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81 часть
1) half
2) member
3) part
4) piece
5) portion
6) quantum
7) quota
8) segment
9) share
– большая часть
– быстроизнашиваемые часть
– весовая часть
– взаимозаменяемые часть
– внутренняя часть
– воздушная часть
– восьмая часть
– восьмидесятая часть
– выступающая часть
– двадцатая часть
– двенадцатая часть
– девяносая часть
– девятая часть
– девятнадцатая часть
– десятая часть
– железная часть
– задняя часть
– зарамочная часть
– испарительная часть
– кормовая часть
– неотъемлемая часть
– нераздельная часть
– нерастворимая часть
– несущая часть
– носовая часть
– общая часть
– одиннацатая часть
– опорная часть
– отделочная часть
– первичная часть
– передняя часть
– подвижная часть
– проточная часть
– пятидесятая часть
– пятнадцатая часть
– разрозненные часть
– сменная часть
– соединительная часть
– сопловая часть
– сороковая часть
– составная часть
– сотая часть
– тысячная часть
– хвостовая часть
– ходовая часть
– часть аликвантная
– часть аликвотная
– часть декады
– часть закладная
– часть зональная
– часть проточная
– часть тела
– часть уравнения
– часть ходовая
– часть числа
– четырнадцатая часть
адресная часть команды — address part of instruction
беговая часть шины — tread section of tire
бортовая часть шины — bead section of tire
восточная зарамочная часть — right-hand edge of map sheet
вышерасположенная часть потока — upstream flow
дробная часть числа — fractional part of number
задняя часть фюзеляжа — rear fuselage
западная зарамочная часть — left-hand edge of map sheet
запятая отделяющая целую часть числа от дробной — separatrix
изолированная часть множества — adherence
консольная часть крыла — outboard wing
корневая часть крыла — wing root
лобовая часть обмотки — coil end
минеральная часть топлива — mineral matter of fuel
мнимая часть адмитанса — susceptance
мнимая часть накапливающего счетчика — imaginary accumulator
модифицируемая часть команды — indexing part of instruction
нижерасположенная часть потока — downstream flow
носовая часть фюзеляжа — forward fuselage
оживальная часть крыла — ogive
отделяющая целую часть числа от дробной — radix point
отъемная часть крыла — detachable part
передняя часть крыла — leading edge assembly
перенесение в другую часть уравнения — transposition
плечевая часть шины — shoulder section of tire
пополнять запасные часть — replenish spares
проезжая часть дороги — roadway
строительная часть проект — civil-engineering design
технологическая часть проекта — engineering design
хвостовая часть крыла — trailing edge assembly
хвостовая часть поезда — tail piece of train
целая часть числа — integral part of number
цифровая часть числа — mantissa
часть высокого давления — high-pressure section
часть общей шинной структуры — pathway
часть среднего давления — intermediate-pressure section
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82 edificio
m.building.edificio inteligente intelligent building* * *1 building* * *noun m.* * *SM1) (Arquit) building, edifice frmedificio de apartamentos — block of flats, apartment building o house (EEUU)
edificio inteligente — smart building, intelligent building
2) [moral] edification* * *masculino building* * *= building, edifice.Ex. Some libraries find that it is difficult to convey all the necessary information in a simple manner, merely because the collection is large, or housed in various separate buildings and wings, and the shelving sequence is complex.Ex. This paper highlights problems with a virtual approach, emphasising the need for libraries to both an edifice and an interface.----* ala de edificio = wing.* almacenar en un edificio anexo = outhouse.* biblioteca como edificio = library building.* caparazón del edificio = building shell.* construcción de edificios = building construction.* construir un edificio = construct + building.* con varios edificios = multi-site [multisite].* desprendimientos de edificios = falling debris.* diseño de edificios = building design.* edificio alto = high-rise building.* edificio anexo = outbuilding.* edificio central = main site.* edificio civil = civic building.* edificio comercial = commercial building.* edificio construido según un plan cúbico = deep building.* edificio de apartamentos = apartment building, apartment complex.* edificio de oficinas = office building, office block.* edificio de pisos = condominium building.* edificio de valor histórico = heritage-listed building.* edificio en forma de cubo = cubic building.* edificio histórico = historic building, historical building.* edificio lineal = linear building.* edificio municipal = municipal building.* edificio protegido = listed building, heritage building, heritage-listed building.* edificio público = municipal building, public building.* edificios = bricks and mortar.* enseñar un edificio a Alguien = show + Nombre + round.* en todo el edificio = site-wide.* estructura del edificio = building shell.* evacuar un edificio = clear + building.* horizonte dibujado por los edificios = skyline.* horizonte dibujado por un edificio = roofline.* método de evaluación de un edificio en uso = post-occupancy evaluation method.* temperatura ambiental del edificio = room temperature.* * *masculino building* * *= building, edifice.Ex: Some libraries find that it is difficult to convey all the necessary information in a simple manner, merely because the collection is large, or housed in various separate buildings and wings, and the shelving sequence is complex.
