-
101 указатель температуры горячего дутья
печь, работающая на горячем дутье — hot-blast furnace
Русско-английский новый политехнический словарь > указатель температуры горячего дутья
-
102 управление клапаном горячего дутья
печь, работающая на горячем дутье — hot-blast furnace
Русско-английский новый политехнический словарь > управление клапаном горячего дутья
-
103 маломощная печь
маломощная печь
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
small-scale furnace
Small enclosed structures containing a heat source, typically used for the purpose of intense heating. Most are lined with refractory material, the heat source is typically provided by electrical elements or the burning of gas, coke or coal. (Source: GRAHAW)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > маломощная печь
-
104 маломощная печь
маломощная печь
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
small-scale furnace
Small enclosed structures containing a heat source, typically used for the purpose of intense heating. Most are lined with refractory material, the heat source is typically provided by electrical elements or the burning of gas, coke or coal. (Source: GRAHAW)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > маломощная печь
-
105 топка
f. heating, furnace, melting -
106 площадь
1) area
2) space
3) square
– бесточная площадь
– водосборная площадь
– жилая площадь
– затененная площадь
– затопленная площадь
– лобовая площадь
– нефтеносная площадь
– облучаемая площадь
– орошаемая площадь
– площадь антенны
– площадь в свету
– площадь вырубки
– площадь застройки
– площадь круга
– площадь неопределенности
– площадь плавания
– площадь поверхности
– полезная площадь
– посевная площадь
– производственная площадь
– смоченная площадь
– сохраняющий площадь
– условная площадь
действующая площадь антенны — effective area of antenna
ометаемая площадь лопасти — blade-swept area
площадь боковой поверхности — lateral area
площадь водного зеркала — water-surface area
площадь входного сечения — inlet area
площадь выходного сечения — discharge area
площадь живого сечения — free area
площадь зеркала горения — firebed surface area
площадь излучающей поверхности — emitting area
площадь несущей поверхности — lifting-surface area
площадь отражения эффективная — <tech.> specular cross section
площадь поверхности горения — burning-surface area
площадь поверхности раздела — interface area
площадь поперечного сечения — cross-section area
площадь рассеяния эффективная — <tech.> cross section of target
площадь сечения колошника — furnace-throat area
площадь эпюры моментов — moment area
площадь эпюры нагрузки — area of force
сохраняющее площадь отображение — equiareal mapping
-
107 выдерживать
•This material will stand the operating conditions.
•The metal forming the hydride should hold up under many cycles of charging and discharging.
•Pure quicklime sustains a temperature of about 2900 К without decomposition.
•These objects must stand up to tremendous impact forces.
•These materials can tolerate (or endure, or stand up to) high heat and rough handling.
•Joints made with these electrodes will withstand bending and stretching operations satisfactorily.
•The material withstands temperatures up to 1260°C without loss of properties.
•Weights up to 500 Ib can be supported on the worktable.
•In an automotive environment, semiconductor chips have to contend with temperatures from -40° to 125°C, high humidity, salt and oil sprays, and vibration.
•Titanium carbide will tolerate (or withstand) wide variations in cutting speed.
•The amplifiers survived the shock very well.
II•The solution was allowed (or left) to stand for 9 hours.
•The catalyst was conditioned for 16 hours under a high vacuum.
•The solution was "aged" for 24hr by standing at room temperature.
•The furnace temperature was lowered and the specimens were held at 850°C for three days for the terminal etching of the grain boundaries.
•The process is accomplished by heating the metal to a high temperature, holding it at this temperature until...
•To season wood...
* * *Выдерживать -- to stand up to, to survive, to endure, to last, to withstand, to tolerate (выживать, не ухудшая своих свойств); to expose, to hold (в определенных условиях); to keep, to hold, to maintain (сохранять)The principal question to be answered was just how well and how long this type of engine would stand up to the marine environment.All these specimens survived a prescribed number of thermal cycles.Specimens lasted 3000 cycles in mercury at stress levels giving 300,000 cycles in air.The maximum shear stress it can withstand is about 40 MPa.The choice of teflon as a coating was based on its ability to tolerate temperatures up to about 290°C.—выдерживать точные допуски наРусско-английский научно-технический словарь переводчика > выдерживать
-
108 вызывать
. благодаря которому происходит; влечь за собой; возбуждать интерес; заставлять; не вызывать изменений; создавать•The X-rays can also bring about (or cause, or elicit) chemical changes in the environment of the chromosomes.
•Bimolecular processes may be responsible for (or cause, or trigger) reactions at such low temperatures.
•Use of scraper units has brought about (or led to, or resulted in, or produced) a change in the stripping procedures.
•Exposure will cause the tubes to swell.
•The unbalance voltage causes a galvanometer to deflect.
