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1 тепловидение
1) Medicine: thermography2) Military: heat imaging, heat vision, night thermal imaging, night vision imaging, thermal technique3) Engineering: IR imaging, infrared imaging, thermal imagery, thermal imaging4) Construction: thermovision5) Telecommunications: noctovision6) Household appliances: infrared viewing7) Makarov: infra-red imaging, lR imaging -
2 применение тепловизионных приборов
Military: thermal techniqueУниверсальный русско-английский словарь > применение тепловизионных приборов
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3 метод тепловых волн
метод тепловых волн
Тепловую стимуляцию объекта производят путем периодического (гармонического) нагрева, в результате чего в объекте возникают тепловые волны; как правило, температуру регистрируют в квазистационарном режиме.
[Система неразрушающего контроля. Виды (методы) и технология неразрушающего контроля. Термины и определения (справочное пособие). Москва 2003 г.]Тематики
- виды (методы) и технология неразр. контроля
EN
Русско-английский словарь нормативно-технической терминологии > метод тепловых волн
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4 метод тепловых волн
thermal-wave technique крист.Русско-английский словарь по электронике > метод тепловых волн
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5 метод тепловых волн
thermal-wave technique крист.Русско-английский словарь по радиоэлектронике > метод тепловых волн
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6 метод температурного градиента
1) Engineering: thermal-gradient method2) Electronics: Kruger-Finke method, Kruger-Finke technique, thermal-gradient technique3) Crystallography: Krueger-Finke method4) Makarov: Krueger-Finke techniqueУниверсальный русско-английский словарь > метод температурного градиента
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7 метод расслоения при термическом расширении
1) Solar energy: thermal expansion shear separation techniqueУниверсальный русско-английский словарь > метод расслоения при термическом расширении
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8 метод тепловых волн
1) Electronics: thermal-wave technique2) Microelectronics: thermal wave techniqueУниверсальный русско-английский словарь > метод тепловых волн
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9 метод или способ теплоизоляции
метод или способ теплоизоляции
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > метод или способ теплоизоляции
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10 Eisler, Paul
[br]b. 1907 Vienna, Austria[br]Austrian engineer responsible for the invention of the printed circuit.[br]At the age of 23, Eisler obtained a Diploma in Engineering from the Technical University of Vienna. Because of the growing Nazi influence in Austria, he then accepted a post with the His Master's Voice (HMV) agents in Belgrade, where he worked on the problems of radio reception and sound transmission in railway trains. However, he soon returned to Vienna to found a weekly radio journal and file patents on graphical sound recording (for which he received a doctorate) and on a system of stereoscopic television based on lenticular vertical scanning.In 1936 he moved to England and sold the TV patent to Marconi for £250. Unable to find a job, he carried out experiments in his rooms in a Hampstead boarding-house; after making circuits using strip wires mounted on bakelite sheet, he filed his first printed-circuit patent that year. He then tried to find ways of printing the circuits, but without success. Obtaining a post with Odeon Theatres, he invented a sound-level control for films and devised a mirror-drum continuous-film projector, but with the outbreak of war in 1939, when the company was evacuated, he chose to stay in London and was interned for a while. Released in 1941, he began work with Henderson and Spalding, a firm of lithographic printers, to whom he unwittingly assigned all future patents for the paltry sum of £1. In due course he perfected a means of printing conducting circuits and on 3 February 1943 he filed three patents covering the process. The British Ministry of Defence rejected the idea, considering it of no use for military equipment, but after he had demonstrated the technique to American visitors it was enthusiastically taken up in the US for making proximity fuses, of which many millions were produced and used for the war effort. Subsequently the US Government ruled that all air-borne electronic circuits should be printed.In the late 1940s the Instrument Department of Henderson and Spalding was split off as Technograph Printed Circuits Ltd, with Eisler as Technical Director. In 1949 he filed a further patent covering a multilayer system; this was licensed to Pye and the Telegraph Condenser Company. A further refinement, patented in the 1950s, the use of the technique for telephone exchange equipment, but this was subsequently widely infringed and although he negotiated licences in the USA he found it difficult to license his ideas in Europe. In the UK he obtained finance from the National Research and Development Corporation, but they interfered and refused money for further development, and he eventually resigned from Technograph. Faced with litigation in the USA and open infringement in the UK, he found it difficult to establish his claims, but their validity was finally agreed by the Court of Appeal (1969) and the House of Lords (1971).As a freelance inventor he filed many other printed-circuit patents, including foil heating films and batteries. When his Patent Agents proved unwilling to fund the cost of filing and prosecuting Complete Specifications he set up his own company, Eisler Consultants Ltd, to promote food and space heating, including the use of heated cans and wallpaper! As Foil Heating Ltd he went into the production of heating films, the process subsequently being licensed to Thermal Technology Inc. in California.