Ex: This paper highlights problems with a virtual approach, emphasising the need for libraries to both an edifice and an interface.* ala de edificio = wing.* almacenar en un edificio anexo = outhouse.* biblioteca como edificio = library building.* caparazón del edificio = building shell.* construcción de edificios = building construction.* construir un edificio = construct + building.* con varios edificios = multi-site [multisite].* desprendimientos de edificios = falling debris.* diseño de edificios = building design.* edificio alto = high-rise building.* edificio anexo = outbuilding.* edificio central = main site.* edificio civil = civic building.* edificio comercial = commercial building.* edificio construido según un plan cúbico = deep building.* edificio de apartamentos = apartment building, apartment complex.* edificio de oficinas = office building, office block.* edificio de pisos = condominium building.* edificio de valor histórico = heritage-listed building.* edificio en forma de cubo = cubic building.* edificio histórico = historic building, historical building.* edificio lineal = linear building.* edificio municipal = municipal building.* edificio protegido = listed building, heritage building, heritage-listed building.* edificio público = municipal building, public building.* edificios = bricks and mortar.* enseñar un edificio a Alguien = show + Nombre + round.* en todo el edificio = site-wide.* estructura del edificio = building shell.* evacuar un edificio = clear + building.* horizonte dibujado por los edificios = skyline.* horizonte dibujado por un edificio = roofline.* método de evaluación de un edificio en uso = post-occupancy evaluation method.* temperatura ambiental del edificio = room temperature.* * *building* * *
edificio sustantivo masculino
building
edificio sustantivo masculino building
' edificio' also found in these entries:
Spanish:
abajo
- alta
- alto
- ampliar
- archivo
- ayuntamiento
- baja
- bajo
- bloque
- cacicada
- casa
- cimentar
- conserje
- construcción
- correo
- cuerpo
- dentro
- derribar
- derrumbamiento
- desalojar
- deterioro
- echar
- efectuarse
- estructura
- extensión
- frontal
- habilitar
- inclinación
- pabellón
- piso
- plana
- plano
- planta
- portera
- portería
- portero
- proyectar
- puerta
- reconstruir
- reforma
- reformar
- rehabilitar
- rehabilitación
- remate
- renovar
- renovación
- repartir
- replantear
- restaurar
- ruinosa
English:
accommodate
- acoustic
- adjacent
- alteration
- annexe
- as
- backroom
- block
- blow up
- bright
- build on
- building
- bulldoze
- burn
- burning
- cast
- centre
- clear
- clearance
- collapse
- come down
- commit
- complete
- decay
- demolish
- derelict
- dilapidated
- doorman
- drainage
- dynamite
- emphasize
- erection
- exit
- exposure
- face
- fall down
- fire
- fitting
- fixture
- floor
- frame
- go up
- grand
- guard
- gym
- high
- high-rise
- honeycomb
- intentionally
- knock down
* * *edificio nmbuilding;un edificio de oficinas an office buildingedificio inteligente intelligent o smart building* * *m building* * *edificio nm: building, edifice* * *edificio n building -
83 improvisar
v.to improvise (discurso, plan).improvisar una cama to make (up) a makeshift bed* * *1 to improvise1 to improvise* * *VT [+ discurso] to improvise; [+ comida] to rustle up *; [+ música] to extemporize; [+ representación] to ad-lib* * *1.verbo transitivo to improvise2.improvisaron una fiesta con lo que tenían en casa — they got up a party with what they had in the house
improvisar vi actor to improvise, ad-lib, extemporize (frml); músico to improvise, extemporize (frml)* * *= improvise, throw together, play + Nombre + by ear, wing it, rustle up, cobble together, fly by + the seat of + Posesivo + pants.Ex. We must plan as best we can for known events while contriving to improvise when, as often happens, such stirring distractions occur unannounced.Ex. A quality design cannot be thrown together on short notice.Ex. The main problem lay in deciding which subjects were to be treated in which way, and staff played things by ear.Ex. ' Winging it' becomes necessary when something unexpected comes up and the teacher has to improvise at the last minute.Ex. Why grub has to be ' rustled up' is anyone's guess; that is just the way it was on the Wild West.Ex. By cobbling together these essays without any attempt to integrate them, Mills reveals a disregard for his audience.Ex. One of the persistent arguments about Mr. Gorbachev is whether he ever had a clear strategic vision, or was flying by the seat of his pants.----* improvisar Algo sobre la marcha = play + Nombre + by ear.* * *1.verbo transitivo to improvise2.improvisaron una fiesta con lo que tenían en casa — they got up a party with what they had in the house
improvisar vi actor to improvise, ad-lib, extemporize (frml); músico to improvise, extemporize (frml)* * *= improvise, throw together, play + Nombre + by ear, wing it, rustle up, cobble together, fly by + the seat of + Posesivo + pants.Ex: We must plan as best we can for known events while contriving to improvise when, as often happens, such stirring distractions occur unannounced.
Ex: A quality design cannot be thrown together on short notice.Ex: The main problem lay in deciding which subjects were to be treated in which way, and staff played things by ear.Ex: ' Winging it' becomes necessary when something unexpected comes up and the teacher has to improvise at the last minute.Ex: Why grub has to be ' rustled up' is anyone's guess; that is just the way it was on the Wild West.Ex: By cobbling together these essays without any attempt to integrate them, Mills reveals a disregard for his audience.Ex: One of the persistent arguments about Mr. Gorbachev is whether he ever had a clear strategic vision, or was flying by the seat of his pants.* improvisar Algo sobre la marcha = play + Nombre + by ear.* * *improvisar [A1 ]vt1 ‹lección/discurso/versos› to improvise2 (preparar con pocos recursos) ‹cama/cortina› to improviseimprovisaron una fiesta con lo que tenían en casa they had an impromptu party o ( colloq) they got up a party with what they had in the housecon cuatro latas improvisamos una cena estupenda we rustled up a great meal from a few cansno podemos improvisar un director gerente de un día para otro we can't conjure up a managing director overnight■ improvisarvi«actor» to improvise, ad-lib, extemporize ( frml); «músico» to improvise, extemporize* * *
improvisar ( conjugate improvisar) verbo transitivo
to improvise;
verbo intransitivo [actor/músico] to improvise
improvisar verbo transitivo to improvise
Mús to extemporize
' improvisar' also found in these entries:
English:
ad-lib
- cobble together
- ear
- improvise
- rig up
- jam
- knock
- put
- throw
- whip
* * *♦ vt[discurso, plan, actuación artística] to improvise; [comida] to rustle up, to improvise;improvisar una cama to make (up) a makeshift bed;improvisaron un campamento para albergar a los refugiados a makeshift camp was set up to provide shelter for the refugees♦ vi[músico, orador, actor] to improvise; [al olvidar el diálogo] to ad-lib* * *v/t improvise* * *: to improvise, to ad-lib* * *improvisar vb to improvise -
