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1 semi-unmanned
Медицина: полуавтоматический -
2 sēmi-mās
sēmi-mās maris, m a half-male, hermaphrodite: abominati semimares, L., O.—Unmanned, emasculated: ovis, O.: Galli (priests of Cybele), O. -
3 полуавтоматический
1) General subject: automanual, self loading, semi-automatic, semiautomated, semi automatic2) Medicine: semi-unmanned3) Military: self-loading, semiautomatic4) Engineering: half-automatic, partly automatic5) Chemistry: aided6) Economy: quasi-automatic7) Automobile industry: partial automatic8) Mining: semiautomatical9) Physics: automatic-manual10) Oil: semi-unattended11) Mechanic engineering: auto-manual12) Automation: manual-automatic, semimanual, partially automatedУниверсальный русско-английский словарь > полуавтоматический
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4 semimas
sēmĭ-mās, măris, m.I. II.Transf., adj., unmanned, emasculated:capri,
Varr. R. R. 3, 9, 3:semimares capi (appellantur), cum sint castrati,
Col. 8, 2, 3:ovis,
Ov. F. 1, 588:Galli (the priests of Cybele),
id. ib. 4, 183. -
5 automatizado
adj.automated, robot, intelligent, automatized.past part.past participle of spanish verb: automatizar.* * *ADJ automated* * *- da adjetivo automated* * *= automated, computer-based, computer-held, computerised [computerized, -USA], machine assisted, machine-held, mechanised [mechanized, -USA], computer-stored, machine-based, computer-controlled, electronically based, computering, disintermediated, unmanned, machine-readable.Ex. These principles are being applied in an ever increasing variety of contexts, both manual and automated.Ex. It may well be that the computer-based environment of such systems may overcome many of the limitations of enumerative classification schemes in their traditional applications.Ex. For each term entering the vocabulary a record is constructed in a computer-held file.Ex. Printed title indexes which could be used as elementary subject indexes were one of the first products of computerised information retrieval systems.Ex. Her ALA activity includes having been Editor of Message from MARS, the occasional newsletter of the new RASD discussion group MARS, which stands for machine assisted Reference Service.Ex. Other indexes based on titles, both printed and machine-held, may provide access to words other than the first in a title.Ex. Mechanized systems offer a wide range of potential search strategies and searching aids.Ex. If a computer-stored controlled vocabulary is used, the assigned terms might be checked automatically and new or mistyped terms would be flagged (marked).Ex. The incorporation of such features into a system would permit us to create a machine-based catalog rather than a reference file of bibliographic records.Ex. LCSH has taken a further step forward with the use of computer-controlled typesetting.Ex. Librarians who have reservations about the spread of electronically based services are not Luddites.Ex. The 1980s have seen a significant increase in the quantity and breadth of offshore computering services -- those based in the developing countries.Ex. Database records are enhanced with links through to the full text of periodical articles, where these are available, or to the Library's disintermediated document delivery system where an online version of the article is not available.Ex. The 'strategic computing' plan announced by the United States in early 1984 envisages, among others, the use of intelligent robots (for example, to serve as ammunition loaders in tanks, or in unmanned reconnaissance and manipulating devices).Ex. 'Data base' is a term referring to machine-readable collections of information, whether numerical, representational or bibliographic.----* método automatizado = computer-based method.* semiautomatizado = partially-automated, semi-automated.* * *- da adjetivo automated* * *= automated, computer-based, computer-held, computerised [computerized, -USA], machine assisted, machine-held, mechanised [mechanized, -USA], computer-stored, machine-based, computer-controlled, electronically based, computering, disintermediated, unmanned, machine-readable.Ex: These principles are being applied in an ever increasing variety of contexts, both manual and automated.
