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1 temperature-sensitive period
Техника: температурочувствительный периодУниверсальный англо-русский словарь > temperature-sensitive period
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2 period
1) период, интервал времени2) мат. период ( повторяющаяся группа цифр в десятичной дроби)3) пора; эпоха5) фаза6) цикл• -
3 TSP
1) Общая лексика: hum. сокр. Truncated Signal Peptide, тройной суперфосфат2) Компьютерная техника: Tapi Service Provider, Team Software Processes, Temporary Storage Program, telecommunications service priority3) Авиация: экранированная витая пара4) Американизм: Tiny Suspended Particles, Transition Stakeholders Panel5) Спорт: The Supporter Page6) Военный термин: Tactical Sensor Planner, Threat Support Package, Training Support Base, Training Support Package, Troop Structure Program, tactical strike program, technical specifications, technical support package, telemetry simulation program, temporary standard practice, test site position, test status panel, test support package, test support program, transit servicing park, transshipment point, tri-service program, trial-shot point7) Техника: Titanium Sublimation Pump, temperature-sensitive period, test software program, thermally stimulated polarization, thermally stimulated process, time at source point, time sorting program, time-shared program, tube support plate8) Шутливое выражение: The Smelly People, Try Some Phosphorus9) Химия: Tri Sodium Phosphate10) Математика: Travelling Salesman Problem11) Автомобильный термин: throttle solenoid positioner (Ford), Система стабилизации прицепа: (Trailer Stability Program)12) Ветеринария: Team Sick Puppy13) Политика: Terrorist State of Pakistan14) Телекоммуникации: провайдер телекоммуникационных услуг, Telecom Service Provider15) Сокращение: Target Signal Processor, Teleprocessing Services Program, Thrift Savings Plan, Time & Space Processing Inc. (USA), Time Synchronization Protocol, Tracking Signal Processor, Turret Stabilised Platform16) Физиология: Thoracic spine, teaspoon (5 mL), thrombospondin17) Электроника: Temperature- Sensitive Parameter18) Вычислительная техника: traveling salesman problem, Texture and Shading Processor (IC, Graphik)20) Иммунология: T cell-specific serine proteinase, transferred solid phase21) Геофизика: вертикальное время22) Транспорт: Traveler Service Point23) Пищевая промышленность: Texturized Soy Protein24) Фирменный знак: Texas Screw Products25) Экология: total suspended particulates26) СМИ: The Softback Preview27) Деловая лексика: Totally Superior Product, Transactional Services Provider28) Сетевые технологии: Tunnel Setup Protocol, telecommunication service priority, категория услуг при предоставлении связи29) Полимеры: trisodium phosphate30) Программирование: командный процесс разработки программного обеспечения (см. team software process)31) Акустика: параметры Тиля/Смолла (Thielle & Small parameters)32) Отопление: ( trisodium phosphate) тринатрийфосфат33) Химическое оружие: total suspended particulate34) Расширение файла: Telephony Service Provider35) Нефть и газ: долото TSP, термостойкое поликристаллическое алмазное долото TSP36) Туннелестроение: (tunnel seismic prediction) прогноз сейсмичности тоннеля37) Агрохимия: triple superphosphate38) Единицы измерений: Ten Square Pounds -
4 tsp
1) Общая лексика: hum. сокр. Truncated Signal Peptide, тройной суперфосфат2) Компьютерная техника: Tapi Service Provider, Team Software Processes, Temporary Storage Program, telecommunications service priority3) Авиация: экранированная витая пара4) Американизм: Tiny Suspended Particles, Transition Stakeholders Panel5) Спорт: The Supporter Page6) Военный термин: Tactical Sensor Planner, Threat Support Package, Training Support Base, Training Support Package, Troop Structure Program, tactical strike program, technical specifications, technical support package, telemetry simulation program, temporary standard practice, test site position, test status panel, test support package, test support program, transit servicing park, transshipment point, tri-service program, trial-shot point7) Техника: Titanium Sublimation Pump, temperature-sensitive period, test software program, thermally stimulated polarization, thermally stimulated process, time at source point, time sorting program, time-shared program, tube support plate8) Шутливое выражение: The Smelly People, Try Some Phosphorus9) Химия: Tri Sodium Phosphate10) Математика: Travelling Salesman Problem11) Автомобильный термин: throttle solenoid positioner (Ford), Система стабилизации прицепа: (Trailer Stability Program)12) Ветеринария: Team Sick Puppy13) Политика: Terrorist State of Pakistan14) Телекоммуникации: провайдер телекоммуникационных услуг, Telecom Service Provider15) Сокращение: Target Signal Processor, Teleprocessing Services Program, Thrift Savings Plan, Time & Space Processing Inc. (USA), Time Synchronization Protocol, Tracking Signal Processor, Turret Stabilised Platform16) Физиология: Thoracic spine, teaspoon (5 mL), thrombospondin17) Электроника: Temperature- Sensitive Parameter18) Вычислительная техника: traveling