84 loading
погрузка; загрузка; заряжание, зарядка; заправка ( топливом) ; монтаж, установка; удельная нагрузка ( на единицу площади) ; нагружение (силами, моментами) -
85 Cayley, Sir George
SUBJECT AREA: Aerospace[br]b. 27 December 1773 Scarborough, Englandd. 15 December 1857 Brompton Hall, Yorkshire, England[br]English pioneer who laid down the basic principles of the aeroplane in 1799 and built a manned glider in 1853.[br]Cayley was born into a well-to-do Yorkshire family living at Brompton Hall. He was encouraged to study mathematics, navigation and mechanics, particularly by his mother. In 1792 he succeeded to the baronetcy and took over the daunting task of revitalizing the run-down family estate.The first aeronautical device made by Cayley was a copy of the toy helicopter invented by the Frenchmen Launoy and Bienvenu in 1784. Cayley's version, made in 1796, convinced him that a machine could "rise in the air by mechanical means", as he later wrote. He studied the aerodynamics of flight and broke away from the unsuccessful ornithopters of his predecessors. In 1799 he scratched two sketches on a silver disc: one side of the disc showed the aerodynamic force on a wing resolved into lift and drag, and on the other side he illustrated his idea for a fixed-wing aeroplane; this disc is preserved in the Science Museum in London. In 1804 he tested a small wing on the end of a whirling arm to measure its lifting power. This led to the world's first model glider, which consisted of a simple kite (the wing) mounted on a pole with an adjustable cruciform tail. A full-size glider followed in 1809 and this flew successfully unmanned. By 1809 Cayley had also investigated the lifting properties of cambered wings and produced a low-drag aerofoil section. His aim was to produce a powered aeroplane, but no suitable engines were available. Steam-engines were too heavy, but he experimented with a gunpowder motor and invented the hot-air engine in 1807. He published details of some of his aeronautical researches in 1809–10 and in 1816 he wrote a paper on airships. Then for a period of some twenty-five years he was so busy with other activities that he largely neglected his aeronautical researches. It was not until 1843, at the age of 70, that he really had time to pursue his quest for flight. The Mechanics' Magazine of 8 April 1843 published drawings of "Sir George Cayley's Aerial Carriage", which consisted of a helicopter design with four circular lifting rotors—which could be adjusted to become wings—and two pusher propellers. In 1849 he built a full-size triplane glider which lifted a boy off the ground for a brief hop. Then in 1852 he proposed a monoplane glider which could be launched from a balloon. Late in 1853 Cayley built his "new flyer", another monoplane glider, which carried his coachman as a reluctant passenger across a dale at Brompton, Cayley became involved in public affairs and was MP for Scarborough in 1832. He also took a leading part in local scientific activities and was co-founder of the British Association for the Advancement of Science in 1831 and of the Regent Street Polytechnic Institution in 1838.[br]BibliographyCayley wrote a number of articles and papers, the most significant being "On aerial navigation", Nicholson's Journal of Natural Philosophy (November 1809—March 1810) (published in three numbers); and two further papers with the same title in Philosophical Magazine (1816 and 1817) (both describe semi-rigid airships).Further ReadingL.Pritchard, 1961, Sir George Cayley, London (the standard work on the life of Cayley).C.H.Gibbs-Smith, 1962, Sir George Cayley's Aeronautics 1796–1855, London (covers his aeronautical achievements in more detail).—1974, "Sir George Cayley, father of aerial navigation (1773–1857)", Aeronautical Journal (Royal Aeronautical Society) (April) (an updating paper).JDS -
86 площадь
крыло с изменяемой площадьюvariable-area wingнагрузка на единицу площадиload per unit areaплощадь крылаwing areaплощадь крыла, включая подфюзеляжную частьgross wing areaплощадь маневрированияmanoeuvring area, maneuvering areaплощадь, ометаемая воздушным винтомpropeller disk areaплощадь сопротивленияdrag areaпривокзальная площадь аэропортаairport land sideрасчетная площадь крылаdesign wing area -
87 device
n1) прилад; пристрій2) механізм, апарат3) обладнання◊•- active docking device - actuating device - add-in device - aircrafts anticollision device - alarm device - analog device - antiicing device - antiretraction device - antiskid device - antitopple device - arresting device - audio warning device - aural warning device - automatic course device - automatic signalling device - braking device - braking test device - cabin tightness testing device - caging device - caging device of gyroscope - cargo-handling device - cargo-loading device - cargo tie-down device - cargo-weighting device - cartridge actuated device - centering device - centering cam device - chart-matching device - circuit protection device - closure device - coding device - continuous measuring device - current devices - deicing device - detonating device - dispersion device - display device - dust protection device - eavesdropping device - electronic device - electronic storage device - engine lifting device - exchange device - explosives detecting device - fastening device - fdling device - floatation device - friction test device - gaging device - hand-held device - high lift devices - high lift wing devices - high voltage devices - hoisting device - homing device - igniting device - infra-red detection devices - insertion device - intrusion detection device - lift devices - lift dump device - lift increasing device - listening device - loading device - load transfer device - locking device - lockout device - measuring device - metering device - mooring device - navigation device - noise abatement device - noise suppression device - peripheral device - recording device - remote alarm device - safety device - safety relief device - self-centering device - self-recording device - sensing device - signalling device - solid-state device - stabilizer servicing device - stall warning device - switching device - system leakage device - termination device - through device - thrust producting device - timber-carrying suspending device - tire inflation device - tow device - tripping device - underfrequency protection device - unit load device - visual warning device - warning device - water depth measuring device - weapon detecting device - weighting device - wheel installation device - wing devices - wing extendable devices - wing high-lift devices -
88 Messerschmitt, Willi E.
SUBJECT AREA: Aerospace[br]b. 26 June 1898 Frankfurt-am-Main, Germanyd. 17 September 1978 Munich, Germany[br]German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.[br]Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).[br]Further Readingvan Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).JDS / CMBiographical history of technology > Messerschmitt, Willi E.