Ex: It may well be that the computer-based environment of such systems may overcome many of the limitations of enumerative classification schemes in their traditional applications.Ex: For each term entering the vocabulary a record is constructed in a computer-held file.Ex: Printed title indexes which could be used as elementary subject indexes were one of the first products of computerised information retrieval systems.Ex: Her ALA activity includes having been Editor of Message from MARS, the occasional newsletter of the new RASD discussion group MARS, which stands for machine assisted Reference Service.Ex: Other indexes based on titles, both printed and machine-held, may provide access to words other than the first in a title.Ex: Mechanized systems offer a wide range of potential search strategies and searching aids.Ex: If a computer-stored controlled vocabulary is used, the assigned terms might be checked automatically and new or mistyped terms would be flagged (marked).Ex: The incorporation of such features into a system would permit us to create a machine-based catalog rather than a reference file of bibliographic records.Ex: LCSH has taken a further step forward with the use of computer-controlled typesetting.Ex: Librarians who have reservations about the spread of electronically based services are not Luddites.Ex: The 1980s have seen a significant increase in the quantity and breadth of offshore computering services -- those based in the developing countries.Ex: Database records are enhanced with links through to the full text of periodical articles, where these are available, or to the Library's disintermediated document delivery system where an online version of the article is not available.Ex: The 'strategic computing' plan announced by the United States in early 1984 envisages, among others, the use of intelligent robots (for example, to serve as ammunition loaders in tanks, or in unmanned reconnaissance and manipulating devices).Ex: 'Data base' is a term referring to machine-readable collections of information, whether numerical, representational or bibliographic.* método automatizado = computer-based method.* semiautomatizado = partially-automated, semi-automated.* * *automatizado -daautomated* * *
Del verbo automatizar: ( conjugate automatizar)
automatizado es:
el participio
Multiple Entries:
automatizado
automatizar
automatizado◊ -da adjetivo
automated
automatizar ( conjugate automatizar) verbo transitivo
to automate
* * *automatizado, -a adjautomated -
6 machining
обработка, механическая обработка, механообработка, обработка резанием, обработка на металлорежущем станкеmachining all surfaces at a set — обработка всех поверхностей ( заготовки) с одного установа
machining from solid — обработка ( детали) из целого, обработка ( детали) из целого куска
machining from the solid — обработка ( детали) из целого, обработка ( детали) из целого куска
in machining — в обработке, при обработке
machining through all angles — обработка под любым углом, обработка изделий под любым углом
- 2 1/2-dimensional machiningmachining to close limits — обработка с жёсткими допусками; точная обработка
- 3D cavity machining
- 3D machining
- abrasive belt machining
- abrasive flow machining
- abrasive machining
- abrasive-electrochemical machining
- abrasive-waterjet machining
- adaptive controlled machining
- adaptive machining
- all-over machining
- angular machining
- anode-mechanical machining
- around-the-part machining
- associative machining
- automated machining
- automotive machining
- back end machining
- back-face machining
- balanced machining
- batch machining
- batch-lot machining
- beam machining
- bore machining
- CAM machining
- C-axis machining
- center machining
- chemical machining
- chip-type machining
- close tolerance machining
- closed loop machining
- CNC horizontal machining
- CNC machining
- CNC screw machining
- composite machining
- computer-controlled machining
- consistent machining
- constant power machining
- contact-initiated discharge machining
- contact-initiated machining
- continuous path machining
- contour machining
- contouring machining
- controlled machining
- conventional machining
- copy machining
- datum machining
- deephole machining
- diamond machining
- dual-spindle machining
- duplex machining
- duplicate machining
- edge machining
- electrical discharge machining
- electrical machining
- electrical spark machining
- electrochemical machining
- electroerosion abrasive machining