salesman problem, Texture and Shading Processor (IC, Graphik)20) Иммунология: T cell-specific serine proteinase, transferred solid phase21) Геофизика: вертикальное время22) Транспорт: Traveler Service Point23) Пищевая промышленность: Texturized Soy Protein24) Фирменный знак: Texas Screw Products25) Экология: total suspended particulates26) СМИ: The Softback Preview27) Деловая лексика: Totally Superior Product, Transactional Services Provider28) Сетевые технологии: Tunnel Setup Protocol, telecommunication service priority, категория услуг при предоставлении связи29) Полимеры: trisodium phosphate30) Программирование: командный процесс разработки программного обеспечения (см. team software process)31) Акустика: параметры Тиля/Смолла (Thielle & Small parameters)32) Отопление: ( trisodium phosphate) тринатрийфосфат33) Химическое оружие: total suspended particulate34) Расширение файла: Telephony Service Provider35) Нефть и газ: долото TSP, термостойкое поликристаллическое алмазное долото TSP36) Туннелестроение: (tunnel seismic prediction) прогноз сейсмичности тоннеля37) Агрохимия: triple superphosphate38) Единицы измерений: Ten Square Pounds -
5 TSP
1. telemetry simulation program - программа моделирования телеметрических систем;2. temperature-sensitive period - температурочувствительный период;3. test software program - программа разработки программного обеспечения испытаний;4. test status panel - табло для отображения хода испытаний;5. test support program - программа обеспечения испытаний;6. thermally stimulated polarization - термостимулированная поляризация;7. thermally stimulated process - термостимулированный процесс;8. time at source point - вертикальное время пробега волны до земной поверхности;9. time sorting program - программа, обеспечивающая режим работы процессора "сортировка времени";10. time-shared program - программа, работающая в режиме разделения времени;11. traveling salesman problem - задача коммивояжера;12. tube support plate - опорная трубная доска -
6 element
1) элемент
2) орган
3) элементный
4) <aeron.> авиагруппа
5) деталь
6) первичная часть
7) звено
8) устройство
– ace element
– adding element
– all element
– alloying element
– AND element
– antenna element
– area element
– bellows element
– blocking element
– circuit element
– code element
– combinational element
– comparison element
– computer element
– control element
– controlled element
– coupling element
– data element
– decision element
– delay element
– depth of an element
– derivative of an element
– detecting element
– directional element
– dissipative element
– driven element
– element by element
– element by element
– element cone
– element of a cone
– element of a covering
– element of a fix
– element of cylinder
– element of integration
– element of mass
– element of set
– expanding element
– ferrite element
– ferroelectric element
– filter element
– final element
– fluid element
– fluidic element
– fuel element
– function element
– height of an element
– humidity-sensitive element
– hysteretic element
– identity element
– immersion element
– input element
– instantaneous element
– integrated element
– integrated-circuit element
– inverse-time element
– inverting element
– linear element
– load-bearing element
– logic element
– luminous element
– machine element
– majority element
– matrix element
– measuring element
– memory element
– meteorological element
– microelectronic element
– micrologic element
– moving element
– neutron-sensitive element
– non-linear element
– nonequivalence element
– nonlinear element
– nonreciprocal element
– optoelectronic element
– OR element
– oscillatory element
– output element
– parasitic element
– parent element
– passive element
– pertaining to element
– picture element
– primal element
– probability element
– radiating element
– redundant element
– reference element
– reference-input element
– reinforcing element
– resolution element
– restraining element
– sensing element
– sequential element
– servo element
– signal element
– single-crystal element
– starting element
– storage element
– structural element
– surface element
– switching element
– target element
– temperature-sensitive element
– the element obtained
– threshold element
– time-lag element
– timing element
– trace element
– transuranium element
– two-position element
– unit element
– volume element
– vortex element
– zero element
element of analytic function — элемент аналитической функции
finite element method — <math.> метод конечных элементов
gas plasma display element — <comput.> трубка газонаполненная
ideal pulse element — <electr.> элемент импульсный идеальный
identity element of a group — <math.> элемент группы единичный
magnetic multiaperture element — многодырочный магнитный элемент
off-diagonal matrix element — недиагональный матричный элемент
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7 control
управление; регулирование; контроль; орган [рычаг] управления; руль; pl. система управления или регулирования; управлять; регулироватьback seat flight control — управление ЛА из задней кабины [с места заднего лётчика]; pl. дублирующие органы управления в задней кабине
