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61 траектория
path
- взлета — takeoff path
траектория взлета начинается от точки страгивания самолета на линии старта до точки момента выхода на высоту 400 м, (над уровнем впп), либо до момента, к которому заканчивается переход от взлетной к полетной конфигурации (рис. 112). — the takeoff path extends from a standing start to a point in the takeoff at which the airplane is 1,500 feet above takeoff surface, or at which the transition from the takeoff to enroute configuration is completed.
- вихря — vortex path
- движения вихревого жгута — vortex core path
- движения опоры (стойки) шасси при уборке (выпуске) — landing gear retraction (extension) path
- движения центра тяжести — center of gravity path
-, заданная — desired /selected/ path
lateral displacement from desired lateral path.
- захода на посадку — approach path
- лопастей (возд. или несущего винта) — blade track. the path described by the propeller or rotor blade tips when properly aligned.
- максимальной гарантированной крутизны — gross flight path
- минимальной гарантированной крутизны — net fligth path
- набора высоты — climb path
- начального набора высоты — takeoff flight path
траектория начинается на высоте 10,7 м над уровнем впп в конце взлетной дистанции (рис. 112). — the takeoff flight path begins 35 feet above the takeoff surface at the end of the takeoff distance.
- начального набора высоты, фактическая — actual takeoff flight path. the net takeoff flight path data must be determined so that they represent the actual takeoff flight paths.
- начального набора высоты, чистая — net takeoff flight path
- начального набора высоты, чистая, при разбеге по сухой впп — dry net takeoff flight path
- начального набора высоты, чистая, при разўеге no влажной впп — wet net takeoff flight path
- планирования — glide path
flight path of an aircraft in glide, seen from side.
- полета — flight path
линия, которую ла описывает в пространстве (рис. 122). — the path made or followed in the air by an aircraft.
- (полета) в вертикальной и горизонтальной плоскостях (по стрелкам положения кпп) — glide path and course
- полета по глиссаде — glide path
траектория при заходе на посадку пo лучу глиссадного маяка. — path used by an airplane in approach and which is generated by ils facility.
- полета пo маршруту — en route flight path
- полета, расчетная (заданная) — desired flight path
- полета при безветрии — flight path in zero wind
- полета при ветре — flight path in/allowing for/wind
- полета, чистая — net en route flight path
- прерванной посадки (с уходом на второй круг) — balked/refused/landing path
снижения — descent flight path
в каждой точке т. — at each point along the path
воздушный участок т. взлета — airborne part of the takeoff
воздушный участок посадочной т. — airborne part of the landing path
кривизна т. полета наклон воздушного участка т. взлета — flight path curvature slope of the airborne part of the takeoff path
направление т. полета — flight path direction
обзор пo т. полета — view along flight path
слежение за т. полета — flight path tracking
точка на т., указанная на графике, рис. — point on flight path plotted in fig.
угол наклона т. полета — flight path angle
участок т. — flight path segmentРусско-английский сборник авиационно-технических терминов > траектория
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62 Breguet, Louis
SUBJECT AREA: Aerospace[br]b. 2 January 1880 Paris, Franced. 4 May 1955 Paris, France[br]French aviation pioneer who built a helicopter in 1907 and designed many successful aircraft.[br]The Breguet family had been manufacturing fine clocks since before the French Revolution, but Louis Breguet and his brother Jacques used their mechanical skills to produce a helicopter, or "gyroplane" as they named it. It was a complex machine with four biplane rotors (i.e. thirty-two lifting surfaces). Louis Breguet had carried out many tests to determine the most suitable rotor design. The Breguet brothers were assisted by Professor Charles Richet and the Breguet-Richet No. 1 was tested in September 1907 when it succeeded in lifting itself, and its pilot, to a height of 1.5 metres. Unfortunately, the gyroplane was rather unstable and four helpers had to steady it; consequently, the flight did not qualify as a "free" flight. This was achieved two months later, also in France, by Paul Cornu who made a 20-second free flight.Louis Breguet turned his attention to aeroplane design and produced a tractor biplane when most other biplanes followed the Wright brothers' layout with a forward elevator and pusher propeller. The Breguet I made quite an impression at the 1909 Reims meeting, but the Breguet IV created a world record the following year by carrying six people. During the First World War the Breguet Type 14 bomber was widely used by French and American squadrons. Between the First and Second World Wars a wide variety of designs were produced, including flying boats and another helicopter, the Breguet- Dorand Gyroplane which flew for over one hour in 1936. The Breguet company survived World War II and in the late 1940s developed a successful four-engined airliner/transport, the Deux-Ponts, which had a bulbous double-deck fuselage.Breguet was an innovative designer, although his designs were functional rather than elegant. He was an early advocate of metal construction and developed an oleo- (oil-spring) undercarriage leg.