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89 Wallis, Sir Barnes Neville
[br]b. 26 September 1887 Ripley, Derbyshire, Englandd. 30 October 1979 Leatherhead, Surrey, England[br]English aeronautical designer and inventor.[br]Wallis was apprenticed first at Thames Engineering Works, and then, in 1908, at John Samuel White's shipyard at Cowes. In 1913, the Government, spurred on by the accelerating development of the German Zeppelins (see Zeppelin, Ferdinand von), ordered an airship from Vickers; Wallis was invited to join the design team. Thus began his long association with aeronautical design and with Vickers. This airship, and the R80 that followed it, were successfully completed, but the military lost interest in them.In 1924 the Government initiated a programme for the construction of two airships to settle once and for all their viability for long-dis-tance air travel. The R101 was designed by a Government-sponsored team, but the R100 was designed by Wallis working for a subsidiary of Vickers. The R100 took off on 29 July 1930 for a successful round trip to Canada, but the R101 crashed on its first flight on 4 October, killing many of its distinguished passengers. The shock of this disaster brought airship development in Britain to an abrupt end and forced Wallis to direct his attention to aircraft.In aircraft design, Wallis is known for his use of geodesic construction, which combined lightness with strength. It was applied first to the single-engined "Wellesley" and then the twin-en-gined "Wellington" bomber, which first flew in 1936. With successive modifications, it became the workhorse of RAF Bomber Command during the Second World War until the autumn of 1943, when it was replaced by four-engined machines. In other areas, it remained in service until the end of the war and, in all, no fewer than 11,461 were built.Wallis is best known for his work on bomb design, first the bouncing bomb that was used to breach the Möhne and Eder dams in the Ruhr district of Germany in 1943, an exploit immortalized in the film Dambusters. Encouraged by this success, the authorities then allowed Wallis to realize an idea he had long urged, that of heavy, penetration bombs. In the closing stages of the war, Tallboy, of 12,000 lb (5,400 kg), and the 10-ton Grand Slam were used to devastating effect.After the Second World War, Wallis returned to aeronautical design and was given his own department at Vickers to promote his ideas, principally on variable-geometry or swing-wing aircraft. Over the next thirteen years he battled towards the prototype stage of this revolutionary concept. That never came, however; changing conditions and requirements and increasing costs led to the abandonment of the project. Bit-terly disappointed, Wallis continued his researches into high-speed aircraft until his retirement from Vickers (by then the British Aircraft Corporation), in 1971.[br]Principal Honours and DistinctionsKnighted 1968. FRS 1945.Further ReadingJ.Morpurgo, 1972, Barnes Wallis: A Biography, London: Longman (a readable account, rather biased in Wallis's favour).C.J.Heap, 1987, The Papers of Sir Barnes Wallis (1887–1979) in the Science Museum Library, London: Science Museum; with a biographical introd. by L.R.Day.LRDBiographical history of technology > Wallis, Sir Barnes Neville
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90 конструкция
1. construct2. make3. phrase4. structure5. construction6. design; construction7. buildСинонимический ряд:устройство (сущ.) устройство -
91 конструкция
конструкция сущ1. construction2. design 3. structure деформация конструкцииstructural distortionдеформация конструкции воздушного суднаaircraft structural deformationдирижабль жесткой конструкцииrigid airshipдирижабль полужесткой конструкцииsemirigid airshipдорабатывать конструкцию воздушного суднаafter an aircraftкессонная конструкцияtorsion box structureконструкция воздушного судна1. aircraft design2. aircraft structure конструкция с работающей обшивкойstressed-skin structureконфигурация конструкции закрылкаflap structural configurationкрыло кессонной конструкцииtorsion box wingмасса конструкции1. deadload2. dead load модульная конструкцияengine module constructionмодульная конструкция двигателяmodular engine designнагружать конструкциюload the structureнесиловой элемент конструкцииsecondary structural memberосновная конструкцияbasic designосновной элемент конструкцииprimary element of structureотказоустойчивая конструкцияfail-safe structureповреждать конструкцию воздушного суднаdamage aircraft structureполомка конструкцииstructural failureсварная конструкцияwelded constructionсиловой элемент конструкцииprimary structural memberстабилизатор кессонной конструкцииtorsion box stabilizerфюзеляж ферменной конструкцииtruss fuselageцельнометаллическая конструкция1. all-metal construction2. all-metal structure элемент конструкцииmemberэлемент конструкции воздушного суднаaircraft componentэлемент несущей конструкцииload-carrying structural member -
92 area
1. область; зона; район2. площадь; площадь поверхностиair traffic control area — зона управления воздушным движением, зона УВД
— air area— landing area -
93 обоснование пригодности
Обоснование пригодности / приемлемости-- This has the effect of making the trimmed results reflect only the differences between wing-body data and wing-body estimates, which is justified in light of the validation of design methods which are primarily wing-body oriented.Русско-английский научно-технический словарь переводчика > обоснование пригодности
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94 обоснование приемлемости
Обоснование пригодности / приемлемости-- This has the effect of making the trimmed results reflect only the differences between wing-body data and wing-body estimates, which is justified in light of the validation of design methods which are primarily wing-body oriented.Русско-английский научно-технический словарь переводчика > обоснование приемлемости
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95 condition