be out of control — терять управление [управляемость]; выходить из-под управления [контроля]
continuously variable thrust control — плавное [бесступенчатое] регулирование тяги
control c.g. control — регулирование центровки (ЛА)
control of missile attitude — стабилизация ракеты; управление пространственным положением ракеты
control of the air — превосходство или господство в воздухе; превосходство в области авиации [в авиационной технике]; контроль воздушного пространства
control of the yoke — разг. управление штурвалом
control of thrust orientation — управление ориентированием [направлением вектора] тяги
flight deck lighting controls — органы управления [ручки регулировки] освещением кабины экипажа
fling the controls over — перебрасывать органы управления (в противоположную сторону),
flow control with altitude compensation — регулятор расхода [подачи] с высотным корректором
fuel dump valve control — кран [рычаг крана] аварийного слива топлива
gas jet attitude control — управление пространственным положением с помощью системы газоструйных рулей
go out of control — терять управление, выходить из-под управления [контроля]
ground rollout rudder steering control — управление пробегом [на пробеге] с помощью руля направления
interconnected fuel and propeller controls — объединённая система регулирования подачи топлива и шага винта
jet tab thrust vector control — управление вектором тяги с помощью газовых рулей; дефлекторное управление вектором тяги
jet(-deflection, -direction) control — реактивное [струйное] управление; управление изменением направления тяги; струйный руль
manual mixture shut-off control — рычаг отсечки подачи горючей смеси, рычаг останова [выключения] двигателя
maximum boundary layer control — управление пограничным слоем при наибольшей эффективности [производительности, интенсивности работы] системы
recover the control — восстанавливать управление [управляемость]
respond to the controls — реагировать [отвечать] на отклонение рулей [органов управления]
space shuttle orbiter control — управление орбитальной ступенью челночного воздушно-космического аппарата
throttle and collective pitch control — верт. рычаг «шаг — газ»
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8 Thomson, Sir William, Lord Kelvin
[br]b. 26 June 1824 Belfast, Ireland (now Northern Ireland)d. 17 December 1907 Largs, Scotland[br]Irish physicist and inventor who contributed to submarine telegraphy and instrumentation.[br]After education at Glasgow University and Peterhouse, Cambridge, a period of study in France gave Thomson an interest in experimental work and instrumentation. He became Professor of Natural Philosophy at Glasgow in 1846 and retained the position for the rest of his career, establishing the first teaching laboratory in Britain.Among his many contributions to science and engineering was his concept, introduced in 1848, of an "absolute" zero of temperature. Following on from the work of Joule, his investigations into the nature of heat led to the first successful liquefaction of gases such as hydrogen and helium, and later to the science of low-temperature physics.Cable telegraphy gave an impetus to the scientific measurement of electrical quantities, and for many years Thomson was a member of the British Association Committee formed in 1861 to consider electrical standards and to develop units; these are still in use. Thomson first became Scientific Adviser to the Atlantic Telegraph Company in 1857, sailing on the Agamemnon and Great Eastern during the cable-laying expeditions. He invented a mirror galvanometer and more importantly the siphon recorder, which, used as a very sensitive telegraph receiver, provided a permanent record of signals. He also laid down the design parameters of long submarine cables and discovered that the conductivity of copper was greatly affected by its purity. A major part of the success of the Atlantic cable in 1866 was due to Thomson, who received a knighthood for his contribution.Other instruments he designed included a quadrant electrostatic voltmeter to measure high voltages, and his "multi-cellular" instrument for low voltages. They could be used on alternating or direct current and were free from temperature errors. His balances for precision current measurement were widely used in standardizing laboratories.Thomson was a prolific writer of scientific papers on subjects across the whole spectrum of physics; between 1855 and 1866 he published some 110 papers, with a total during his life of over 600. In 1892 he was raised to the peerage as Baron Kelvin of Largs. By the time of his death he was looked upon as the "father" of British physics, but despite his outstanding achievements his later years were spent resisting change and progress.[br]Principal Honours and DistinctionsKnighted 1866. Created Lord Kelvin of Largs 1892. FRS 1851. President, Royal Society 1890–4. An original member of the Order of Merit 1902. President, Society of Telegraph Engineers 1874. President, Institution of Electrical Engineers 1889 and 1907. Royal Society Royal Medal 1856, Copley Medal 1883.Bibliography1872, Reprints of Papers on Electrostatics and Magnetism, London; 1911, Mathematical and Physical Papers, 6 vols, Cambridge (collections of Thomson's papers).Further ReadingSilvanus P.Thompson, 1910, The Life of William Thomson, Baron Kelvin of Largs, 2 vols, London (an uncritical biography).D.B.Wilson, 1987, Kelvin and Stokes: A Comparative Study in Victorian Physics, Bristol (provides a present-day commentary on all aspects of Thomson's work).J.G.Crowther, 1962, British Scientists of the 19th Century, London, pp. 199–257 (a short critical biography).GWBiographical history of technology > Thomson, Sir William, Lord Kelvin