[br]Bibliography1953, "Printed circuits: some general principles and applications of the foil technique", Journal of the British Institution of Radio Engineers 13: 523.1959, The Technology of Printed Circuits: The Foil Technique in Electronic Production.1984–5, "Reflections of my life as an inventor", Circuit World 11:1–3 (a personal account of the development of the printed circuit).1989, My Life with the Printed Circuit, Bethlehem, Pennsylvania: Lehigh University Press.KF -
11 режим
режим сущbehaviorвертолет в режиме висенияhovering helicopterвзлет на режимах работы двигателей, составляющих наименьший шумnoise abatement takeoffвнезапно изменять режимchop the powerвоздушный винт на режиме малого газаidling propellerв режимеin modeв режиме большого шагаin coarse pitchв режиме готовностиin alertв режиме малого шагаin fine pitchв режиме самоориентированияwhen castoringвыбирать режимselect the modeвыбор режима работы двигателяselection of engine modeвывод из режима сваливания1. recovery from the stall2. stall recovery выводить двигатель из режима реверсаunreverse an engineвыводить на режим малого газаset idle powerвыполнять полет в режиме ожидания над аэродромомhold over the beaconвыходить на взлетный режимcome to takeoff powerгоризонтальный полет на крейсерском режимеlevel cruiseдальность полета на режиме авторотацииautorotation rangeдвигатель на режиме малого газаidling engineдиапазон взлетных режимовtakeoff rangeдиапазон рабочих режимовnormal operating rangeдиапазон режимов полетаflight envelopeзаданный режим полетаbasic flight referenceзадатчик режимаmode selector(полета) запуск в режиме авторотацииwindmill startingзаход на посадку в режиме планированияgliding approachзаход на посадку на установившемся режимеsteady approachзона воздушного пространства с особым режимом полетаairspace restricted areaиспытание в режиме висенияhovering testкрутящий момент воздушного винта в режиме авторотацииpropeller windmill torqueлетать в курсовом режимеfly heading modeлетать в режиме бреющего полетаfly at a low levelмаксимальный режимfull power conditionsмощность на режиме полетного малого газаflight idle powerмощность на чрезвычайном режимеcontingency powerнабор высоты в крейсерском режимеcruise climbнабор высоты до крейсерского режимаclimb to cruise operationна режиме малого газаat idle powerнерасчетный ветровой режимanomalous wind conditionsнеустановившийся режимunsteady modeнеустановившийся режим набора высотыnonsteady climbноминальный режимmaximum continuous powerобратная тяга на режиме малого газаreverse idle thrustоптимальный режимbest economy powerосновной режим воздушного пространстваdominant air modeпереключатель выбора режима работы автопилотаautopilot mode selectorпереключатель режимов работыmode selector switchпереход в режим горизонтального полетаpuchoverпереходить в режим набора высотыentry into climbпереход на режим висенияreconversion hoveringпериодический режимperiodic dutyповторно-кратковременный режимintermittent dutyповторный запуск на режиме авторотацииwindmilling restartполет в режиме висенияhover flightполет в режиме ожиданияholding operationполет в режиме ожидания на маршрутеholding en-route operationполет на крейсерском режимеnormal cruise operationполет на номинальном расчетном режимеwith rated power flightполет на режиме авторотацииautorotational flightпорядок набора высоты на крейсерском режимеcruise climb techniqueпосадка в режиме авторотации в выключенным двигателемpower-off autorotative landingпосадка на режиме малого газаidle-powerпотолок в режиме висенияhovering ceilingпредел скоростей на крейсерском режимеcruising speeds rangeпродолжительность в режиме висенияhovering enduranceпродолжительность работы двигателя на взлетном режимеfull-thrust durationпрямая тяга на режиме малого газаforward idle thrustработа в режиме запуска двигателяengine start modeработа двигателя на режиме малого газаidling engine operationработа на режиме холостого ходаidle runningработа только в режиме приемаreceiving onlyработать на режиме малого газаrun at idle powerработать на режиме холостого ходаrun idleрабочий режимoperating modeрадиус действия радиолокатора в режиме поискаradar search rangeразворот в режиме висенияhovering turnрасход на крейсерском режимеcruise consumptionрежим автоматической посадкиautoland modeрежим воздушного потока в заборнике воздухаinlet airflow scheduleрежим готовностиstandby modeрежим закрытых тарифовclosed-rate situationрежим запросаinterrogation modeрежим земного малого газаground idleрежим малого газа1. idle2. idling 3. idle power rating режим малого газа в заданных пределахdeadband idleрежим малого газа при заходе на посадкуapproach idleрежим обогреваheating modeрежим ожиданияholding modeрежим ответаreply modeрежим открытых тарифовopen-rate situationрежим поискаsearch modeрежим полета1. flight mode2. mode of flight режим полетного малого газаflight