1. условие2. состояние; положение; обстановка3. режимcondition for a nontrivial solutioncondition of optimality1-g condition20-deg angle-of-attack conditionaim conditionsairworthy conditionaltitude conditionapproach conditionsasymmetric wing sweep conditionsaustere conditionsbegin cruise conditionsbelow-stall conditionbest-range conditionsboundary conditionscaution conditionsceiling conditionsCFL conditionclimb conditioncontinuity conditionCourant-Friedrichs-Levi conditioncrossflow conditionscruise conditioncruise conditionsday conditionsdeep-stalled conditiondeparture conditionsDirichlet conditiondisplacement boundary conditionsdivergence conditiondivergent conditiondutch roll conditionelevator-free conditionengine-out conditionenvironmental conditionequilibrium conditionfailure conditionsfar-field boundary conditionfatigue conditionfinal conditionsflexural conditionsflight conditionflight conditionsflow conditionsflow tangency conditionflutter conditionsflutter onset conditionsflyaway conditionfoggy conditionsforce boundary conditionsfree-flight conditionfree-free boundary conditionsfreestream conditionfreestream conditionsfull-down conditionfull-scale conditionshigh conditionshigh-angle-of-attack conditionshigh-maneuver-lift conditionshigh-drag conditionhigh-g conditionshot conditionshover conditionhover-flight conditionicing conditionsinitial steady-flight conditionsinstrument conditionsinstrument meteorological conditionsKuhn-Tucker conditionsKutta conditionKutta-Zhukowsky conditionlanding conditionlanding conditionslaunch conditionslift conditionlift-equal-to-weight conditionlighting conditionslightning conditionslimit conditionload conditionsloading conditionslongitudinally trimmed conditionlow-angle-of-attack conditionslow-visibility conditionslow-light conditionslow-speed conditionsmaneuver conditionmaneuver entry conditionsmaneuvering conditionmaximum endurance conditionsmeteorological conditionsminimum drag conditionmission abort conditionsnear-field boundary conditionsNeumann boundary conditionneutral backside conditionno-slip conditionno-wind conditionsno-windshear conditionnonmaneuver conditionsnonpowered-lift conditionoff-design conditionsoff-nominal conditionsomega conditionoperating conditionoperational conditionoptimality conditionoscillatory conditionout-of-balance conditionout-of-trim conditionoverheat conditionoverload conditionsovertemperature conditionperiodicity conditionpost-stall conditionpostcrash conditionspowered-lift conditionpre-stall conditionpull-up conditionquasi-steady-state conditionRankine-Hugoniot conditionsresonant conditionrestraint conditionsrotating conditionsscaling conditionsea-level conditionsshock-on-lip conditionsimulator conditionssliding conditionslip conditionslow flight conditionsstalled conditionstalled conditionssteady-state conditionSTOL conditionsstraight-and-level conditionsstress conditionsubcritical conditionssupercritical conditionsupersonic conditionssupersonic leading-edge conditionsupport conditionssystem-off conditiontailwind conditionstakeoff conditionstask conditionstemperature jump conditionterminal conditiontip conditionstransient conditiontransonic conditiontranspiration conditiontransversality conditionTresca`s yield conditiontrim conditiontrimmed conditiontropical day conditionsunaugmented flutter conditionunstable conditionviewing conditionsvisibility conditionsvisual contact conditionswake conditionswashout conditionweather conditionswind conditionswind shear conditionswing-leveled conditionwing rock conditionwings-level conditionworking conditionszero-wind conditions -
96 point
1. точка; пункт < маршрута>2. место; пункт; ориентир; положение; координата4. режим; условия <напр. полета>6. узел < расчетной сетки>point of regardpoint of sweep initiationpoint of taper initiationaircraft reference pointangle-of-attack pointbegin cruise pointbifurcation pointbrake release pointbranching pointcontact pointcontinuously computed impact pointcritical decision pointdata pointdesign pointeffective flight pointequilibrium pointfin n% chord pointflash pointflight pointflutter pointfrequency pointfuel match pointglidepath intercept pointgrid pointhalf-span pointhigh-AOA trim pointhigh-stress pointholding pointimpingement pointinspection pointintercept pointlanding pointlanding decision pointliftoff pointmaneuver pointmaneuver point, pitch motivator fixedmaneuver point, pitch motivator freemaneuver point, stick freemaximum thickness pointmesh pointmid-mission pointminimum pressure pointmultiple refuelling pointsn% chord pointneutral pointneutral point, pitch motivator fixedneutral point, pitch motivator freeneutral point, stick fixedneutral point, stick freeNewtonian stagnation pointobserver pointoff-body pointpivot pointrating pointreattachment pointreference pointreference noise measurement pointrefuel/defuel pointroll-reversal pointrotation pointsaddle pointsensing pointseparation pointservicing pointstable trim pointstagnation pointstall pointsteer pointstick-fixed maneuver pointstick-fixed neutral pointstick-free maneuver pointstick-free neutral pointtakeoff critical decision pointtest pointtip pointTMA entering pointtouchdown pointtrim pointtriple pointturning pointwing fold tie-down pointwing support pointwing to fuselage attachment pointwireframe point -
97 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 -
98 Dunne, John William
SUBJECT AREA: Aerospace[br]b. 2 December 1875 Co. Kildare, Irelandd. 24 August 1949 Oxfordshire, England[br]Irish inventor who pioneered tailless aircraft designed to be inherently stable.[br]After serving in the British Army during the Boer War. Dunne returned home convinced that aeroplanes would be more suitable than balloons for reconnaissance work. He built models to test his ideas for a tailless design based on the winged seed of a Javanese climbing plant. In 1906 Dunne joined the staff of the Balloon Factory at Farnborough, where the Superintendent, Colonel J.E.Capper, was also interested in manned kites and aeroplanes. Since 1904 the colourful American "Colonel" S.F. Cody had been experimenting at Farnborough with manned kites, and in 1908 his "British Army Dirigible No. 1" made the first powered flight in Britain. Dunne's first swept-wing tailless glider was ready to fly in the spring of 1907, but it was deemed to be a military secret and flying it at Farnborough would be too public. Dunne, Colonel Capper and a team of army engineers took the glider to a remote site at Blair Atholl in Scotland for its test flights. It was not a great success, although it attracted snoopers, with the result that it was camouflaged. Powered versions made short hops in 1908, but then the War Office withdrew its support. Dunne and his associates set up a syndicate to continue the development of a new tailless aeroplane, the D 5; this was built by Short Brothers (see Short, Hugh Oswald) and flew successfully in 1910. It had combined elevators and ailerons on the wing tips (or elevons as they are now called when fitted to modern delta-winged aircraft). In 1913 an improved version of the D 5 was demonstrated in France, where the pilot left his cockpit and walked along the wing in flight. Dunne had proved his point and designed a stable aircraft, but his health was suffering and he retired. During the First World War, however, it was soon learned that military aircraft needed to be manoeuvrable rather than stable.[br]Bibliography1913, "The theory of the Dunne aeroplane", Journal of the Royal Aeronautical Society (April).After he left aviation, Dunne became well known for his writings on the nature of the universe and the interpretation of dreams. His best known-work was An ExperimentWith Time (1927; and reprints).Further ReadingP.B.Walker, 1971, Early Aviation at Farnborough, Vol. I, London; 1974, Vol. II (provides a detailed account of Dunne's early work; Vol. II is the more relevant).P.Lewis, 1962, British Air craft 1809–1914, London (for details of Dunne's aircraft).JDS -