•The use of a driving belt could give rise to vibrations.
•The homogeneous para- to orthohydrogen conversion is induced by paramagnetic molecules.
•Certain fungi are responsible for histoplasmosis, a lung infection.
•It is important to know the conditions that bring on a spin (авиа).
•Resonance destabilization will effect a greater decrease in...
•Fertilization of the eggs elicited a pronounced increase of poly().
•The detonator is a device used to initiate the explosion of a high explosive.
•It is not certain what process triggered the initial collapse of the solar nebula.
•Only a little heating above the glass temperature is needed to provoke crystallization.
•Viscosity sets up (or gives rise to) tangential stress at the body surface.
* * *Вызывать -- to cause, to induce, to be responsible for (быть причиной; синоним: приводить к); to produce, to present, to generate, to create (порождать); to prompt, to motivate (стимулировать); to attract (об интересе, критике); to be (как глагол-связка в ряде сочетаний)These deposits and other accumulations in the furnace caused a loss of 12 percent in boiler generating capacity.This difference of less than one point Rockwell C is not expected to induce such a large fatigue life difference.With thermoplastic polymers several mechanisms are responsible for friction and wear.This environment produces the Type II form of hot corrosion attack.— вызваноРусско-английский научно-технический словарь переводчика > вызывать
-
109 выше
•Efficiency is better than 96% at full load.
•If the pressure is above (or higher than, or over) 3 mm,...
•When heating is continued beyond 1403°C the gamma iron changes to delta iron.
••Temperatures upwards of 50 million degrees are required.
II•In the reactions described above (or in the above-described reactions)...
•The coefficients DAB and DAM employed in the foregoing (or above, or previously) are the common mutual diffusion coefficients.
•Water production above a given point on the river...
* * *Выше -- above, beyond, higher, in excess of, plus, upwardsCooling fans and thermocouple reader were timed to switch on and remain so as long as the furnace temperature was above 100oC.As the heat flux increased beyond this value, additional sites became active.The water-cooled combustor operating with preheated air produces combustion gas products at temperatures in excess of 4600° F.We would like to know if you have done or have contemplated doing any higher speed work (e.g. 10,000 plus rpm). (... например, выше 10 000 об/мин)There is no reason why this type of apparatus should not work at 10,000 rpm and upwards.Выше на (15-25%)-- The measured torque of all the arched bearings was 15 to 25 percent higher in every case than that of the conventional bearing.—выше наРусско-английский научно-технический словарь переводчика > выше
-
110 выдерживать
•This material will stand the operating conditions.
•The metal forming the hydride should hold up under many cycles of charging and discharging.
•Pure quicklime sustains a temperature of about 2900 К without decomposition.
•These objects must stand up to tremendous impact forces.
•These materials can tolerate (or endure, or stand up to) high heat and rough handling.
•Joints made with these electrodes will withstand bending and stretching operations satisfactorily.
•The material withstands temperatures up to 1260°C without loss of properties.
•Weights up to 500 Ib can be supported on the worktable.
•In an automotive environment, semiconductor chips have to contend with temperatures from -40° to 125°C, high humidity, salt and oil sprays, and vibration.
•Titanium carbide will tolerate (or withstand) wide variations in cutting speed.
•The amplifiers survived the shock very well.
II•The solution was allowed (or left) to stand for 9 hours.
•The catalyst was conditioned for 16 hours under a high vacuum.
•The solution was "aged" for 24hr by standing at room temperature.
•The furnace temperature was lowered and the specimens were held at 850°C for three days for the terminal etching of the grain boundaries.
•The process is accomplished by heating the metal to a high temperature, holding it at this temperature until...
•To season wood...
Русско-английский научно-технический словарь переводчика > выдерживать
-
111 основной
•Refrigeration and heating require the major portion of the energy.
•We wish to point out a few salient features of this theory.
•General descriptions of the basic (or main, or principal) types of cooling towers have been published.
•Liquid wastes can be divided into two broad classes, sewage and industrial liquid wastes.
•That country is the dominant (or predominant, or chief, or principal, or leading) producer and consumer of this metal.
•The foremost consideration in the design of the furnace is...
•The key step in the production of antibiotics is fermentation.
•The primary purpose is to determine the hardening characteristics.
•The time constant is not a fundamental parameter in the system.
•Some of the essential features of the apparatus are illustrated in Fig. 3.
