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1 temperature-compensation alloy
English-Russian big polytechnic dictionary > temperature-compensation alloy
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2 temperature compensation alloy
Автоматика: сплав для температурной компенсацииУниверсальный англо-русский словарь > temperature compensation alloy
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3 temperature-compensation alloy
Электроника: сплав для температурной компенсацииУниверсальный англо-русский словарь > temperature-compensation alloy
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4 temperature compensation alloy
English-Russian dictionary of mechanical engineering and automation > temperature compensation alloy
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5 alloy
1) сплав || сплавлять2) легирующий элемент || легировать•- abrasion-resisting alloy
- acid-resistant alloy
- addition alloy
- age-hardening alloy
- aging alloy
- air-hardening alloy
- air-melted alloy
- alkali metal alloy
- alkaline earth alloy
- alkaline earth metal-aluminum alloy
- alkali-resistant alloy
- alkali-resisting alloy
- all-alpha alloy
- all-beta alloy
- alpha alloy
- alpha iron alloy
- alpha+beta alloy
- alpha-beta alloy
- alpha-phase alloy
- alpha-titanium alloy
- aluminum alloy of iron
- aluminum alloy
- aluminum casting alloy
- aluminum piston alloy
- aluminum-base alloy
- aluminum-bearing alloy
- aluminum-copper alloy
- aluminum-copper-magnesium alloy
- aluminum-copper-magnesium-nickel alloy
- aluminum-copper-silicon alloy
- aluminum-copper-silicon-magnesium alloy
- aluminum-magnesium alloy
- aluminum-magnesium-silicon alloy
- aluminum-manganese alloy
- aluminum-manganese-magnesium alloy
- aluminum-nickel-iron alloy
- aluminum-silicon alloy
- aluminum-zinc-silicon alloy
- anticorrosion alloy
- antifriction alloy
- as-cast alloy
- austenitic alloy
- barium-aluminum alloy
- bearing alloy
- beryllium alloy of iron
- beryllium-copper alloy
- beryllium-copper-aluminum alloy
- beta alloy
- beta-phase alloy
- beta-titanium alloy
- binary alloy
- bismuth alloy
- body-centered cubic alloy
- boron-bearing alloy
- brass brazing alloy
- brazing alloy
- cadmium alloy
- cadmium-nickel alloy
- cadmium-silver alloy
- carbide-strengthened alloy
- carbon-bearing alloy
- carbon-free alloy
- cast alloy
- castable alloy
- casting alloy
- chrome alloy
- chrome-base alloy
- chrome-bearing alloy
- chrome-nickel alloy
- chromium-nickel-tungsten alloy
- chromium-rich alloy
- chromium-tantalum alloy
- chromium-titanium alloy
- chromium-tungsten-zirconium alloy
- chromium-yttrium alloy
- close-packed alloy
- cobalt alloy
- cobalt-base alloy
- cobalt-bearing alloy
- cobalt-chromium alloy
- cobalt-chromium-nickel alloy
- cobalt-chromium-tungsten-molybdenum alloy
- coinage alloy
- columbium alloy
- columbium-base alloy
- columbium-molybdenum-titanium alloy
- column's alloys
- commercial alloy
- complex alloy
- constant-modulus alloy
- constructional alloy
- controlled-expansion alloy
- copper alloy
- copper-base alloy
- copper-bearing alloy
- copper-free alloy
- copper-gold alloy
- copper-lead alloy
- copper-silver alloy
- copper-tin alloy
- copper-zinc alloy
- corrosion-resistant alloy
- corrosion-resisting alloy
- creep-resistant alloy
- cupronickel alloy
- die-casting alloy
- difficult-to-extrude alloy
- dilute alloy
- disordered alloy
- dispersion-hardened alloy
- dispersion-strengthened alloy
- ductile alloy
- duplex alloy
- electrically conductive alloy
- electrically superconducting alloy
- electrical-resistance alloy
- electrical-resistant alloy
- embrittlement-resistant alloy
- eutectic alloy
- eutectoid alloy
- extra-hard alloy
- extrahigh tensile alloy
- face-centered cubic alloy
- ferrite alloy
- ferromagnetic alloy
