданную зависимость усилий летчика от величины отклонения органа управления) (рис. 17). — load feel unit. elevator (or rudder) load feel unit /mechanism/.
-, загрузочный по числу м. — mach feel
-, загрузочный (работающий по скоростному напору) — q-feel mechanism
-, загрузочный, пружинный — (load) feel spring (mechanism), artificial feel bungee
-, загрузочный (no числу m), пружинный — mach (-feel) spring
- закрылка — flap actuator
- записи маршрута — route recorder
- запрокидывания тележки (шасси) — bogie rotation mechanism
- захвата ног (катапультного кресла) — leg restrainer
- захвата рук (катапультного кресла) — arm restrainer
- изменения кш (передаточнаго отношения от рычагов к поверхностям управления) — gear ratio control mechanism
- изменения шага (воздушно го) винта — propeller pitch-control mechanism
- изменения шага (воздушно го) винта, гидравлический — hydraulic propeller pitch-control mechanism
- измерителя крутящего момента (плунжерный) — torquemeter (plunger) mechanism
- инерционный (привязных плечевых ремней экипажа) — (shoulder harness) inertia reel
- интерцепторов, дифференциальный — speller differential mechanism
-, испопнитепьный — actuator
-, исполнительный (имт) для ограничения макс. температуры газа за турбиной по сигналам впрт. — exhaust gas temperature control actuator, egt /tgt/ еопtrol actuator
-, исполнительный (агрегат управления рна квд) — hp compressor inlet guide vanes actuator, hp igv actuator
- исполнительный (стрелок и индексов прибора) — servo
-, исполнительный индекса зк (заданного курса) (прибора пнп) — heading select index servo а servo controlling the heading select index.
-, исполнительный, стрелки apk (автом. радиокомпаса) (прибора пнп) — adf pointer servo а servo controlling the adf-l (red) pointer.
-, исполнительный, стрелки зпу (заданного путевого угла) (прибора пнп) — course arrow servo а servo controlling course arrow or pointer.
- катапультирования (кресла) — seat ejection gun /catapult/
- компенсатора триммерного эффекта (no тангажу, pb) — pitch trim compensator actuator
- концевых выключателей (mkb, системы закрылков) — limit switch mechanism
- коррекции (гироскопа) — erection mechanism то provide erection torques.
- коррекции частоты (мкч) — frequency corrector
-, коррекционный (км) — compensator
механизм в системе героиндукционного компаса, служащий для сравнения магнитноro курса no сигналам индукционного датчика, и курса, выдаваемого гироагрегатом. — the compensator (unit) constantly compares the flux detector and directional gyro signals, and transmits the output to the slaving amplifier to operate the slaving torque motor of the directional gyro to reset the gyro.
-, коррекционный (гироскопа) — gyro (erection) torquer
-, коррекционный (с лекальным устройством, гироиндукционного компаса) — compensator (with cam strip)
-, кривошипно-шатунный (двиг) — crank mechanism
-, кривошипно-шатунный передаточный (прибора, сигнализатора) — movement
-, кулачковый (в системе управления двигателем вертолета) — cam-box
-, кулачковый центрирующий (шасси) — centering cam device
- легочного автомата — demand oxygen regulator
-, лентопротяжный (записывающей аппаратуры) — tape transport mechanism
-, лентопротяжный (кино, фото) — film transport mechanism
- линейного действия — linear actuator
-, маятниковый (привода постоянных оборотов) — (c.s.d.) pendulum mechanism
- настройки (радиокомпаса) — tuning unit
- настройки времени приемистости — acceleration time adjuster
- настройки регулятора оборотов — speed governor adjuster
- настройки регулятора оборотов малого газа — idling speed governor adjuster
- настройки регулятора числа оборотов ротора вд — hp rotor /shaft/ governor adjuster
- натяга (привязного ремня катапультного кресла) — belt /strap/ retractor
- натяга ножного привязного — lap belt /strap/ retractor
- натяга привязного ремня, проходящего между ног — croach strap retractor
- ограничения расхода топлива (по положению руд) — fuel flow limiter
- ограничения рк (давления воздуха за компрессором высокого давления) — power limiter prevents excessive hp compressor pressure by limiting the fuel flow.
- ограничителя температуры газов за турбиной, исполнительный (имт) — exhaust gas temperature /egt/ control actuator actuated when egt reaches a limiting value.
- ориентации стойки шасси — centering cylinder /jack/
часть шасси самолета, предназначенная для ориентации или разворота стойки при ее выпуске и уборке, — centering cylinder is a provision to centralize the wheels before retraction/extension.
-, осредняющий (секстанта) — integrating mechanism
- останова (гтд) — hp fuel shut-off valve /cock/ assembly
- отдачи ручки (управления) — control stick pusher
- отдачи штурвала (для уменьшения угла атаки) — control column pusher
- отстрела фонаря кабины — canopy remover
- перегонки (рм) — auto-travel mechanism
-, передаточно-множительный (прибора) (рис. 79) — movement, moving element when disassembling the indicator, separate the meter movement from the meter frame.
-, передаточный (прибора) — movement, moving element
- передаточных чисел (в системе управления ла) — gain control unit (gcu)
- переключения "ножниц" стабилизатора — stabilizer assymetric operation control mechanism
- переключения педалей на управление передним(и) колесом (колесами) при обжатии передней амортстойки, т.е. при контакте колеса с земпей. — nosewheel steering ground shift mechanism. when airborne the rudder pedals have no effect on the nosewheel steering. nosewheel contact with the ground allows the pedal motion to be transmitted to the nosewheel steering cable system.