99 двигатель
двигатель сущ1. engine2. motor авиационное топливо для турбореактивных двигателейaviation turbine fuelавиационный двигатель воздушного охлажденияair-cooled engineагрегат с приводом от двигателяengine-driven unitакустическая характеристика двигателяengine acoustic performanceасимметричная тяга двигателейasymmetric engines powerбалка крепления двигателя1. engine mount beam2. engine lifting beam бесшумный двигательquiet engineблок входного направляющего аппарата двигателяguide vane assemblyблок управления створками капота двигателяcowl flap actuation assemblyбоковой двигательside engineвентилятор двигателяengine fanвзлет на режимах работы двигателей, составляющих наименьший шумnoise abatement takeoffвзлет при всех работающих двигателяхall-engine takeoffвнутренний контур двигателяengine coreвоздушная система запуска двигателейair starting systemвоздушное судно с газотурбинными двигателямиturbine-engined aircraftвоздушное судно с двумя двигателямиtwin-engined aircraftвоздушное судно с двумя и более двигателямиmultiengined aircraftвоздушное судно с одним двигателем1. one-engined aircraft2. single-engined aircraft воздушное судно с поршневым двигателемpiston-engined aircraftвоздушное судно с турбовинтовыми двигателямиturboprop aircraftвоздушное судно с турбореактивными двигателямиturbojet aircraftвремя обкатки двигателяengine runin timeвремя опробования двигателя на землеengine ground test timeвстречный запуск двигателяengine relightвыбег двигателя1. run-down engine operation2. engine rundown выбор режима работы двигателяselection of engine modeвыводить двигатель из режима реверсаunreverse an engineвыключенный двигательengine offвыполнять холодный запуск двигателяblow down an engineвысота повторного двигателяrestarting altitudeвысотность двигателяengine critical altitudeвысотные характеристики двигателяengine altitude performancesвысотный двигательaltitude engineвысотный корректор двигателяmixture control assemblyгазотурбинный двигатель1. gas turbine2. turbine engine 3. gas turbine engine газотурбинный двигатель с осевым компрессоромaxial-flow итьбю.gas turbine engineгенератор с приводом от двигателяengine-driven generatorглавный вал двигателяengine drive shaftглушитель двигателяengine detunerгондола двигателяengine nacelleгондола двигателя на пилонеside engine nacelleгонка двигателя на землеground runupдавать двигателю полный газopen up an engineдвигатель азимутальной коррекцииazimuth torque motorдвигатель без наддуваself-aspirating engineдвигатель внутреннего сгорания1. internal combustion2. combustion engine двигатель водяного охлажденияwater-cooled engineдвигатель горизонтальной коррекцииleveling torque motorдвигатель магнитной коррекцииslaving torque motorдвигатель на режиме малого газаidling engineдвигатель поперечной коррекцииroll erection torque motorдвигатель продольной коррекцииpitch erection torque motorдвигатель, расположенный в крылеin-wing mountedдвигатель с большим ресурсомlonger-lived engineдвигатель с высокой степенью двухконтурностиhigh bypass ratio engineдвигатель с высокой степенью сжатияhigh compression ratio engineдвигатель с левым вращением ротораleft-hand engineдвигатель с низкой степенью двухконтурностиlow bypass ratio engineдвигатель со свободной турбинойfree-turbine engineдвигатель с пониженной тягойderated engineдвигатель с правым вращением ротораright-hand engineдвигатель типа двухрядная звездаdouble-row radial engineдвигатель, установленный в мотогондолеnaccele-mounted engineдвигатель, установленный вне фюзеляжаoutboard engineдвигатель, установленный в отдельной гондолеpodded engineдвигатель, установленный в фюзеляжеin-board engineдвигатель, установленный на крылеon-wing mounted engineдвигатель, установленный на пилонеpylon-mounted engineдвухвальный газотурбинный двигательtwo-shaft turbine engineдвухкаскадный двигательtwo-spool engineдвухконтурный двигательbypass engineдвухконтурный турбовентиляторный двигательducted-fan engineдвухконтурный турбореактивный двигатель1. bypass turbojet2. double-flow engine 3. dual-flow turbojet engine двухконтурный турбореактивный двигатель с дожиганием топлива во втором контуреduct burning bypass engineдвухроторный двигательtwo-rotor engineдефлектор двигателяengine baffleдоводка двигателяengine developmentдожигать топливо, форсировать двигательreheatдозвуковой двигательsubsonic engineдренажная система двигателейengine vent systemзаброс оборотов двигателя1. engine overspeed2. overspeed зависание оборотов двигателяengine speed holdupзаклинивание двигателяengine seizureзамок пазового типа лопатки двигателяgroove-type blade attachmentзамок штифтового типа лопатки двигателяpig-type blade attachmentзапускать двигатель1. start an engine2. light an engine 3. fire an engine запускать двигатель в полетеrestart the engine in flightзапуск двигателя1. engine starting2. starting engine operation запуск двигателя с забросом температурыengine hot starting(выше допустимой) звездообразный двигательradial engineизбыток тяги двигателяengine thrust marginимитированный отказ двигателяsimulated engine failureиспытание двигателя в полетеinflight engine testкапот двигателяengine cowlклапан запуска двигателяengine start valveкнопка запуска двигателяengine starter buttonкнопка запуска двигателя в воздухеflight restart buttonкожух двигателяengine jacketконтроль состояния двигателейengines trend monitoringкритический двигательcritical powerplantкрыльевой двигательwing engineлевый внешний двигательport-side engineлевый крайний двигательport-outer engineложный запуск двигателя1. engine false starting2. engine wet starting максимально допустимый заброс оборотов двигателяmaximum engine overspeedмаксимальный потолок при всех работающих