IIРусско-английский научно-технический словарь переводчика > основной
-
112 печь нагревательная
• печь f нагревательнаяenglish: heating furnacedeutsch: Wärm(e)ofen mfrançais: four m à réchaufferРусско-английский (-немецко, -французский) металлургический словарь > печь нагревательная
-
113 (методическая) печь для нагрева заготовок
Metallurgy: continuous billet-heating furnaceУниверсальный русско-английский словарь > (методическая) печь для нагрева заготовок
-
114 вытаскивать слитки из нагревательной печи или колодца
Универсальный русско-английский словарь > вытаскивать слитки из нагревательной печи или колодца
-
115 вытаскивать слитки, слябы и т.п. из нагревательной печи или колодца
Makarov: draw ingots, slabs (etc.) from a re-heating furnace or a soaking pitУниверсальный русско-английский словарь > вытаскивать слитки, слябы и т.п. из нагревательной печи или колодца
-
116 вытаскивать слябы из нагревательной печи или колодца
Универсальный русско-английский словарь > вытаскивать слябы из нагревательной печи или колодца
-
117 горн для нагрева буров
1) Mining: jackfurnace2) Oil: heating furnaceУниверсальный русско-английский словарь > горн для нагрева буров
-
118 горн для нагрева долот
Oil: heating furnaceУниверсальный русско-английский словарь > горн для нагрева долот
-
119 двухрядная печь непрерывного действия для нагрева пакетов
Engineering: continuous pack-and-pair heating furnaceУниверсальный русско-английский словарь > двухрядная печь непрерывного действия для нагрева пакетов
-
120 камера сгорания
1) Aviation: burner can, burner section, combustor chamber2) Naval: combustion pot, combustion room3) Military: blast chamber, fuel chamber4) Engineering: burner (газовой турбины), combustion chamber, combustion unit, cc (combustion chamber)5) Automobile industry: combustion bowl, combustion space, compression chamber, compression chamber (двигателя), explosion space, hot body7) Metallurgy: combustion well (воздухонагревателя доменной печи)8) Oil: heating chamber, thrust chamber, combustor9) Astronautics: barrel, burner unit, burning system, chamber, combustion device, combustion-chamber assembly, explosion chamber, fire chamber, firing chamber, grain chamber, motor chamber, reaction chamber10) Silicates: firebox11) Atomic energy: ignition chamber12) Automation: combustion chamber (двигателя), combustor (двигателя)13) Sakhalin R: combustor (газовой турбины)15) Cement: combustion solution16) Greenhouse technology: furnace
См. также в других словарях:
Heating — may refer to: *HVAC: Heating, ventilation and air conditioningHeating devices, or systems: *Block heater, or headbolt heater, an electric heater that heats the engine of a car to ease starting in cold weather *Boiler *Cathode heater, a coil or… … Wikipedia
Furnace anneal — Furnace annealing is a process used in semiconductor device fabrication which consist of heating multiple semiconductor wafers in order to affect their electrical properties. Heat treatments are designed for different effects. Wafers can be… … Wikipedia
furnace — [n] heating mechanism boiler, calefactor, cinerator, cremator, forge, Franklin stove, heater, heating system, incinerator, kiln, oil burner, smithy, stove; concept 463 Ant. freezer … New thesaurus
Furnace — For other uses, see Furnace (disambiguation). Industrial Furnace from 1907 A furnace is a device used for heating. The name derives from Latin fornax, oven. In American English and Canadian English, the term furnace on its own is generally used… … Wikipedia
heating — I Process of raising the temperature of an enclosed space. Heat can be delivered by convection, radiation, and thermal conduction. With the exception of the ancient Romans, who developed a form of central heating, most cultures relied on direct… … Universalium
Heating element — A heating element converts electricity into heat through the process of Joule heating. Electric current through the element encounters resistance, resulting in heating of the element. Most heating elements use Nichrome 80/20 (80% nickel, 20%… … Wikipedia
furnace — furnacelike, adj. /ferr nis/, n., v., furnaced, furnacing. n. 1. a structure or apparatus in which heat may be generated, as for heating houses, smelting ores, or producing steam. 2. a place characterized by intense heat: The volcano was a… … Universalium
furnace — I (New American Roget s College Thesaurus) n. See heat. II (Roget s IV) n. Syn. heater, heating system, boiler, hot air furnace, steam furnace, hot water furnace, oil burner, gas furnace, electric furnace, annealing furnace, kiln, reduction… … English dictionary for students
heating plant — noun utility to warm a building the heating system wasn t working they have radiant heating • Syn: ↑heating system, ↑heating, ↑heat • Derivationally related forms: ↑heat ( … Useful english dictionary
Heating equipment — Any equipment designed and/or specifically used for heating ambient air in an enclosed space. Common types of heating equipment include: central warm air furnace, heat pump, plug in or built in room heater, boiler for steam or hot water heating … Energy terms
furnace — noun 1 space where glass or metal is heated ADJECTIVE ▪ blazing, fiery, hot, red hot ▪ glass, steel ▪ arc, blast … Collocations dictionary