- переключения с бустерного на ручное (штурвальное) управление — power-to-manual reversion mеchanism
- переключения систем самолета, двигателя (по обжатию) амортизатора шасси) — ground shift mechanism (actuated with nose oleo compressed)
- перепуска воздуха из компрессора — compressor bleed valve control mechanism
- перестановки стабилизаторa, винтовой (mпс — horizontal stabilizer screw-jack
- подтяга (цилиндр) замка выпущенного положения — down-lock bungee cylinder
- подтяга патронной ленты — ammunition booster
- подтяга плечевых ремней (инерционный) — shoulder harness inertia reel
- подтяга плечевых тросов — shoulder-harness cable reel (mec hanism)
- подъема и опускания чашки кресла (летчика) — seat pan vertical adjustment mechanism
- подъема ног — leg lift (mechanism)
- подъема сиденья (мпс, для регулирования сиденья по росту летчика) — seat vertical adjustment mechanism
- полетного расстопорения (рычага управления шасси) — (landing gear control lever) flight release (mechanism)
- поперечной коррекции гироскопа — gyro roll (erection) torquer
- последовательноети срабатывания створок шасси — landing gear door sequence mechanism
- притяга ног (на катапультном кресле) — leg restrainer
- притяга плеч, автоматический — shoulder harness inertia reel
при возникновении случайной перегрузки в направлении "спина-грудь" данный механизм стопорит и удерживает летчика от перемещения в направлении полета. — if а back-to-chest g load occurs, the inertia reel prevents the pilot from moving forward.
- притяга поясного ремня — waist harness restrainer
- притяга рук — arm restrainer
-, программный (временной) — timer (tmr)
-, программный циклический — cycling timer
-, программный циклический (в противообпеденительной системе) — anti-icing cycling timer
- продольной коррекции гироскопа — gyro pitch (erection) torquer
- противообледенитепьной системы крыла и хвостового оперения, программный — airfoil de-ice timer
-, пружинный загрузочный — (load) feel spring (mechanism)
- разворота колеса в нейтральное положение (при уборке шасси) — (self-) centering device the nose wheel strut has a self-centering device to force fhe wheel in fore-andaft direction as the load removed.
-, развязывающий (проводок управления самолетом, напр., элеронов) — (control linkage) uncoupling mechanism
- раздвижки закрылков — flap expansion mechanism
- раскрытия вытяжного парашюта (грузов) — extractor release gear а system designed for manual or automatic deployment of the extractor parachute.
- распора (стойки шасси) — lock strut
силовой н кинематический элемент стойки шасси, выполняющий функции складывающегося подкоса, служащего распором между задним (или боковым) подкосом и амортстойкой (рис. 27). — а folding lock strut is fitted between the drag strut (or stay) and the pivot on upper end of the main fitting, it is operated by actuating cylinder when the landing gear is retracted or extended.
-, распределительно-демпфирующий (рдм), переднего колеса шасси — nosewheel steering/damping control valve (and follow-up assembly)
- расцепления (проводки ynравления элеронов и спойлеров) — (aileron and speller control linkage) uncoupling mechanism
- реверсирования винта — propeller reverser
- реверсирования тяги (рис. 53) — thrust reverser
- регулирования компрессора (входных аппаратов) — compressor guide vanes control (mechanism)
- регулировки (высоты) креслa (no росту летчика) — seat vertical adjustment mechanism
- регулирования усилий (ару, автомат регулирования передаточных чисел системы управления ла) — (automatic) gain control (agc)
-, реечный — rack and pinion mechanism
-, рулежно-демпфирующий — nosewheel steering/damping control valve
для распределения рабочей жидкости в гидроцилиндрах управления передним колесом в режиме управления и в режиме демпфирования, — the valve is operated by the steering wheel or rudder pedals. the valve is always returned to neutral by a followup cable system.
- сброса фонаря кабины (разделяющийся после срабатывания) — canopy remover removers are designed to impart thrust necessary to remove the canopy.
- сброса фонаря кабины, толкающий (не разделяющийся после срабатывания) — canopy thruster the thruster does not separate upon functioning.
-, согласования — synchronizer
- согласования крена — roll synchronizer
- согласования курса — heading synchronizer
дпя отработки и преобразования сигналов заданного курса.
- согласования тангажа — pitch synchronizer
- согласования срабатывания створок шасси — lg door sequence /sequencing/ mechanism
- стопорения (поверхности управления) — gust lock
устройство дня фиксации поверхностей управления на стоянке для предотвращения их отклонения порывами ветра. — gust locks protect the control surfaces from movement by wind while the aircraft is on the ground.
- стреляющий (катапультного кресла) — seat ejection gun /catapult/
-, стреляющий, двухтрубный — ejection seat two-stage gun
-, стреляющий для аварийногo сброса подвесного агрегата заправки топливом — refuel pod jettison(ing) mechanism
-, стреляющий комбинированный (ксм) состоит из двухтрубного см первой ступени, порохового реактивного (ракетного) двигателя второй ступени и механизма ввода парашюта. — rocket-assisted /-powered, propelled/ ejection gun /саtapult/
-, стреляющий, пиротехнический — cartridge-actuated mechanism, cad mechanism, gun mechanism
-, стреляющий, стабилизирующего парашюта — drogue (parachute) gun
-, стреляющий, тепескопический (пиромеханизм) — seat ejection telescopic gun
-, стреляющий, унифицированный, комбинированный (ксму, катапупьтного кресла) — rocket-assisted /-powered, propelled/ seat ejection gun /catapult/
обеспечивает катапультирование, ввод дефлектора возд. потока, ввод спасательного парашюта и отделение кресла от летчика. — used to eject the seat, deploy the deflector and parachute, and separate the seat.
-, трехтрубный тепескопический стреляющий (катапультного кресла) — three-stage telescopic gun
- триммера (электрический) — trim tab actuator
- триммерного эффекта (перестановки поверхности управления) — trim(ming) actuator
- триммерного эффекта (рогулирования загрузочного механизма) — feel (unit) actuator
- триммерного эффекта бокового канала — roll trim actuator
- триммерного эффекта крена — roll trim actuator
- триммерного эффекта курса — yaw trim actuator
- триммерного эффекта продольного канала — pitch trim actuator
- триммерного эффекта загружатепя руля направления (руля высоты, элеронов) — rudder (elevator, aileron) load feel (electric) actuator actuator shifts neutral position of load feel mechanism, causing ailerons to re-position.