[br]Bibliography1925, Le Vol à voile dynamique des oiseaux. Analyse des effets des pulsations du vent sur la résultante aérodynamique moyenne d'un planeur, Paris.Further ReadingP.Faure, 1938, Louis Breguet, Paris (biography).C.H.Gibbs-Smith, 1965, The Invention of the Aeroplane 1799–1909, London (provides a careful analysis of Breguet's early aircraft).JDS -
63 test
1) испытание; испытания; опробование || испытывать; опробовать2) контроль; проверка || контролировать; проверять3) тест || тестировать4) метр. поверка5) признак; критерий7) измерение•to conduct test on aircraft — проводить испытания на борту воздушного суднаto pass a test — (успешно) проходить испытаниеto stand a test — выдерживать испытание-
acid washing test-
bomb oxidation test-
ice test-
use test -
64 load
1. нагрузка; груз/ нагружать2. загрузка/ загружать3. заряд/ заряжатьloads per unit lengthaerodynamic loadaeroelastically corrected loadaerothermal loadsaircraft loadalleviated loadapplied loadarresting gear loadaugmented loadaxial loadaxle loadblade loadbottoming loadbraking loadbuckling loadbuffet loadbuffeting loadcanard loadcarriage loadcatapult loadchute loadsconstrained loadcontrol loadcontrol loadscontrol-wheel breakout loadcrack closing loadcrack opening loadcrash loadcrushing loadcyclic loaddamaging loaddesign loaddesigned loaddown loaddrag loadejection loadsempennage loadsequivalent single wheel loadexternal loadexternal slung loadflexible loadflight loadsflight-measured loadsfloor loadfoot loadfour per revolution loadfuselage loadg loadGaussian loadsground loadsgust loadgyroscopic loadharmonic loadsheat loadhub loadsimpact loadimpulse loadin-plane loadinertial loadinput loadinteracting loadsinternal loadjack loadlanding loadlanding gear loadlimit loadlocalized loadmain-gear loadmaneuver loadmaximum allowable loadmoving loadnoncrash loadnose gear loadomega loadoperational loadordnance loadoscillatory loadoutsize loadspalleted loadpassenger loadpeak loadpin loadpostbuckling loadprecession-generated loadspressure loadproof loadpropeller-induced loadpushrod loadspylon loadquasi-static loadradial loadrandom loadsreaction loadrepeated loadsrigid loadrotating loadrotor loadsseparation loadshock absorber loadside loadsink loadssling loadspike loadspin-up loadspring-back loadsteady loadsteady braked loadstore carriage loadstructural loadstrut loadtail loadtangential loadtank pressure loadtask time loadtaxi loadtaxiing loadthermal loadtime-domain loadstire loadtire to ground loadtow loadtransient loadstrim loadtrimming loadturbulence-induced loadsultimate loadunderslung loaduntrimmed loadup loaduseful loadvectoring loadsvibratory loadsvortex-induced loadswind-tunnel loadwing load -
65 thrust
1. тяга/ развивать тягу; создавать тягу2. (осевое) давление; (осевое) усилие3. удар; толчокaircraft`s thrustapparent thrustasymmetric thrustaugmented thrustavailable thrustaxial thrustceiling thrustclimb/cruise thrustcold thrustcruise thrustdry thrustdry specific thrustejector thrustexcess thrustform thrustforward thrustgo-around thrustgross thrusthigh-altitude thrustidle thrustinstalled thrustjet thrustleading-edge thrustmax thrustmaximum afterburner thrustmaximum continuous thrustmaximum rated thrustmil thrustmilitary thrustnet thrustnormal operating thrustpressure thrustpropeller thrustproprotor thrustpropulsive thrustreaction thrustreheat thrustrequired thrustreverse thrustrotor thrustsea-level thruststall-limited thruststatic-pressure thruststub thrusttakeoff thrustvectored thrustwet thrustwing thrust -
66 characteristic
характеристика; характеристическая кривая; характерный параметр; характеристический; характерныйcollapsing characteristics of the gear — поведение [характеристики] шасси при поломке (в результате аварии, удара о землю)
explosive characteristics of fuel — взрывоопаспость топлива [горючего]
handling characteristics with autostabilization — характеристики управляемости (ЛА) с системой автостабилизации
handling characteristics without autostabilization — характеристики управляемости (ЛА) без системы автостабилизации
height control response characteristics — верт. характеристики управляемости по высоте
lift and drag characteristics — величины подъёмной силы и лобового сопротивления; зависимости подъёмной силы и лобового сопротивления
rough field handling characteristics — характеристики управляемости при движении по аэродрому с неровной поверхностью
s.f.c. characteristics — характеристики удельного расхода топлива [горючего]