- electroerosion machining
- electrolytic abrasive machining
- electrolytic machining
- electron beam machining
- electron discharge machining
- electronic erosion machining
- electrophysical machining
- electrospark machining
- etch machining
- false machining
- fast laser machining
- feature-based machining
- final machining
- final tolerance machining
- finish machining
- finished machining
- five-axis CNC machining
- five-axis machining
- five-face machining
- five-sided machining
- fixed-axis machining
- flat abrasive machining
- flexible machining
- flow-line machining
- flowthru machining
- flush fine machining
- form-feature machining
- front-end machining
- gear machining
- generative machining
- group machining
- hard-part machining
- heavy machining
- heavy-duty machining
- high-accuracy machining
- high-definition finish machining
- high-efficiency machining
- high-production machining
- high-speed machining
- high-volume machining
- horizontal machining
- horizontal mode machining
- hot machining
- hydrodynamic machining
- inclined-plane machining
- in-cycle machining
- industrial laser machining
- in-place machining
- interference-free machining
- intol/outtol machining
- ion beam machining
- jet-assisted machining
- job shop machining
- laser machining
- laser-assisted machining
- laser-beam machining
- lathe machining
- LH machining
- light-duty machining
- lights-out machining
- magnetic abrasive machining
- manual machining
- medium-duty machining
- minimum-manned machining
- mirror image machining
- multiaccess machining
- multiaxis machining
- multicell machining
- multiface machining
- multilateral machining
- multimachine machining
- multiple machining
- multiple setup machining
- multiple surface flow-line machining
- multiple-axis machining
- multiple-cutter machining
- multiple-electrode electrical discharge machining
- multiple-pass machining
- multiple-source laser machining
- multiple-workpiece machining
- multiplunge machining
- multipurpose machining
- multistage machining
- NC machining
- NF machining
- no-handwork machining
- nonturning machining
- numerical control machining
- numerically controlled machining
- off-center machining
- one-hit machining
- one-operation machining
- one-pass machining
- one-stop machining and grinding
- on-line machining
- parabolic machining
- parallel machining
- partially manned machining
- photochemical machining
- photon beam machining
- photonic machining
- pick feed traverse machining
- plasma-arc machining
- plasma-assisted machining
- plunge machining
- point-to-point machining
- post-process machining
- precision machining
- primary machining
- prismatic machining
- radial machining
- random flexible machining
- rapid machining
- rear-end machining
- RH machining
- rotary machining
- rotary transfer machining
- rotational machining
- rough machining
- roughing machining
- screw machining
- sculpture machining
- sculptured-surface machining
- secondary machining
- semifinish machining
- semi-fourth axis machining
- semiunmanned machining
- series machining
- side machining
- simultaneous fourth-axis machining
- single setup machining
- single-cutter machining
- single-pass machining
- single-point machining
- six-face machining
- six-sided machining
- slideway machining
- solids-based machining
- spark discharge machining
- spark erosion machining
- standalone machining
- straight production machining
- strip machining
- surface intersection machining
- Swiss machining
- Swiss-style machining
- tandem machining
- tapeless machining
- tapered machining
- templet-controlled machining
- test machining
- thermochemical machining
- three-axis curve machining
- three-axis machining
- three-dimensional machining
- tombstone machining
- toolroom machining
- torque-controlled machining
- total machining
- tracer machining
- transfer machining
- transfer-line machining
- trial machining
- turned part machining
- turning machining
- two-and-half axis machining
- two-at-a-time machining
- two-pass machining
- ultrafast machining
- ultrahigh speed machining
- ultrasonic abrasive machining
- ultrasonic machining
- ultrasonically assisted machining
- unattended machining
- unattended multiple-workpiece machining
- unmanned machining overnight
- unmanned machining
- unstable machining
- untended machining
- vertical machining
- vertical mode machining
- vibroabrasive machining
- waterjet machining
- waterjet-assisted machining