- триммерного эффекта (загружателя) тангажа — pitch trim actuator
- триммирования — trim(ming) actuator
-, триммирующий — trim(ming) actuator
- (автомат) тряски штурвала (для сигнализации приближения к режиму сваливания) — stick shaker with stall warning test switch depressed, the stick shakers should operate.
- уборки вытяжных звеньев (парашютов) — static link retraction mechanism
- уборки и выпуска шасси — landing gear extension and retraction mechanism
- уборки шасси — landing gear retracting mechanism
- управления — control mechanism
- управления внутренними створками основного реверса тяги — primary reverser bucket actuator
- управления двигателем на режиме обратной тяги (реверса) — оn-reverse thrust engine control (mechanism)
- управления клапанами перепуска воздуха (из компрессора) — compressor bleed valve control mechanism
- управления лентой перепуска воздуха — compressor bleed valve /band/ control mechanism
- управления наружной створкой реверса тяги вентилятора — fan reverser cascade (cover) door actuator
- управления наружными створками основного реверса тяги — primary reverser door actuator
- управления носовым крылом (схемы "утка") — canard actuator
- управления общим шагом (несущего винта) — collective pitch control
- управления приемистостью — acceleration control unit (acu)
узел насоса-регупятора, контролирующий скорость перемещения дозирующей иглы и предотвращающий переобогащение смеси при резкой даче газа. — the unit prevents excessive overfueling (overrich mixture) with possible subsequent engine surging when the throttle is advanced rapidly.
- управления реверсом тяги (мур) — thrust reverser pilot valve
- сбросом оборотов (двигателя) — (engine) deceleration control (unit)
- управления створками реверса — thrust reverser door /bucket/ actuator
- управления створками шасси — landing gear door operating mechanism
- управления циклическим изменением шага (несущ. винта) — cyclic pitch control
- управления шагом винта — propeller pitch control mechanism
-, уравнительный (рулевой машинки aп) — differential gear assembly
-, уравнительный (синхронизации работы силовых цилиндров реверса тяги) — thrust reverser actuators synchronizer
- фиксатора шага (воздушного винта) — pitch lock mechanism
-, фиксирующий — locking mechanism
- флюгирования (воздушного винта) — feathering mechanism
-, фпюгирующий (воздушного винта) — feathering mechanism
-, часовой — clock mechanism
полный завод часового ханизма обеспечивает... часовую работу часов. — the clock mechanism rating, when wound tight, is... hours.
- эффекта триммирования (мэт) заводить часовой м. — trim(ming) actuator wind clock mechanismРусско-английский сборник авиационно-технических терминов > механизм
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15 Gresley, Sir Herbert Nigel
[br]b. 19 June 1876 Edinburgh, Scotlandd. 5 April 1941 Hertford, England[br]English mechanical engineer, designer of the A4-class 4–6–2 locomotive holding the world speed record for steam traction.[br]Gresley was the son of the Rector of Netherseale, Derbyshire; he was educated at Marlborough and by the age of 13 was skilled at making sketches of locomotives. In 1893 he became a pupil of F.W. Webb at Crewe works, London \& North Western Railway, and in 1898 he moved to Horwich works, Lancashire \& Yorkshire Railway, to gain drawing-office experience under J.A.F.Aspinall, subsequently becoming Foreman of the locomotive running sheds at Blackpool. In 1900 he transferred to the carriage and wagon department, and in 1904 he had risen to become its Assistant Superintendent. In 1905 he moved to the Great Northern Railway, becoming Superintendent of its carriage and wagon department at Doncaster under H.A. Ivatt. In 1906 he designed and produced a bogie luggage van with steel underframe, teak body, elliptical roof, bowed ends and buckeye couplings: this became the prototype for East Coast main-line coaches built over the next thirty-five years. In 1911 Gresley succeeded Ivatt as Locomotive, Carriage \& Wagon Superintendent. His first locomotive was a mixed-traffic 2–6–0, his next a 2–8–0 for freight. From 1915 he worked on the design of a 4–6–2 locomotive for express passenger traffic: as with Ivatt's 4 4 2s, the trailing axle would allow the wide firebox needed for Yorkshire coal. He also devised a means by which two sets of valve gear could operate the valves on a three-cylinder locomotive and applied it for the first time on a 2–8–0 built in 1918. The system was complex, but a later simplified form was used on all subsequent Gresley three-cylinder locomotives, including his first 4–6–2 which appeared in 1922. In 1921, Gresley introduced the first British restaurant car with electric cooking facilities.With the grouping of 1923, the Great Northern Railway was absorbed into the London \& North Eastern Railway and Gresley was appointed Chief Mechanical Engineer. More 4–6– 2s were built, the first British class of such wheel arrangement. Modifications to their valve gear, along lines developed by G.J. Churchward, reduced their coal consumption sufficiently to enable them to run non-stop between London and Edinburgh. So that enginemen might change over en route, some of the locomotives were equipped with corridor tenders from 1928. The design was steadily improved in detail, and by comparison an experimental 4–6–4 with a watertube boiler that Gresley produced in 1929 showed no overall benefit. A successful high-powered 2–8–2 was built in 1934, following the introduction of third-class sleeping cars, to haul 500-ton passenger trains between Edinburgh and Aberdeen.In 1932 the need to meet increasing road competition had resulted in the end of a long-standing agreement between East Coast and West Coast railways, that train journeys between London and Edinburgh by either route should be scheduled to take 8 1/4 hours. Seeking to accelerate train services, Gresley studied high-speed, diesel-electric railcars in Germany and petrol-electric railcars in France. He considered them for the London \& North Eastern Railway, but a test run by a train hauled by one of his 4–6–2s in 1934, which reached 108 mph (174 km/h), suggested that a steam train could better the railcar proposals while its accommodation would be more comfortable. To celebrate the Silver Jubilee of King George V, a high-speed, streamlined train between London and Newcastle upon Tyne was proposed, the first such train in Britain. An improved 4–6–2, the A4 class, was designed with modifications to ensure free running and an ample reserve of