idleрежим работыratingрежим работы автопилота по заданному курсуautopilot heading modeрежим работы с полной нагрузкойfull-load conditionsрежим равновесных оборотовon-speed conditionsрежим согласованияsynchronization modeрежим стабилизации курсаheading hold modeрежим стабилизации на заданной высотеheight-lock modeрежим управленияcontrol modeрежим холостого ходаidle conditionsсертификация по шуму на взлетном режимеtake-off noiseснижать режим работы двигателяslow down an engineснижение в режиме авторотацииautorotative descentснижение в режиме планированияgliding descentснижение в режиме торможенияbraked descentснижение на крейсерском режимеcruise descentснижение на режиме авторотацииautorotative descend operationснижение режима работыthrottle retardingсовмещенный режимcoupled modeстартерный режим генератораgenerator motorizing modeтабло режимов работыmode annunciatorтепловой режимthermal behaviorтехника пилотирования на крейсерском режимеaeroplane cruising techniqueтормозной режим работыretardation modeтяга на взлетном режимеtakeoff thrustтяга на максимально продолжительном режимеmaximum continuous thrustтяга на режиме максимального газаfull throttle thrustтяга на режиме малого газаidling thrustтяга на установившемся режимеsteady thrustубрать режимpower offугол начального участка установившегося режима набора высотыfirst constant climb angleугол установившегося режима набора высотыconstant climb angleуказатель режима работыmode indicatorуправление на переходном режимеcontrol in transitionустанавливать взлетный режимset takeoff powerустанавливать режим набора высотыestablish climbустанавливать режим полетаestablish the flight conditionsустанавливать режим сниженияestablish descentустановившийся режимsteady modeустановившийся режим набора высотыconstant climbустановка режима работы двигателяthrottle settingфорсажный режимreheat powerфорсированный режимaugmented powerцифровой электронный регулятор режимов работы двигателяdigital engine controlчисло оборотов двигателя на взлетном режимеengine takeoff speedчрезвычайный режим работыcontingency ratingшаг в режиме торможенияbraking pitchштурвальный режимmanual modeэксплуатационный режимoperation conditionsэлеронный режим работыaileron mode -
12 выполнять анализ
•Satisfactory analysis can be performed (or carried out) on samples having...
* * *Выполнять анализ-- Furthermore, thermal stress analysis can also be handled by this technique.Русско-английский научно-технический словарь переводчика > выполнять анализ
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13 метод выявления термических канавок
Metallurgy: thermal-grooving techniqueУниверсальный русско-английский словарь > метод выявления термических канавок
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14 capacité
capacité [kapasite]feminine nouna. ( = contenance) capacity• de grande capacité [avion, stade] with a large seating capacity• capacité de mémoire/de stockage (Computing) memory/disk capacityb. ( = aptitude) ability* * *kapasite1) ( aptitude) ability2) ( potentiel) capacitycapacité de mémoire — Informatique memory capacity ou size
•Phrasal Verbs:* * *kapasite nf1) (pouvoir de faire qch) [production, adaptation, résistance, stockage, innovation, nuisance] capacity2) (= compétence) ability3) [récipient, stade] capacityd'une capacité de... — with a capacity of...
4) TECHNIQUE, INFORMATIQUE, [disque dur, carte mémoire] capacity* * *A nf1 ( aptitude) ability; capacité de qn/qch à faire capacity of sb/sth to do; la capacité d'évolution des employés the employees' capacity to progress; un chercheur d'une grande capacité a researcher of great ability, a very talented researcher; tes capacités d'imagination/d'analyse your capacity for imagining/analysing; avoir capacité à faire Jur to be qualified to do;2 ( potentiel) capacity; capacité exportatrice/de production export/production capacity; capacité d'intervention Mil intervention capacity; capacité de 100 mégawatts 100 megawatt capacity; capacités de stockage storage capacity; capacité de mémoire Ordinat memory capacity ou size;3 ( contenance) capacity; un récipient de grande capacité a large capacity container; capacité d'accueil d'un hôtel/d'une prison capacity of a hotel/of a prison; un avion d'une capacité de 200 places a plane with a capacity of 200; la capacité d'accueil d'une ville touristique the number of visitors a tourist resort can accommodate; machine à laver à capacité variable washing machine with variable load settings.B capacités nfpl ( talent) abilities; capacités intellectuelles/physiques intellectual/physical abilities; je ne doute pas de vos capacités I have no doubts as to your ability ou abilities.capacité civile civil capacity; capacité électrostatique capacitance; capacité en droit Univ, Jur basic legal qualification; capacité légale Jur legal capacity, legal competence; capacité respiratoire Méd vital capacity; capacité thermique Phys thermal capacity; capacité thoracique = capacité respiratoire.[kapasite] nom fémininavoir la capacité de faire quelque chose to have the ability to do something, to be capable of doing somethingavoir une grande capacité de travail to be capable of ou to have a capacity for hard work2. [d'un récipient, d'une salle, d'un véhicule] capacity6. [diplôme]7. ÉCONOMIEcapacité productrice maximum possible output ou capacity————————capacités nom féminin pluriel -
15 методом
•The wheel is impregnated by an undisclosed process.