- ferrous alloy
- fine-grained alloy
- forging alloy
- foundry alloy
- four-component alloy
- four-part alloy
- free-cutting alloy
- free-machining alloy
- fusible alloy
- G.-P. zone alloy
- gamma-iron alloy
- gamma-phase alloy
- gold-base alloy
- graphitized alloy
- Guthrie's alloy
- hard alloy
- hard magnetic alloy
- hard superconducting alloy
- hard-facing alloy
- heat-resistant alloy
- heat-resisting alloy
- heat-sensitive alloy
- heat-treatable alloy
- heat-treated alloy
- heavy alloy
- heterogeneous alloy
- Heusler alloy
- hexagonal alloy
- high alloy
- high-carbon alloy
- high-chrome alloy
- high-cobalt alloy
- high-coercivity alloy
- high-damping alloy
- high-density alloy
- high-ductile alloy
- high-expansion alloy
- high-initial-permeability alloy
- high-melting alloy
- high-melting point alloy
- high-melting-temperature alloy
- high-nickel alloy
- high-permeability alloy
- high-resistance alloy
- high-strength alloy
- high-temperature alloy
- high-tensile alloy
- high-yield alloy
- homogeneous alloy
- homogenized alloy
- hot-strength alloy
- hypereutectic alloy
- hypereutectoid alloy
- hypoeutectic alloy
- hypoeutectoid alloy
- ignition alloy
- industrial alloy
- intermediate-strength alloy
- intermetallic alloy
- internally oxidized alloy
- iron alloy
- iron-aluminum-nickel alloy
- iron-bearing alloy
- iron-carbon alloy
- iron-chrome alloy
- iron-chromium-aluminum alloy
- iron-chromium-nickel alloy
- iron-cobalt alloy
- iron-cobalt-molybdenum alloy
- iron-cobalt-nickel alloy
- iron-cobalt-tungsten alloy
- iron-manganese alloy
- iron-nickel alloy
- iron-nickel-aluminum alloy
- iron-nickel-chromium alloy
- iron-nickel-cobalt alloy
- jet alloy
- lead alloy
- lead-antimony alloy
- lead-antimony-tin alloy
- lead-base alloy
- lead-bearing alloy
- lead-bismuth alloy
- lead-calcium alloy
- lead-tin alloy
- lean alloy
- Lichtenberg's alloy
- light alloy
- low alloy
- low-carbon alloy
- low-chrome alloy
- low-density alloy
- low-ductile alloy
- low-expansion alloy
- low-melting alloy
- low-nickel alloy
- low-permeability alloy
- low-quality alloy
- low-resistance alloy
- low-strength alloy
- low-temperature alloy
- low-tensile alloy
- low-yield alloy
- magnesium alloy
- magnesium-aluminum alloy
- magnesium-aluminum-zinc alloy
- magnesium-bearing alloy
- magnesium-manganese alloy
- magnesium-manganese-thorium alloy
- magnesium-thorium-zirconium alloy
- magnesium-zinc-zirconium alloy
- magnetic alloy
- magnetically hard alloy
- magnetically soft alloy
- master alloy
- medium alloy
- medium-carbon alloy
- medium-chrome alloy
- medium-nickel alloy
- medium-strength alloy
- memory alloy
- Mishima alloy
- molybdenum-titanium alloy
- multilayer brazing alloy
- multiphase alloy
- natural aging alloy
- nickel alloy
- nickel aluminide alloy
- nickel-base alloy
- nickel-based alloy
- nickel-cadmium alloy
- nickel-chrome-molybdenum alloy
- nickel-chromium alloy
- nickel-cobalt alloy
- nickel-copper alloy
- nickel-iron alloy
- nickel-molybdenum alloy
- nickel-molybdenum-iron alloy
- nickel-rich alloy
- nickel-silicon alloy
- noble metal alloy
- no-coolant alloy
- nonaging alloy
- noncorrosive alloy
- nonferrous metal alloy
- non-heat-treatable alloy
- nonmagnetic alloy
- nonordered alloy
- nonoxidizable alloy
- nonscaling alloy
- nonsparking alloy
- one-phase alloy
- ordered alloy
- oxidation-resistant alloy
- oxidation-resisting alloy
- palladium-silver alloy
- peritectic alloy
- peritectoid alloy
- permanent-magnet alloy
- phosphorous-copper alloy
- piston alloy
- plating alloy
- platinum alloy
- platinum-cobalt alloy
- platinum-metal alloy
- platinum-rhodium alloy
- plural-phase alloy
- polyphase alloy
- powder metallurgical alloy
- powder-brazing alloy
- precipitation hardening alloy
- preferred-orientation alloy