power up hill. Its streamlined outline included a wedge-shaped front which reduced wind resistance and helped to lift the exhaust dear of the cab windows at speed. The first locomotive of the class, named Silver Link, ran at an average speed of 100 mph (161 km/h) for 43 miles (69 km), with a maximum speed of 112 1/2 mph (181 km/h), on a seven-coach test train on 27 September 1935: the locomotive went into service hauling the Silver Jubilee express single-handed (since others of the class had still to be completed) for the first three weeks, a round trip of 536 miles (863 km) daily, much of it at 90 mph (145 km/h), without any mechanical troubles at all. Coaches for the Silver Jubilee had teak-framed, steel-panelled bodies on all-steel, welded underframes; windows were double glazed; and there was a pressure ventilation/heating system. Comparable trains were introduced between London Kings Cross and Edinburgh in 1937 and to Leeds in 1938.Gresley did not hesitate to incorporate outstanding features from elsewhere into his locomotive designs and was well aware of the work of André Chapelon in France. Four A4s built in 1938 were equipped with Kylchap twin blast-pipes and double chimneys to improve performance still further. The first of these to be completed, no. 4468, Mallard, on 3 July 1938 ran a test train at over 120 mph (193 km/h) for 2 miles (3.2 km) and momentarily achieved 126 mph (203 km/h), the world speed record for steam traction. J.Duddington was the driver and T.Bray the fireman. The use of high-speed trains came to an end with the Second World War. The A4s were then demonstrated to be powerful as well as fast: one was noted hauling a 730-ton, 22-coach train at an average speed exceeding 75 mph (120 km/h) over 30 miles (48 km). The war also halted electrification of the Manchester-Sheffield line, on the 1,500 volt DC overhead system; however, anticipating eventual resumption, Gresley had a prototype main-line Bo-Bo electric locomotive built in 1941. Sadly, Gresley died from a heart attack while still in office.[br]Principal Honours and DistinctionsKnighted 1936. President, Institution of Locomotive Engineers 1927 and 1934. President, Institution of Mechanical Engineers 1936.Further ReadingF.A.S.Brown, 1961, Nigel Gresley, Locomotive Engineer, Ian Allan (full-length biography).John Bellwood and David Jenkinson, Gresley and Stanier. A Centenary Tribute (a good comparative account).See also: Bulleid, Oliver Vaughan SnellPJGRBiographical history of technology > Gresley, Sir Herbert Nigel
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16 Ricardo, Sir Harry Ralph
[br]b. 26 January 1885 London, Englandd. 18 May 1974 Graffham, Sussex, England[br]English mechanical engineer; researcher, designer and developer of internal combustion engines.[br]Harry Ricardo was the eldest child and only son of Halsey Ricardo (architect) and Catherine Rendel (daughter of Alexander Rendel, senior partner in the firm of consulting civil engineers that later became Rendel, Palmer and Tritton). He was educated at Rugby School and at Cambridge. While still at school, he designed and made a steam engine to drive his bicycle, and by the time he went up to Cambridge in 1903 he was a skilled craftsman. At Cambridge, he made a motor cycle powered by a petrol engine of his own design, and with this he won a fuel-consumption competition by covering almost 40 miles (64 km) on a quart (1.14 1) of petrol. This brought him to the attention of Professor Bertram Hopkinson, who invited him to help with research on turbulence and pre-ignition in internal combustion engines. After leaving Cambridge in 1907, he joined his grandfather's firm and became head of the design department for mechanical equipment used in civil engineering. In 1916 he was asked to help with the problem of loading tanks on to railway trucks. He was then given the task of designing and organizing the manufacture of engines for tanks, and the success of this enterprise encouraged him to set up his own establishment at Shoreham, devoted to research on, and design and development of, internal combustion engines.Leading on from the work with Hopkinson were his discoveries on the suppression of detonation in spark-ignition engines. He noted that the current paraffinic fuels were more prone to detonation than the aromatics, which were being discarded as they did not comply with the existing specifications because of their high specific gravity. He introduced the concepts of "highest useful compression ratio" (HUCR) and "toluene number" for fuel samples burned in a special variable compression-ratio engine. The toluene number was the proportion of toluene in heptane that gave the same HUCR as the fuel sample. Later, toluene was superseded by iso-octane to give the now familiar octane rating. He went on to improve the combustion in side-valve engines by increasing turbulence, shortening the flame path and minimizing the clearance between piston and head by concentrating the combustion space over the valves. By these means, the compression ratio could be increased to that used by overhead-valve engines before detonation intervened. The very hot poppet valve restricted the advancement of all internal combustion engines, so he turned his attention to eliminating it by use of the single sleeve-valve, this being developed with support from the Air Ministry. By the end of the Second World War some 130,000 such aero-engines had been built by Bristol, Napier and Rolls-Royce before the piston aero-engine was superseded by the gas turbine of Whittle. He even contributed to the success of the latter by developing a fuel control system for it.Concurrent with this was work on the diesel engine. He designed and developed the engine that halved the fuel consumption of London buses. He invented and perfected the "Comet" series of combustion chambers for diesel engines, and the Company was consulted by the vast majority of international internal combustion engine manufacturers. He published and lectured widely and fully deserved his many honours; he was elected FRS in 1929, was President of the Institution of Mechanical Engineers in 1944–5 and was knighted in 1948. This shy and modest, though very determined man was highly regarded by all who came into contact with him. It was said that research into internal combustion engines, his family and boats constituted all that he would wish from life.[br]Principal Honours and DistinctionsKnighted 1948. FRS 1929. President, Institution of Mechanical Engineers 1944–5.Bibliography1968, Memo \& Machines. The Pattern of My Life, London: Constable.Further ReadingSir William Hawthorne, 1976, "Harry Ralph Ricardo", Biographical Memoirs of Fellows of the Royal Society 22.JBBiographical history of technology > Ricardo, Sir Harry Ralph