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9 Herbert, Edward Geisler
[br]b. 23 March 1869 Dedham, near Colchester, Essex, Englandd. 9 February 1938 West Didsbury, Manchester, England[br]English engineer, inventor of the Rapidor saw and the Pendulum Hardness Tester, and pioneer of cutting tool research.[br]Edward Geisler Herbert was educated at Nottingham High School in 1876–87, and at University College, London, in 1887–90, graduating with a BSc in Physics in 1889 and remaining for a further year to take an engineering course. He began his career as a premium apprentice at the Nottingham works of Messrs James Hill \& Co, manufacturers of lace machinery. In 1892 he became a partner with Charles Richardson in the firm of Richardson \& Herbert, electrical engineers in Manchester, and when this partnership was dissolved in 1895 he carried on the business in his own name and began to produce machine tools. He remained as Managing Director of this firm, reconstituted in 1902 as a limited liability company styled Edward G.Herbert Ltd, until his retirement in 1928. He was joined by Charles Fletcher (1868–1930), who as joint Managing Director contributed greatly to the commercial success of the firm, which specialized in the manufacture of small machine tools and testing machinery.Around 1900 Herbert had discovered that hacksaw machines cut very much quicker when only a few teeth are in operation, and in 1902 he patented a machine which utilized this concept by automatically changing the angle of incidence of the blade as cutting proceeded. These saws were commercially successful, but by 1912, when his original patents were approaching expiry, Herbert and Fletcher began to develop improved methods of applying the rapid-saw concept. From this work the well-known Rapidor and Manchester saws emerged soon after the First World War. A file-testing machine invented by Herbert before the war made an autographic record of the life and performance of the file and brought him into close contact with the file and tool steel manufacturers of Sheffield. A tool-steel testing machine, working like a lathe, was introduced when high-speed steel had just come into general use, and Herbert became a prominent member of the Cutting Tools Research Committee of the Institution of Mechanical Engineers in 1919, carrying out many investigations for that body and compiling four of its Reports published between 1927 and 1933. He was the first to conceive the idea of the "tool-work" thermocouple which allowed cutting tool temperatures to be accurately measured. For this advance he was awarded the Thomas Hawksley Gold Medal of the Institution in 1926.His best-known invention was the Pendulum Hardness Tester, introduced in 1923. This used a spherical indentor, which was rolled over, rather than being pushed into, the surface being examined, by a small, heavy, inverted pendulum. The period of oscillation of this pendulum provided a sensitive measurement of the specimen's hardness. Following this work Herbert introduced his "Cloudburst" surface hardening process, in which hardened steel engineering components were bombarded by steel balls moving at random in all directions at very high velocities like gaseous molecules. This treatment superhardened the surface of the components, improved their resistance to abrasion, and revealed any surface defects. After bombardment the hardness of the superficially hardened layers increased slowly and spontaneously by a room-temperature ageing process. After his retirement in 1928 Herbert devoted himself to a detailed study of the influence of intense magnetic fields on the hardening of steels.Herbert was a member of several learned societies, including the Manchester Association of Engineers, the Institute of Metals, the American Society of Mechanical Engineers and the Institution of Mechanical Engineers. He retained a seat on the Board of his company from his retirement until the end of his life.[br]Principal Honours and DistinctionsManchester Association of Engineers Butterworth Gold Medal 1923. Institution of Mechanical Engineers Thomas Hawksley Gold Medal 1926.BibliographyE.G.Herbert obtained several British and American patents and was the author of many papers, which are listed in T.M.Herbert (ed.), 1939, "The inventions of Edward Geisler Herbert: an autobiographical note", Proceedings of the Institution of Mechanical Engineers 141: 59–67.ASD / RTSBiographical history of technology > Herbert, Edward Geisler
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