- preformed brazing alloy
- preliminary alloy
- process alloy
- pyrophoric alloy
- quasi-binary alloy
- quasi-eutectic alloy
- quasi-eutectoid alloy
- quaternary alloy
- quinary alloy
- random alloy
- random-orientation alloy
- rare-earth alloy
- rare-earth metal master alloy
- reduction alloy
- refractory alloy
- resistance alloy
- rich alloy
- Rose's alloy
- ruthenium-palladium alloy
- sand-cast alloy
- scale-resisting alloy
- self-fluxing brazing alloy
- semicommercial alloy
- semiconducting alloy
- shape memory alloy
- sheet alloy
- silicon alloy
- silicon-aluminum alloy
- silver brazing alloy
- single-phase alloy
- sintered alloy
- sintered hard alloy
- soft-magnetic alloy
- solder alloy
- solid solution alloy
- solution-treated alloy
- sparking alloy
- spelter-brazing alloy
- spring alloy
- stable alloy
- steam corrosion-resistant alloy
- steel alloy
- strain-hardened alloy
- structural alloy
- substitute alloy
- substitutional alloy
- superconducting alloy
- superconductive alloy
- superconductor alloy
- supercooled alloy
- superhard alloy
- superplastic alloy
- supersaturated alloy
- supersaturated substitutional alloy
- tailored alloy
- tantalum alloy of iron
- tantalum alloy
- tantalum-base alloy
- tantalum-tungsten alloy
- temperature compensation alloy
- ternary alloy
- thallium-lead alloy
- thermomagnetic alloy
- three-component alloy
- three-part alloy
- three-phase alloy
- tin-base alloy
- tin-bearing alloy
- titanium alloy
- titanium-aluminum-manganese alloy
- titanium-aluminum-molybdenum alloy
- titanium-aluminum-tin alloy
- titanium-aluminum-vanadium alloy
- titanium-base alloy
- tough alloy
- transition alloy
- tungsten alloy
- two-component alloy
- two-phase alloy
- type-metal alloy
- unsaturated alloy
- untarnishable alloy
- vacuum alloy
- vacuum annealed alloy
- vacuum-arc-refining alloy
- vacuum-induction-melting alloy
- vacuum-remelted alloy
- virgin alloy
- wear-resistant alloy
- wear-resisting alloy
- welding alloy
- Wood's alloy
- work-hardening alloy
- wrought alloy
- zinc alloy
- zinc-aluminum alloy
- zinc-base alloy
- zinc-bearing alloy
- zinc-copper alloy
- zirconium alloy of ironEnglish-Russian dictionary of mechanical engineering and automation > alloy
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6 temperature
- aerial temperature
- alloy-diffusion temperature
- ambient temperature
- antenna noise temperature
- antiferromagnetic Néel temperature
- asymptotic Curie temperature
- background temperature
- blocking temperature
- brightness temperature
- carrier temperature
- case temperature
- cold-load temperature
- color temperature
- compensation temperature
- critical temperature
- cryogenic temperature
- Curie temperature
- decalescent temperature
- dew temperature
- distribution temperature
- effective input noise temperature
- electron temperature
- environment temperature
- equivalent noise temperature
- excess noise temperature
- flash temperature
- freezing temperature
- full-radiator temperature
- glass temperature
- growth temperature
- hole temperature
- hot-load temperature
- ice temperature
- ion temperature
- ionospheric temperature
- isotropic transition temperature
- junction temperature
- lattice temperature
- lower-air temperature
- lower-atmosphere temperature
- luminance temperature
- magnetic-ordering temperature
- magnetic-transition temperature
- meltback temperature
- melting freezing temperature
- Morin temperature
- Néel temperature
- network noise temperature
- noise temperature
- phase-transition temperature
- photometric standard color temperature
- radiance temperature
- relative noise temperature
- room temperature
- saturation temperature
- silver temperature
- sky temperature
- spin temperature of transition
- standard noise temperature