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17 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 -
18 vacío
adj.1 empty, hollow, unladen, void.2 hollow, empty.3 shallow, empty, hollow, soulless.m.1 vacuum, blank, void.2 empty space.pres.indicat.1st person singular (yo) present indicative of spanish verb: vaciar.* * *► adjetivo1 (gen) empty2 (no ocupado) vacant, unoccupied; (sin muebles) unfurnished3 (hueco) hollow5 figurado (palabras, conversación) empty1 (gen) emptiness, void3 (vacante) vacancy4 FÍSICA vacuum\caer en el vacío figurado to fall on deaf earsenvasar al vacío to vacuum-packhacer el vacío a alguien figurado to cold-shoulder somebody, send somebody to Coventrysentir un gran vacío figurado to feel emptytener el estómago vacío figurado to feel hungrytener la cabeza vacía figurado to be empty-headedvolver con las manos vacías figurado to come back empty-handed————————1 (gen) emptiness, void3 (vacante) vacancy4 FÍSICA vacuum* * *1. noun m.1) emptiness, void2) gap3) vacuum2. (f. - vacía)adj.1) empty2) vacant* * *1. ADJ1) (gen) empty; [puesto, local] vacant, emptyhe alquilado un piso vacío porque sale más barato — I've rented an unfurnished flat because it's cheaper
Madrid queda vacío en agosto — Madrid is empty o deserted in August
de vacío: el camión volvió de vacío — the lorry came back empty
2) (=superficial) [persona] shallow; [conversación] meaninglessun discurso vacío de contenido — a speech empty o devoid of any content
3) (=sin sentido) [existencia] empty, meaningless4) (=vano) [esfuerzo] vain; [promesa] empty, hollow5)pan vacío — (And, CAm, Caribe) dry bread
2. SM1) (Fís) vacuum2) (=hueco) (empty) space, gap3) (=abismo)el vacío — the void, space
saltó al vacío desde lo alto del acantilado — he jumped from the top of the cliff into space o the void
4) (=falta de sentido) void5) (Jur, Pol)6) (Mec)7) (Anat) side, flank* * *I- cía adjetivoa) <botella/caja> empty; <calle/ciudad> empty, deserted; < casa> empty, unoccupied; <palabras/retórica> emptylos envases vacíos — the empty bottles, the empties (colloq)
IIvolver de vacío — (Esp) camión to come back empty; persona to come back empty-handed
a) (Fís) vacuumhacerle el vacío a alguien — to give somebody the cold shoulder
b) ( espacio vacío) spacesaltó al vacío — he leapt into the void o into space
caer en el vacío — to fall on deaf ears
c) (falta, hueco) gapdejó un vacío en su vida — she left a gap o a void in his life
* * *= dummy, empty [emptier -comp., emptiest -sup.], gap, gulf, stop, vacuum, void, hollow, emptiness, vacant, loophole, vacated.Ex. DOBIS/LIBIS, therefore, assigns them the dummy master number zero.Ex. When DOBIS/Leuven is ready and waiting for input, the line is empty.Ex. New editions will be essentially cumulations and therefore a longer gap will exist between editions.Ex. It must be remembered that there is a gulf between publishing the schedules in an updated form, and applying the schedules.Ex. Of course some terms may be difficult to categorise as stop or non-stop.Ex. Whilst valves work by passing electric currents through a vacuum between electrodes, transistors are built from materials called semiconductors.Ex. If archival materials are entered into an OPAC the vague nature of collection titles and the general subject headings may result in records being lost in a void.Ex. It can certainly be status-conferring to let it be known in social conversation that one has read the latest Fay Weldon book, but if the group one is in never reads Fay Weldon anyway and could not care less what she has written then the victory is a somewhat hollow one.Ex. The economic recession and the new technology are, between them, leaving a section of society with a feeling of hopelessness and emptiness = La recesión económica y las nuevas tecnologías, entre otros, están dejando a un sector de la sociedad con un sentimiento de desesperación y vacío.Ex. Again we find that only the first entry leads us to the specific subject, and the others may in fact lead us to ` vacant' headings, ie headings under which no entries are filed.Ex. Problems in compiling these include loopholes in the legal deposit law, material which is not printed (leaflets, posters, speeches), exempted material, and excluded material.Ex. There are plans to transform vacated space in the old building into a visitor's centre with exhibitions and reading rooms.----* caer al vacío = fall into + the void, fall into + (empty) space.* caída al vacío = fall into + (empty) space.* cámara al vacío = vacuum chamber.* con las manos vacías = empty-handed.* dejar frío y vacío = leave + Nombre + cold and empty.* dejar vacío = leave + vacant.* disparar cartuchos vacíos = fire + blanks.* empaquetar al vacío en plástico = shrink-wrap [shrinkwrap].* envasar al vacío = vacuum-pack.* lista de palabras vacías = stop list [stoplist], stopword list.* llenar un vacío = fill + vacuum, fill + gap, fill in + gap, fill + void, fill + the breach.* medio vacío = half-empty.* mesa al vacío = vacuum table.* mirada vacía = blank look, blank expression.* mirar al vacío = stare into + space, look into + space, gaze into + space.* no vacío = non-stop.* palabra vacía = function word.* precipitarse al vacío = fall into + the void, fall into + (empty) space.* referencia ciega o vacía = blind reference.* rellenar con ceros los espacios vacíos = zero fill.* salto al vacío = leap in the dark.* secado y congelado al vacío = vacuum freeze drying.* vacío informativo = information vacuum.* vacío legal = loophole, legal void.* * *I- cía adjetivoa) <botella/caja> empty; <calle/ciudad> empty, deserted; < casa> empty, unoccupied; <palabras/retórica> emptylos envases vacíos — the empty bottles, the empties (colloq)
IIvolver de vacío — (Esp) camión to come back empty; persona to come back empty-handed
a) (Fís) vacuumhacerle el vacío a alguien — to give somebody the cold shoulder
b) ( espacio vacío) spacesaltó al vacío — he leapt into the void o into space
caer en el vacío — to fall on deaf ears
c) (falta, hueco) gapdejó un vacío en su vida — she left a gap o a void in his life
* * *= dummy, empty [emptier -comp., emptiest -sup.], gap, gulf, stop, vacuum, void, hollow, emptiness, vacant, loophole, vacated.Ex: DOBIS/LIBIS, therefore, assigns them the dummy master number zero.