•Cobalt is purified in the manner described for arsenic ores.
* * *МетодомThermal stress analysis can be handled by this technique.Characterization of anthraquinones by means of electrophoresis has been developed recently.Русско-английский научно-технический словарь переводчика > методом
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16 Wöhler, August
SUBJECT AREA: Metallurgy[br]b. 22 June 1819 Soltau, Germanyd. 21 June 1914 Hannover, Germany[br]German railway engineer who first established the fatigue fracture of metals.[br]Wöhler, the son of a schoolteacher, was born at Soltau on the Luneburg Heath and received his early education at his father's school, where his mathematical abilities soon became apparent. He completed his studies at the Technical High School, Hannover.In 1840 he obtained a position at the Borsig Engineering Works in Berlin and acquired there much valuable experience in railway technology. He trained as an engine driver in Belgium and in 1843 was appointed as an engineer to the first Hannoverian Railway, then being constructed between Hannover and Lehrte. In 1847 he became Chief Superintendent of rolling stock on the Lower Silesian-Brandenhurg Railway, where his technical abilities influenced the Prussian Minister of Commerce to appoint him to a commission set up to investigate the reasons for the unusually high incidence of axle failures then being encountered on the railways. This was in 1852, and by 1854, when the Brandenburg line had been nationalized, Wöhler had already embarked on the long, systematic programme of mechanical testing which eventually provided him with a clear insight into the process of what is now referred to as "fatigue failure". He concentrated initially on the behaviour of machined iron and steel specimens subjected to fluctuating direct, bending and torsional stresses that were imposed by testing machines of his own design.Although Wöhler was not the first investigator in this area, he was the first to recognize the state of "fatigue" induced in metals by the repeated application of cycles of stress at levels well below those that would cause immediate failure. His method of plotting the fatigue stress amplitude "S" against the number of stress cycles necessary to cause failure "N" yielded the well-known S-N curve which described very precisely the susceptibility to fatigue failure of the material concerned. Engineers were thus provided with an invaluable testing technique that is still widely used in the 1990s.Between 1851 and 1898 Wöhler published forty-two papers in German technical journals, although the importance of his work was not initially fully appreciated in other countries. A display of some of his fracture fatigue specimens at the Paris Exposition in 1867, however, stimulated a short review of his work in Engineering in London. Four years later, in 1871, Engineering published a series of nine articles which described Wöhler's findings in considerable detail and brought them to the attention of engineers. Wöhler became a member of the newly created management board of the Imperial German Railways in 1874, an appointment that he retained until 1889. He is also remembered for his derivation in 1855 of a formula for calculating the deflections under load of lattice girders, plate girders, and other continuous beams resting on more than two supports. This "Three Moments" theorem appeared two years before Clapeyron independently advanced the same expression. Wöhler's other major contribution to bridge design was to use rollers at one end to allow for thermal expansion and contraction.[br]Bibliography1855, "Theorie rechteckiger eiserner Brückenbalken", Zeitschrift für Bauwesen 5:122–66. 1870, "Über die Festigkeitversuche mit Eisen und Stahl", Zeitschrift für Bauwesen 20:73– 106.Wöhler's experiments on the fatigue of metals were reported in Engineering (1867) 2:160; (1871) 11:199–200, 222, 243–4, 261, 299–300, 326–7, 349–50, 397, 439–41.Further ReadingR.Blaum, 1918, "August Wöhler", Beiträge zur Geschichte der Technik und Industrie 8:35–55.——1925, "August Wöhler", Deutsches biographisches Jahrbuch, Vol. I, Stuttgart, pp. 103–7.K.Pearson, 1890, "On Wöhler's experiments on alternating stress", Messeng. Math.20:21–37.J.Gilchrist, 1900, "On Wöhler's Laws", Engineer 90:203–4.ASD
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