двигателяхall-power-units ceilingметод прогнозирования шума реактивных двигателейjet noise prediction techniqueмеханизм измерителя крутящего момента на валу двигателяengine torquemeter mechanismмодуль двигателяengine moduleмодульная конструкция двигателяmodular engine designмодульный двигательmodular engineмуфта сцепления двигателя с несущим винтом вертолетаrotor clutch assemblyнабор высоты при всех работающих двигателяхall-engine-operating climbнаработка двигателяengine operating timeнесущий винт с приводом от двигателяpower-driven rotorобдув генератора двигателяengine generator coolingобкатка двигателяrun-in testобкатывать двигательrun in an engineоблицовка каналов двигателяengine duct treatmentодновальный газотурбинный двигательsingle-shaft turbine engineодновременный запуск всех двигателейall-engines startingоднокаскадный двигательsingle-rotor engineокончательный вариант двигателяdefinitive engineопорное кольцо вала двигателяengine backup ringопробование двигателяengine run-up operationопробовать двигательrun up an engineостанавливать двигатель1. close down an engine2. shut down an engine отбойный щит для опробования двигателейengine check padотказавший двигатель1. dead engine2. engine out отказ двигателяengine failureотладка двигателяengine setting-upотрыв двигателяengine tearwayотсек двигателяengine compartmentохлаждение двигателяengine coolingпадение оборотов двигателяengine speed lossперебои в работе двигателя1. rough engine operations2. engine trouble перегородка двигателяengine bulkheadпилон двигателяengine pylonподкрыльевой двигательunderwing engineподъемный реактивный двигательlift jet engineпожар внутри двигателяengine internal fineполет на одном двигателеsingle-engined flightполет с выключенным двигателемengine-off flightполет с выключенными двигателямиpower-off flightполет с несимметричной тягой двигателейasymmetric flightполет с работающим двигателемengine-on flightполет с работающими двигателями1. powered flight2. power-on flight положение при запуске двигателейstarting-up positionпоршневой двигатель1. piston engine2. reciprocating engine порядок выключения двигателяcut-off engine operationпорядок запуска двигателя1. starting procedure2. engine starting procedure посадка в режиме авторотации в выключенным двигателемpower-off autorotative landingпосадка с отказавшим двигателем1. engine-out landing2. dead-engine landing посадка с работающим двигателемpower-on landingправый внешний двигательstarboard engineпредварительная гонка двигателяpreliminary runupпредполетное опробование двигателяpreflight engine runпри внезапном отказе двигателяwith an engine suddenly failedпри выключенных двигателяхpower-offпри любом отказе двигателяunder any kind of engine failureприспособление для подъема двигателяengine lifting deviceприставка двигателяengine adapterпрогревать двигательwarm up an engineпрогретый двигательwarmed-up engineпродолжительность работы двигателя на взлетном режимеfull-thrust durationпрокладка в системе двигателяengine gasketпроставка двигателяengine retainerпротивообледенительная система двигателей1. engine deicing system(переменного действия) 2. engine anti-icing system (постоянного действия) противопожарный экран двигателяengine fire shieldпрямоточный воздушно-реактивный двигатель1. ramjet engine2. ramjet 3. athodyd прямоточный двигатель1. self-propelling duct2. aeroduct пусковой двигательstarting engineработа в режиме запуска двигателяengine start modeработа двигателяengine runningработа двигателя на режиме малого газаidling engine operationработающий двигательengine onрабочее колесо двигателяengine impellerразрегулированный двигательrough engineрама крепления двигателяengine mountраскрутка двигателяengine crankingрасход воздуха через двигательengine airflowреактивный двигательjet engineрегулирование зажигания двигателяengine timingрегулировать двигатель до заданных параметровadjust the engineрегулировка двигателяengine adjustmentрегулятор предельных оборотов двигателяengine limit governorрельсы закатки двигателяengine mounting railsрычаг раздельного управления газом двигателяengine throttle control leverсектор газа двигателяengine throttleсистема блокировки управления двигателемengine throttle interlock systemсистема запуска двигателей1. engine starting system2. engine start system система индикации виброперегрузок двигателяengine vibration indicating systemсистема суфлирования двигателяengine breather systemсистема управления двигателемengine control systemскорость при всех работающих двигателяхall engines speedскорость при отказе критического двигателяcritical engine failure speedснижать режим работы двигателяslow down an engineснижение с работающим двигателемpower-on descentснижение с работающими двигателямиpower-on descend operationснижение шума при опробовании двигателей на землеground run-up noise abatementс приводом от двигателяpower-operatedсредний двигательcenter engineстартер двигателяengine starterстворка капота двигателяengine cowl flapстенд для испытания двигателейengine test benchструя двигателяengine blastтележка для транспортировки двигателейengine dollyтопливная система двигателяengine fuel systemтопливо для реактивных двигателейjet fuelтрехвальный турбовентиляторный двигательthree-rotor turbofan engineтрехконтурный турбореактивный двигательthree-flow turbojet engineтрехстрелочный указатель двигателяthree-pointer engine gageтряска двигателяengine vibrationтурбовальный двигатель1. turboshaft2. turboshaft engine турбовентиляторный двигатель1. turbofan2. fanjet 3. turbofan engine 4. fan-type engine турбовентиляторный двигатель с высокой степенью двухконтурностиhigh-bypass fanjetтурбовентиляторный двигатель с низким расходомlow-consumption fanjetтурбовинтовой двигательturboprop engineтурбореактивный двигатель1. turbojet2. turboprop 3. turbojet engine тяга двигателяengine thrustубирать обороты двигателяdecelerate an engineузел закатки двигателяengine roll-in fittingузел крепления двигателяengine mounting attachmentузел подвески двигателяengine attach fittingуказатель вибрации двигателяengine vibration indicatorуказатель оборотов двигателяengine tachometer indicatorуменьшение мощности двигателей воздушного суднаaircraft power reductionустанавливать двигательinstall an engineустановка двигателяengine installationустановка режима работы двигателяthrottle settingустановленный на двигателеengine-mountedфильтр двигателяengine screenфланец отбора воздуха от двигателяengine air bleed flangeфорсажный двигательboost engineфорсированный двигательuprated engineхарактеристики двигателяengine performancesхвостовая часть гондолы двигателяaft power nacelleхолодная прокрутка двигателяengine dry startingцапфа подвески двигателяengine mounting trunnionцикл двигателяengine cycleцилиндр двигателяengine cylinderцифровой электронный регулятор режимов работы двигателяdigital engine controlчисло оборотов двигателя на взлетном режимеengine takeoff speedшкворень крепления двигателяengine attachment pilotштопор при неработающих двигателяхpowerless spinштопор при работающих двигателях1. powered spin2. power spin электронная система управления двигателемelectronic engine control systemэмиссия от двигателейengine emission -