Ex: When DOBIS/Leuven is ready and waiting for input, the line is empty.Ex: New editions will be essentially cumulations and therefore a longer gap will exist between editions.Ex: It must be remembered that there is a gulf between publishing the schedules in an updated form, and applying the schedules.Ex: Of course some terms may be difficult to categorise as stop or non-stop.Ex: Whilst valves work by passing electric currents through a vacuum between electrodes, transistors are built from materials called semiconductors.Ex: If archival materials are entered into an OPAC the vague nature of collection titles and the general subject headings may result in records being lost in a void.Ex: It can certainly be status-conferring to let it be known in social conversation that one has read the latest Fay Weldon book, but if the group one is in never reads Fay Weldon anyway and could not care less what she has written then the victory is a somewhat hollow one.Ex: The economic recession and the new technology are, between them, leaving a section of society with a feeling of hopelessness and emptiness = La recesión económica y las nuevas tecnologías, entre otros, están dejando a un sector de la sociedad con un sentimiento de desesperación y vacío.Ex: Again we find that only the first entry leads us to the specific subject, and the others may in fact lead us to ` vacant' headings, ie headings under which no entries are filed.Ex: Problems in compiling these include loopholes in the legal deposit law, material which is not printed (leaflets, posters, speeches), exempted material, and excluded material.Ex: There are plans to transform vacated space in the old building into a visitor's centre with exhibitions and reading rooms.* caer al vacío = fall into + the void, fall into + (empty) space.* caída al vacío = fall into + (empty) space.* cámara al vacío = vacuum chamber.* con las manos vacías = empty-handed.* dejar frío y vacío = leave + Nombre + cold and empty.* dejar vacío = leave + vacant.* disparar cartuchos vacíos = fire + blanks.* empaquetar al vacío en plástico = shrink-wrap [shrinkwrap].* envasar al vacío = vacuum-pack.* lista de palabras vacías = stop list [stoplist], stopword list.* llenar un vacío = fill + vacuum, fill + gap, fill in + gap, fill + void, fill + the breach.* medio vacío = half-empty.* mesa al vacío = vacuum table.* mirada vacía = blank look, blank expression.* mirar al vacío = stare into + space, look into + space, gaze into + space.* no vacío = non-stop.* palabra vacía = function word.* precipitarse al vacío = fall into + the void, fall into + (empty) space.* referencia ciega o vacía = blind reference.* rellenar con ceros los espacios vacíos = zero fill.* salto al vacío = leap in the dark.* secado y congelado al vacío = vacuum freeze drying.* vacío informativo = information vacuum.* vacío legal = loophole, legal void.* * *1 ‹botella/caja› empty; ‹calle/ciudad› empty, desertedcon el estómago vacío on an empty stomachlos envases vacíos the empty bottles, the empties ( colloq)la casa se alquila vacía the house is being rented unfurnishedel local está vacío the premises are empty o vacantla siguió con una mirada totalmente vacía he stared after her with a totally blank expression on his facela despensa está vacía there's no food in the housevacío DE algo:una calle vacía de vehículos y transeúntes a street empty of vehicles and passersbyun hombre vacío de compasión a man devoid of compassionfrases vacías de significado meaningless o empty wordsretórica vacía de contenido empty rhetoricvolver de vacío ( Esp) «camión» to come back empty;«persona» to come back empty-handed2 (frívolo) ‹persona› shallow; ‹vida› empty, meaninglessson frases bonitas pero vacías they're fine-sounding words but they're meaningless o devoid of any meaningpasaban su tiempo en conversaciones vacías they spent their time in idle o superficial conversation1 ( Fís) vacuumenvasado al vacío vacuum-packedhacer el vacío a algo to ignore sthhicieron el vacío a todas mis sugerencias they ignored all my suggestionshacerle el vacío a algn to give sb the cold shoulder, to cold-shoulder sb2 (espacio vacío) spacemiraba al vacío she was gazing into spacesaltó al vacío he leapt into the void o into spacecaer en el vacío to fall on deaf ears3 (falta, hueco) gapdejó en su vida un vacío she left a gap o a void in his lifesentía una terrible sensación de vacío he had a terrible feeling of emptinessen el caso de un vacío en la jefatura del Estado in the situation where there is no head of stateCompuesto:power vacuum* * *
Del verbo vaciar: ( conjugate vaciar)
vacío es:
1ª persona singular (yo) presente indicativo
vació es:
3ª persona singular (él/ella/usted) pretérito indicativo
Multiple Entries:
vaciar
vacío
vaciar ( conjugate vaciar) verbo transitivo
1
‹ radiador› to drain;
‹bolsillo/cajón› to empty;
‹armario/habitación› to clean out
2 ( ahuecar) to hollow out
vaciarse verbo pronominal
to empty
vacío 1◊ - cía adjetivo
‹calle/ciudad› empty, deserted;
‹ casa› empty, unoccupied;
‹palabras/retórica› empty;
‹vida/frase› empty, meaningless
vacío 2 sustantivo masculinoa) (Fís) vacuum;
◊ dejó un vacío en su vida she left a gap o a void in his life;
una sensación de vacío a feeling of emptiness