- steady-state temperature
- steam temperature
- storage temperature
- substrate temperature
- superconductor critical temperature
- thermodynamic temperature
- transformation temperature
- upper-air temperature
- upper-atmosphere temperature -
7 сплав для температурной компенсации
Русско-английский словарь по микроэлектронике > сплав для температурной компенсации
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8 сплав для температурной компенсации
Русско-английский словарь по электроэнергетике > сплав для температурной компенсации
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9 сплав для температурной компенсации
Русско-английский научный словарь > сплав для температурной компенсации
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10 сплав для температурной компенсации
1) Electronics: temperature-compensation alloy2) Automation: temperature compensation alloyУниверсальный русско-английский словарь > сплав для температурной компенсации
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11 Guillaume, Charles-Edouard
[br]b. 15 February 1861 Fleurier, Switzerlandd. 13 June 1938 Sèvres, France[br]Swiss physicist who developed two alloys, "invar" and "elinvar", used for the temperature compensation of clocks and watches.[br]Guillaume came from a family of clock-and watchmakers. He was educated at the Gymnasium in Neuchâtel and at Zurich Polytechnic, from which he received his doctorate in 1883 for a thesis on electrolytic capacitors. In the same year he joined the International Bureau of Weights and Measures at Sèvres in France, where he was to spend the rest of his working life. He retired as Director in 1936. At the bureau he was involved in distributing the national standards of the metre to countries subscribing to the General Conference on Weights and Measures that had been held in 1889. This made him aware of the crucial effect of thermal expansion on the lengths of the standards and he was prompted to look for alternative materials that would be less costly than the platinum alloys which had been used. While studying nickel steels he made the surprising discovery that the thermal expansion of certain alloy compositions was less than that of the constituent metals. This led to the development of a steel containing about 36 per cent nickel that had a very low thermal coefficient of expansion. This alloy was subsequently named "invar", an abbreviation of invariable. It was well known that changes in temperature affected the timekeeping of clocks by altering the length of the pendulum, and various attempts had been made to overcome this defect, most notably the mercury-compensated pendulum of Graham and the gridiron pendulum of Harrison. However, an invar pendulum offered a simpler and more effective method of temperature compensation and was used almost exclusively for pendulum clocks of the highest precision.Changes in temperature can also affect the timekeeping of watches and chronometers, but this is due mainly to changes in the elasticity or stiffness of the balance spring rather than to changes in the size of the balance itself. To compensate for this effect Guillaume developed another more complex nickel alloy, "elinvar" (elasticity invariable), whose elasticity remained almost constant with changes in temperature. This had two practical consequences: the construction of watches could be simplified (by using monometallic balances) and more accurate chronometers could be made.