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area nобластьacceleration areaучасток разгонаactive thunderstorm areaрайон активной грозовой деятельностиadvisory areaконсультативная зонаaerodrome approach areaзона подхода к аэродромуaerodrome graded areaспланированный участок аэродромаaerodrome movement areaзона движения воздушных судовair intake hazard areaопасная зона перед воздухозаборникомairport construction areaзона застройки аэропортаairport prohibited areaзапретная зона аэропортаairport service areaслужебная зона аэропортаair-route areaрайон воздушных трассairspace restricted areaзона воздушного пространства с особым режимом полетаair traffic control areaзона управления воздушным движениемalert areaзона повышенного вниманияalighting areaместо посадкиapproach areaзона захода на посадкуapproach area hazardпрепятствие в зоне захода на посадкуarea chartкарта районаarea controlуправление в зонеarea control centerрайонный диспетчерский центр управления движением на авиатрассеarea density calculationрасчет удельной нагрузки на поверхностьarea flight controlрайонный диспетчерский пункт управления полетамиarea forecastзональный прогнозarea forecast centerцентр зональных прогнозовarea forecast planплан зональных прогнозовarea forecast systemсистема зональных прогнозов(погоды) area navigationзональная навигацияarea navigation capabilityтехнические характеристики зональной навигацииarea navigation equipmentбортовое оборудование зональной навигацииarea navigation routeмаршрут зональной навигацииarea navigation systemсистема зональной навигацииarea of coverageзона действияarea of coverage of the forecastsрайон обеспечения прогнозамиarea of occurenceрайон происшествияarea of responsibilityзона ответственностиarea watchконтроль в зонеbaggage break-down areaзона обработки прибывающего багажаbaggage-claim areaместо востребования багажаbaggage delivery areaместо выдачи багажаbearing areaнесущая поверхностьboarding areaместо загрузкиboundary of the areaграница зоныbreak-in areaместо вырубанияbuild-in areaзона застройкиcircling approach areaзона захода на посадку по кругуclimb-out areaзона начального этапа набора высотыcone effect areaзона конусного эффектаcongested areaзона интенсивного воздушного движенияdanger areaопасная зонаdanger areas chartкарта опасных зонdead areaмертвая зонаdeparture areaзона торможенияdesign wing areaрасчетная площадь крылаdirect transit areaзона прямого транзитаdrag areaплощадь сопротивленияend safety areaконцевая зона безопасностиen-route areaзона маршрутаentry areaзона подходаEurocontrol areaзона Евроконтроляextended end safety areaпродленная концевая зона безопасностиfacsimile area forecast chartфаксимильная карта зональных прогнозовfog-prone areaрайон скопленияgases shear areaзона среза активной струиgrass landing areaпосадочная площадка с травяным покрытиемgross wing areaплощадь крыла, включая подфюзеляжную частьhard-core areaзона высокой интенсивностиholding areaзона ожиданияinterference-free areaзона, свободная от помехland areaместо посадкиlanding area facilitiesоборудование зоны посадкиleave a parking areaвыруливать с места стоянкиlifting surface areaнесущая поверхностьliftoff areaзона отрываloading areaместо загрузкиload per unit areaнагрузка на единицу площадиlow air areaнижнее воздушное пространствоlow control areaнижний диспетчерский районmaintenance areaзона технического обслуживанияmake-up areaместо комплектованияmaneuvering areaплощадь маневрирования(manoeuvring area) noncritical areaнеопасная зонаnozzle exit areaвыходное сечение соплаoceanic area control centerокеанический районный диспетчерский центрoceanic control areaокеанический диспетчерский районopen-water areaнадводный районoperational areaзона полетовoverrun areaзона выкатыванияoverrun safety areaзона безопасности при выкатыванииparking areaместо стоянкиpassenger assembly areaместо сбора пассажировpolar areaполярный районpoleward areaприполярный районprepared landing areaподготовленная посадочная площадкаprimary area boundaryграница основной зоныprohibited areaзапретная зонаpropeller disk areaплощадь, ометаемая воздушным винтомradar control areaзона действия радиолокатораradar service areaзона радиолокационного обслуживанияrecovery areaрайон обнаруженияreserved areaзапасная зонаrestricted areaзона ограниченияrestricted use areaзона ограниченной эксплуатацииrouting areaрайон прохождения маршрутаrun-up areaплощадка для опробованияrunway end safety areaконцевая зона безопасности ВППrunway end safety area lightsогни концевой зоны безопасности ВППsearch and rescue areaрайон поиска и спасанияsecondary area boundaryграница дополнительной зоныsensitive areaзона чувствительностиservice areaзона обслуживанияsignal areaсигнальная площадкаspeed control areaзона выдерживания скоростиsupporting areaнесущая поверхностьtailpipe areaместо расположения выхлопных трубtakeoff areaзона взлетаtakeoff flight path areaзона набора высоты при взлетеtemporary restricted areaзона временного ограниченияterminal areaзона аэродромаterminal area streamlineсхема зоны аэродромаterminal area surveillance radarрадиолокатор обзора зоны аэродромаterminal area taxi sequenceочередность заруливания к зданию аэровокзалаterminal control areaузловой диспетчерский районticket check areaместо проверки билетовtraining areaзона тренировочных полетовtransit areaтранзитная зонаtransit passenger areaзона для транзитных пассажировturnaround areaзона разворота на обратный курсundershoot areaзона перед порогом ВППunobstructed landing areaзона приземленияupper advisory areaверхняя консультативная зонаupper air areaверхнее воздушное пространствоupper area control centerдиспетчерский центр управления верхним райономupper control areaверхний диспетчерский районupper level control areaверхний район управления эшелонированиемvariable area nozzleсопло с регулируемым сечениемwarning areaзона предварительного оповещенияwing areaплощадь крылаWorld area forecast centerВсемирный центр зональных прогнозов
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