vaciar verbo transitivo
1 (un cajón, una botella, un contenedor) to empty: vaciamos la piscina, we emptied the pool
2 Arte (una escultura, etc) to mould, US mold
3 (dejar hueco) to hollow out
vacío,-a
I adjetivo
1 (sin contenido) empty
(sin interior, hueco) hollow
el tronco ya está vacío, the trunk is already hollow
2 (sin personas) empty
(sin ocupante) vacant: el piso está vacío, the flat is unoccupied
3 (pensamiento, promesa, etc) empty, hollow
(superficial) shallow
II sustantivo masculino
1 Fís vacuum
envasado al vacío, vacuum-packed
2 (espacio, aire) emptiness, void: el camión se precipitó al vacío, the truck plunged into the void
3 (sensación, sentimiento) me dejó una sensación de vacío, it made me feel empty
4 (hueco sin ocupar) gap, (empty) space
♦ Locuciones: de vacío, empty-handed
' vacío' also found in these entries:
Spanish:
casco
- hueca
- hueco
- huera
- huero
- lanzarse
- precipitarse
- salto
- vacía
- desocupado
- despejado
- estómago
- lanzar
- saltar
English:
bare
- blank
- bottle
- emptiness
- empty
- flat
- gap
- half-empty
- hollow
- leap
- send
- space
- spring
- tip out
- vacant
- vacuum
- vacuum-packed
- void
- into
- ostracize
- stomach
* * *vacío, -a♦ adj1. [recipiente, vivienda, espacio] empty;una sala casi vacía an almost empty hall;la ciudad estaba vacía the city was empty o deserted2. [palabras, gesto, promesa] empty;vacío de [contenido] devoid of3. [vida, existencia] empty♦ nmcaer en el vacío [palabras] to fall on deaf ears;hacer el vacío a alguien to cold-shoulder sb2. Fís vacuum;envasar al vacío to vacuum-pack3. [abismo, carencia] void;su muerte ha dejado un gran vacío his death has left a big gap o voidvacío existencial existential void;vacío legal legal vacuum;Pol vacío de poder power vacuum4. [hueco] space, gap;tener un vacío en el estómago to feel hungry5. RP [carne] flank steak♦ de vacío loc advirse/volver de vacío [persona] to go/come back empty-handed;[vehículo] to go/come back empty* * *I adj emptydejar un vacío fig leave a gap;envasado al vacío vacuum-packed;hacer el vacío a alguien fig ostracize s.o.;caer en el vacío fig fall on deaf ears fam* * *1) : vacant2) : empty3) : meaninglessvacío nm1) : emptiness, void2) : space, gap3) : vacuum4)hacerle el vacío a alguien : to ostracize someone, to give someone the cold shoulder* * *vacío1 adj2. (silla) free¿está vacía esta silla? is this seat free?vacío2 n1. (en general) void2. (en física) vacuum -
19 ход
travel
(величина перемещения)
- (движение) — motion, travel
- (процесс перемещения поршня, штока) — stroke
- (работа машины) — run(ing)
- (шаг винта) — lead
ход равен шагу при однозаходной резьбе, — lead equals pitch for single start thread.
- амортизатора (амортстойки) шасси (величина) — shock strut travel
- амортизатора шасси (процесс) — shock strut stroke
- амортизатора шасси, большой — shock strut long stroke
- анероида (расширение/сжатие) — aneroid capsule expansion/contraction
- (качание) блока на амортизаторах, свободный — free sway of unit on shockmounts /shock insulators/
- винта осевой ход винта за один оборот. — lead the distance the screw advances axially in one turn.
- впуска (пд) — intake stroke
такт работы поршневого двигатепя, в течение которого поршень движется вниз (от головки цилиндра), всасывая рабочую смесь в цилиндр (рис. 64). — the intake, admission or suetion stroke of an internal combustion engine, i.e. the period of time during which the piston is moving down and a fuel-air charge is being drawn or forced into the cylinder.
- всасывания — suction stroke
- всасывания (пд) — intake stroke
- выпуска (пд) — exhaust stroke
такт работы поршневого двигатепя, в течение которого поршень движется вверх (к головке цилиндра), вытесняя отработанные газы из цилиндра (рис. 64). — the period of time during which the reciprocating engine piston is moving upward and exhaust gases are being discharged from the cylinder.
-, задний — reverse motion
-, мертвый (люфт системы управления или пары шестерен) — backlash
- насоса (плунжерного) — pump stroke
-, неравномерный — irregular running
-, обратный амортизатора шасси, величина) (рис. 29) — recovery travel
-, обратный (амортизатора шасси, процесс) — recovery stroke, rebound the shock strut piston moves /jumps/ back after wheel striking the ground.
-, обратный (при отсчете показаний) — decreasing reading (d)
-, плавный — smooth running
-, полный — full travel
- поршня — piston stroke
расстояние, проходимое поршнем пд от верхней (вмт) до нижней (нмт) мертовой точки. двигатели классифицируются no числу ходовтактов. — the distance that a piston of ап engine travels from top dead center to bottom dead center. engines are classified by the number of strokes required to accomplish the so called engine cycles.
- пружины — spring stroke
-, прямой (амортизатора шассм, величина) (рис. 29) — impact travel
-, прямой (амортизатора шассм, процесс) — impact stroke
-, прямой (при отсчете показаний) — increasing reading (i)
-, рабочий (пд) — power stroke
такт работы пд, в течение которого поршень движется вниз (от головки цилиндра) под воздействием воспламененной смеси (рис. 64). — the period of time during which the reciprocating engine piston is moved outward by the fuel/air mixture fired.