Englsh-Russian aviation and space dictionary > characteristic
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67 flutter
флаттер; колебания; плавание [детонация] звука -
68 wake
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69 Cierva, Juan de la
SUBJECT AREA: Aerospace[br]b. 21 September 1895 Murcia, Spaind. 9 December 1936 Croydon, England[br]Spanish engineer who played a major part in developing the autogiro in the 1920s and 1930s.[br]At the age of 17, Cierva and some of his friends built a successful two-seater biplane, the BCD-1 (C for Cierva). By 1919 he had designed a large three-engined biplane bomber, the C 3, which unfortunately crashed when its wing stalled (list its lift) during a slow-speed turn. Cierva turned all his energies to designing a flying machine which could not stall: his answer was the autogiro. Although an autogiro looks like a helicopter, its rotor blades are not driven by an engine, but free-wheel like a windmill. Forward speed is provided by a conventional engine and propeller, and even if this engine fails, the autogiro's rotors continue to free-wheel and it descends safely. Cierva patented his autogiro design in 1920, but it took him three years to put theory into practice. By 1925, after further improvements, he had produced a practical rotary-winged flying machine.He moved to England and in 1926 established the Cierva Autogiro Company Ltd. The Air Ministry showed great interest and a year later the British company Avro was commissioned to manufacture the C 6A Autogiro under licence. Probably the most significant of Cierva's autogiros was the C 30A, or Avro Rota, which served in the Royal Air Force from 1935 until 1945. Several other manufacturers in France, Germany, Japan and the USA built Cierva autogiros under licence, but only in small numbers and they never really rivalled fixed-wing aircraft. The death of Cierva in an airliner crash in 1936, together with the emergence of successful helicopters, all but extinguished interest in the autogiro.[br]Principal Honours and DistinctionsDaniel Guggenheim Medal. Royal Aeronautical Society Silver Medal, Gold Medal (posthumously) 1937.Bibliography1931, Wings of To-morrow: The Story of the Autogiro, New York (an early account of his work).He read a paper on his latest achievements at the Royal Aeronautical Society on 15 March 1935.Further ReadingP.W.Brooks, 1988, Cierva Autogiros: The Development of Rotary Wing Flight, Washington, DC (contains a full account of Cierva's work).Jose Warleta. 1977, Autogiro: Juan de la Cierva y su obra, Madrid (a detailed account of his work in Spain).Oliver Stewart, 1966, Aviation: The Creative Ideas, London (contains a chapter on Cierva).JDS -
70 lift
lift nподъемная сила(lift force, ascensional force, buoyancy, lifting power) actual liftфактическая подъемная силаaerodynamic liftаэродинамическая подъемная силаaerodynamic lifting surfaceаэродинамическая несущая поверхностьaerostatic liftаэростатическая подъемная силаair freight liftперевозка грузов по воздухуat zero liftпри нулевой подъемной силеaugmented lift system noiseшум от системы увеличения подъемной силыavailable liftрасполагаемая подъемная силаcenter liftцентр подъемной силыclass of liftкласс посадкиcreate liftсоздавать подъемную силуdirect lift control systemсистема управления подъемной силойengine lifting beamбалка крепления двигателяengine lifting deviceприспособление для подъема двигателяhigh lift configurationконфигурация при высокой подъемной силеliftподъемная сила(lift force, ascensional force, buoyancy, lifting power) lift an aircraft onвывешивать воздушное судноlift axisось подъемной силыlift capacityобъем воздушных перевозокlift coefficientкоэффициент подъемной силыlift componentсоставляющая подъемной силыlift devicesмеханизация крылаlift directionнаправление подъемной силыlift distributionраспределение подъемной силыlift dump deviceустройство для уменьшения подъемной силы крылаlift dumperгаситель подъемной силыlift fanвентилятор для создания подъемной силыlifting and transporting equipmentподъемно-транспортное оборудованиеlifting attachmentподъемное приспособлениеlifting bagпневматический подъемникlifting beamгрузоподъемная стрелаlifting capacityаэродинамическая грузоподъемностьlifting cloudsвосходящие облакаlifting planeнесущая поверхностьlifting propellerнесущий винтlifting surface areaнесущая поверхностьlifting tailplaneнесущее горизонтальное оперениеlifting vehicleлетательный аппаратlift jet engineподъемный реактивный двигательlift rangeдиапазон изменения подъемной силыlift restrictionsснимать ограниченияlift transducerдатчик подъемной силыlift wingнесущая расчалкаmargin of liftзапас подъемной силыnegative liftотрицательная подъемная силаproduce liftсоздавать подъемную силуrequired liftпотребная подъемная силаrotor liftподъемная сила несущего винтаwing liftподъемная сила крылаzero liftнулевая подъемная силаzero lift pointточка нулевой подъемной силы
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