- wire electric discharge machining
- wire erosion machining
- wire machiningEnglish-Russian dictionary of mechanical engineering and automation > machining
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7 unit
организационная единица; боевая единица (напр. корабль, ЛА танк); подразделение; часть; соединение; расчетно-снабженческая единица; секция; орган; элемент; комплект; агрегат; установка; см. тж. elementbulk petrol (transport) unit — Бр. часть [подразделение] подвоза наливного (бестарного) горючего
counter C3 unit — часть [подразделение] подавления системы оперативного управления и связи
Fleet Marine (Corps) reconnaissance unit — разведывательное подразделение [часть] флотских сил МП
multisensor (AA) firing unit 3PK — с приборным комплексом из нескольких систем обнаружения и сопровождения
photo (graphic) reconnaissance unit — фоторазведывательная часть [подразделение]
surface-launched unit, fuel air explosive — установка дистанционного разминирования объемным взрывом
surface-launched unit, mine — установка дистанционного минирования
tactical (air) control unit — часть [подразделение] управления ТА
war (time) strength (TOE) unit — часть, укомплектованная по штатам военного времени
— air unit— ASA unit— BM unit— border operation unit— car unit— depot support unit— dry unit— EW unit— GM unit— host country unit— HQ unit— logistics support unit— manpack radio unit— marksmanship training unit— mechanized infantry unit— missile-armed unit— nuclear weapon unit— provisional unit— QM unit— Rangers unit— supported unit— TOE unit— transportation unit— truck transport unit— van unit— wet unit* * *1) часть; 2) единица -
8 автоматический
[см. полуавтоматический; син. без экипажа; беспилотный; ант. пилотируемый; управляемый]Preparations for fuelling and the fuelling proper are automatic whereas defuelling is semi-automatic.Certain unmanned Earth satellites and all spaceships comprise capsules which… -
9 vehicle
средство передвижения; транспортное средство; подвижное средство; боевая машина, БМ; летательный аппарат, ЛА; см. тж. car, truckair cushion landing vehicle, assault — десантно-высадочное средство на воздушной подушке; десантный АВП
armored cavalry (assault) vehicle — бронированная разведывательная машина, БРМ
armoured vehicle, RE — Бр. саперный танк
assault vehicle, RE — Бр. десантно-высадочное средство инженерных войск
AT (guided) missile launch vehicle — БМ для пуска ПТУР; самоходный ПТРК
C2 vehicle — машина управления (войсками); (командно-) штабная машина
double air cushion vehicle, assault — десантный корабль на двойной воздушной подушке
landing vehicle, assault — десантно-высадочное средство; плавающий БТР на воздушной подушке
landing vehicle, hydrofoil — десантный КПК
landing vehicle, tank, engineer — десантный саперный танк
landing vehicle, track, armored — десантный (плавающий) гусеничный БТР
landing vehicle, track, covered — крытый десантный плавающий гусеничный транспортер
landing vehicle, tracked, engineer — десант ная гусеничная инженерная машина
landing vehicle, tracked, heavy — тяжелый десантный плавающий гусеничный транспортер
landing vehicle, tracked, howitzer — десантная гусеничная гаубичная СУ
landing vehicle, tracked, personnel — десантная гусеничная машина для ЛС
landing vehicle, tracked, recovery — десантная гусеничная ремонтно-эвакуационная машина
mine-clearing vehicle, flail-type — танк [танковый тягач] с бойковым тралом
mine-clearing vehicle, plow-pushing — танк [танковый тягач] с передним плужным минным тралом
mine-clearing vehicle, roller — танк [танковый тягач] с Катковым минным тралом
terminally guided (maneuvering) reentry vehicle — ркт. маневрирующая ГЧ с наведением на конечном участке траектории
— administrative use vehicle— bacteriological bomb vehicle— boost-glide reentry vehicle— flamethrower vehicle— ground-supported vehicle— launcher vehicle— logistical air vehicle— logistical vehicle— maintenance assistance vehicle— MarineCorps landing vehicle— oversize load vehicle— ship-to-shore assault vehicle— support armored vehicle— topographic surveying vehicle— troop-carryingair vehicle— wader-swimmer combat vehicle -
10 guidance
beam(-climber, -follower, -rider,-riding) guidance — наведение (ракеты) по лучу
reference trajectory reentry guidance — управление КЛА при возвращении в атмосферу с использованием опорной траектории
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11 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
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