-, свободный — free travel
-, свободный (блока) на амортизаторах — free sway of the unit permitted by shockmounts
- сжатия (пд) — compression stroke
второй такт работы четырехтактного пд, при котором поршень движется вверх, сжимая рабочую смесь в ципиндре. клапаны впуска и выпуска закрыты (рис. 64). — the second stroke of the fourstroke cycle principle. the piston moves out from the crank, compressing the charge. during this stroke, both intake and exhaust valves are closed.
-, холостой (генератора, электродвигатепя) — no-load operation
-, холостой (двиг.) — idle (run)
running an engine at low r.p.m. and under no load.
-, холостой (режим малого газа двиг.) — idling
работа двиг. на минимальнодопустимых оборотах, — engine running at lowest speed possible, without stopping
- штока (гидроусилителя, величина) — operating rod travel
- штока (гидроусилитепя, процесс) — operating rod stroke
- штока амортизатора шасси (величина/процесс) — landing gear shock strut piston travel (stroke)
в конце x. поршня — at the end of piston stroke
перемена x. — stroke reversal
no x. (о вращат. движении) — in direction of normal rotation
при обратном x. амортизатоpа шасси — on shock strut recovery, (on recovery)
при прямом x. амортизатора шасси — on shock strut impact travel, (on impact)
продолжительность x. часового механизма — clock mechanism rating
против x. (о вращат. движении) — against direction of normal гоtation, in direction opposite to normal rotation
против x. (о линейном перемещении) — against direction of normal movement,in direction opposite to normal movement
работа на холостом x. (двиг.) — idling, at idle (power)
поворачивать (проворачнвать) no x. — turn in the direction of normal rotation
поворачивать (проворачивать) против x. — turn in direction opposite to normal rotation
работать на холостом x. — idle, run at idle powerРусско-английский сборник авиационно-технических терминов > ход
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20 Appleton, Sir Edward Victor
[br]b. 6 September 1892 Bradford, Englandd. 21 April 1965 Edinburgh, Scotland[br]English physicist awarded the Nobel Prize for Physics for his discovery of the ionospheric layer, named after him, which is an efficient reflector of short radio waves, thereby making possible long-distance radio communication.[br]After early ambitions to become a professional cricketer, Appleton went to St John's College, Cambridge, where he studied under J.J.Thompson and Ernest Rutherford. His academic career interrupted by the First World War, he served as a captain in the Royal Engineers, carrying out investigations into the propagation and fading of radio signals. After the war he joined the Cavendish Laboratory, Cambridge, as a demonstrator in 1920, and in 1924 he moved to King's College, London, as Wheatstone Professor of Physics.In the following decade he contributed to developments in valve oscillators (in particular, the "squegging" oscillator, which formed the basis of the first hard-valve time-base) and gained international recognition for research into electromagnetic-wave propagation. His most important contribution was to confirm the existence of a conducting ionospheric layer in the upper atmosphere capable of reflecting radio waves, which had been predicted almost simultaneously by Heaviside and Kennelly in 1902. This he did by persuading the BBC in 1924 to vary the frequency of their Bournemouth transmitter, and he then measured the signal received at Cambridge. By comparing the direct and reflected rays and the daily variation he was able to deduce that the Kennelly- Heaviside (the so-called E-layer) was at a height of about 60 miles (97 km) above the earth and that there was a further layer (the Appleton or F-layer) at about 150 miles (240 km), the latter being an efficient reflector of the shorter radio waves that penetrated the lower layers. During the period 1927–32 and aided by Hartree, he established a magneto-ionic theory to explain the existence of the ionosphere. He was instrumental in obtaining agreement for international co-operation for ionospheric and other measurements in the form of the Second Polar Year (1932–3) and, much later, the International Geophysical Year (1957–8). For all this work, which made it possible to forecast the optimum frequencies for long-distance short-wave communication as a function of the location of transmitter and receiver and of the time of day and year, in 1947 he was awarded the Nobel Prize for Physics.He returned to Cambridge as Jacksonian Professor of Natural Philosophy in 1939, and with M.F. Barnett he investigated the possible use of radio waves for radio-location of aircraft. In 1939 he became Secretary of the Government Department of Scientific and Industrial Research, a post he held for ten years. During the Second World War he contributed to the development of both radar and the atomic bomb, and subsequently served on government committees concerned with the use of atomic energy (which led to the establishment of Harwell) and with scientific staff.[br]Principal Honours and DistinctionsKnighted (KCB 1941, GBE 1946). Nobel Prize for Physics 1947. FRS 1927. Vice- President, American Institute of Electrical Engineers 1932. Royal Society Hughes Medal 1933. Institute of Electrical Engineers Faraday Medal 1946. Vice-Chancellor, Edinburgh University 1947. Institution of Civil Engineers Ewing Medal 1949. Royal Medallist 1950. Institute of Electrical and Electronics Engineers Medal of Honour 1962. President, British Association 1953. President, Radio Industry Council 1955–7. Légion d'honneur. LLD University of St Andrews 1947.Bibliography1925, joint paper with Barnett, Nature 115:333 (reports Appleton's studies of the ionosphere).1928, "Some notes of wireless methods of investigating the electrical structure of the upper atmosphere", Proceedings of the Physical Society 41(Part III):43. 1932, Thermionic Vacuum Tubes and Their Applications (his work on valves).1947, "The investigation and forecasting of ionospheric conditions", Journal of theInstitution of Electrical Engineers 94, Part IIIA: 186 (a review of British work on the exploration of the ionosphere).with J.F.Herd \& R.A.Watson-Watt, British patent no. 235,254 (squegging oscillator).Further ReadingWho Was Who, 1961–70 1972, VI, London: A. \& C.Black (for fuller details of honours). R.Clark, 1971, Sir Edward Appleton, Pergamon (biography).J.Jewkes, D.Sawers \& R.Stillerman, 1958, The Sources of Invention.KFBiographical history of technology > Appleton, Sir Edward Victor
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