[br]Principal Honours and DistinctionsNobel Prize for Physics 1920. Corresponding member of the Académie des Sciences. Grand Officier de la Légion d'honneur 1937. Physical Society Duddell Medal 1928. British Horological Institute Gold Medal 1930.Bibliography1897, "Sur la dilation des aciers au nickel", Comptes rendus hebdomadaires des séances de l'Académie des sciences 124:176.1903, "Variations du module d"élasticité des aciers au nickel', Comptes rendushebdomadaires des séances de l'Académie des sciences 136:498."Les aciers au nickel et leurs applications à l'horlogerie", in J.Grossmann, Horlogerie théorique, Paris, Vol. II, pp. 361–414 (describes the application of invar and elinvar to horology).Sir Richard Glazebrook (ed.), 1923 "Invar and Elinvar", Dictionary of Applied Physics, 5 vols, London, Vol. V, pp. 320–7 (a succinct account in English).Further ReadingR.M.Hawthorne, 1989, Nobel Prize Winners, Physics, 1901–1937, ed. F.N.Magill, Pasadena, Salem Press, pp. 244–51.See also: Le Roy, PierreDVBiographical history of technology > Guillaume, Charles-Edouard
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12 low
См. также в других словарях:
temperature-compensation alloy — temperatūrinio kompensavimo lydinys statusas T sritis radioelektronika atitikmenys: angl. temperature compensation alloy vok. Temperaturausgleichlegierung, f rus. сплав для температурной компенсации, m pranc. alliage pour compensation en… … Radioelektronikos terminų žodynas
alliage pour compensation en température — temperatūrinio kompensavimo lydinys statusas T sritis radioelektronika atitikmenys: angl. temperature compensation alloy vok. Temperaturausgleichlegierung, f rus. сплав для температурной компенсации, m pranc. alliage pour compensation en… … Radioelektronikos terminų žodynas
Temperaturausgleichlegierung — temperatūrinio kompensavimo lydinys statusas T sritis radioelektronika atitikmenys: angl. temperature compensation alloy vok. Temperaturausgleichlegierung, f rus. сплав для температурной компенсации, m pranc. alliage pour compensation en… … Radioelektronikos terminų žodynas
temperatūrinio kompensavimo lydinys — statusas T sritis radioelektronika atitikmenys: angl. temperature compensation alloy vok. Temperaturausgleichlegierung, f rus. сплав для температурной компенсации, m pranc. alliage pour compensation en température, m … Radioelektronikos terminų žodynas
сплав для температурной компенсации — temperatūrinio kompensavimo lydinys statusas T sritis radioelektronika atitikmenys: angl. temperature compensation alloy vok. Temperaturausgleichlegierung, f rus. сплав для температурной компенсации, m pranc. alliage pour compensation en… … Radioelektronikos terminų žodynas
Balance wheel — in a cheap 1950s alarm clock, the Apollo, by Lux Mfg. Co. showing the balance spring (1) and regulator (2) … Wikipedia
Strain gauge — Typical foil strain gauge. The gauge is far more sensitive to strain in the vertical direction than in the horizontal direction. The markings outside the active area help to align the gauge during installation. A strain gauge (also strain gage)… … Wikipedia
Constantan — is a copper nickel alloy usually consisting of 55% copper and 45% nickel.[1] Also known as Eureka. Its main feature is its resistivity which is constant over a wide range of temperatures. Other alloys with similarly low temperature coefficients… … Wikipedia
Pendulum — This article is about pendulums. For other uses, see Pendulum (disambiguation). Simple gravity pendulum model assumes no friction or air resistance … Wikipedia
Mechanical filter — Figure 1. A mechanical filter made by the Kokusai Electric Company intended for selecting the narrow 2 kHz bandwidth signals in SSB radio receivers. It operates at 455 kHz, a common IF for these receivers, and is dimensioned 45×15×15 mm ( … Wikipedia
Balance spring — A balance spring, or hairspring, is a fine spiral or helical spring used in mechanical watches, marine chronometers, and other timekeeping mechanisms to control the rate of vibration of the balance wheel. A balance spring usually has a regulator… … Wikipedia
