-
1 increase in conductivity
increase in conductivity Zunahme f der LeitfähigkeitEnglish-German dictionary of Electrical Engineering and Electronics > increase in conductivity
-
2 вносить вклад в
•Once trapped, the carrier will be unable to contribute (or make a contribution) to (or increase) the conductivity of the material.
•Thus the width of the region contributing to lasing is uncontrolled.
* * *Вносить вклад в -- to make a contribution to; to contributeHe took some satisfaction from the contributions which a "pure mathematician" was able to make to engineering science.Русско-английский научно-технический словарь переводчика > вносить вклад в
-
3 вносить вклад в
•Once trapped, the carrier will be unable to contribute (or make a contribution) to (or increase) the conductivity of the material.
•Thus the width of the region contributing to lasing is uncontrolled.
Русско-английский научно-технический словарь переводчика > вносить вклад в
-
4 Zunahme der Leitfähigkeit
Deutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > Zunahme der Leitfähigkeit
-
5 объясняться
•The higher density of Jupiter is due to its larger mass.
•This fact owes to the объясняться 100 ns effective time constant for...
•The usefulness of this gypsum depends upon the fact that it hardens slowly.
•The wheel wear was due to attrition of the grits.
•The value of asbestos ensues from (or arises out of) the incombustible nature of the products fabricated from...
•This is explicable on the basis of imperfect chemical separation.
•This increase results from (or is caused by, or stems from, or is due to, or arises from, or is brought about by, or is explained by, or is associated with) the rise of prices.
•These metals owe their electrical conductivity to the fact that...
•The superior high-temperature performance of the cast alloys is attributable to the high carbon content and...
•This capability flows from the use of parallel computation.
Русско-английский научно-технический словарь переводчика > объясняться
-
6 объясняться
Объясняться (увеличением)-- The force deficit thickness is less than the tip clearance in some cases and the explanation lies with the increase in the force on the blades produced by the flow through the gap. Объясняться - to be explained by, to be attributed to, to arise because of, to be understandable in terms of, to be explicable on the basis of, to account forWe believe this is explained by the accumulation of bubbles suspended in the relatively viscous oil of the pool.The yield strength of high speed steel is attributed to two strengthening mechanisms.The main difficulty in applying equation (...) to predict void fraction in bubble columns arises because of the absence of an analytic description of the variation of A with r which is needed to fit available steam-water data.This effect is understandable in terms of the reduced effective thermal conductivity of the He II, which results from pressurization.A survey of the causes of forced outages of industrial units over a seven year period revealed that turbine deposits accounted for 25 percent of all turbine-generator forced outage time. (... что 25% всех вынужденных простоев турбогенераторов объясняется отложениями в турбине)Русско-английский научно-технический словарь переводчика > объясняться
-
7 coefficient
- accumulation coefficient
- adhesion coefficient
- adsorption coefficient
- air permeability coefficient
- amplification coefficient
- angular coefficient
- attenuation coefficient
- average gain coefficient
- backward scattering coefficient
- bending-moment coefficient
- bending-stiffness coefficient
- block coefficient
- center distance modification coefficient
- coefficient of absorption
- coefficient of amplification
- coefficient of collar friction
- coefficient of compressibility
- coefficient of contact friction
- coefficient of correction
- coefficient of corrosion
- coefficient of discharge
- coefficient of dynamic stiffness
- coefficient of efficiency
- coefficient of elasticity
- coefficient of engagement
- coefficient of expansion
- coefficient of friction
- coefficient of hardness
- coefficient of heat conduction
- coefficient of heat conductivity
- coefficient of heat passage
- coefficient of heat transfer
- coefficient of heat transmission
- coefficient of impact
- coefficient of increase of the average output velocity
- coefficient of journal friction
- coefficient of kinetic friction
- coefficient of leakage
- coefficient of lift
- coefficient of linear expansion
- coefficient of load
- coefficient of mechanical efficiency
- coefficient of merit
- coefficient of mutual overlap
- coefficient of nonuniformity of motion
- coefficient of reduction
- coefficient of resistance
- coefficient of restitution
- coefficient of rigidity
- coefficient of starting friction
- coefficient of static friction
- coefficient of superficial expansion
- coefficient of thermal efficiency
- coefficient of tooth friction
- coefficient of utilization
- coefficient of velocity
- coefficient of volume expansion
- coefficient of volumetric expansibility
- compliance coefficient
- compression coefficient
- compressive-buckling coefficient
- confidence coefficient
- control action coefficient
- control coefficient
- correlation coefficient
- coupling coefficient
- critical stress coefficient
- damping coefficient
- decay coefficient
- deflection coefficient
- dielectric coefficient
- dimensionless coefficient
- discharge coefficient
- distortion coefficient
- distribution coefficient
- elastic coefficient
- energy absorption coefficient
- energy transfer coefficient
- expansion coefficient
- extinction coefficient
- feedback coefficient
- flow coefficient
- force coefficient
- friction coefficient
- fusion coefficient
- gain coefficient
- general gain coefficient
- heat transfer coefficient
- heat transmission coefficient
- heat-conduction coefficient
- hydrodynamic loss coefficient
- inertial coefficient
- influence coefficient
- interference coefficient
- internal damping coefficient
- interpolation coefficient
- ionization gage coefficient
- irregularity coefficient
- kinematic coefficient
- lag coefficient
- literal coefficient
- loss coefficient
- magnetic coefficient
- modification coefficient
- nondimensional coefficient
- numerical coefficient
- overall coefficient
- overall heat transfer coefficient
- overall steady-flow coefficient
- pairwise similarity coefficient
- periodical coefficient
- pipe resistance coefficient
- position error coefficient
- power loading coefficient
- pressure coefficient
- pressure-drop coefficient
- profile drag coefficient
- profile shift coefficient
- proportional action coefficient
- pulsation coefficient
- recalculation coefficient
- reduced heat transmission coefficient
- reduction coefficient
- reflection coefficient
- relative improvement coefficient
- reliability coefficient
- reset coefficient
- restoring coefficient
- roughness coefficient
- safety coefficient
- SAW coupling coefficient
- scale coefficient
- serial expansion coefficient
- shear stiffness coefficient
- shifting coefficient
- similarity coefficient
- slip coefficient
- specific utilization coefficient
- speed coefficient
- surface heat exchange coefficient
- temperature coefficient of resistivity
- temperature coefficient
- temperature diffusivity coefficient of the material
- thermal expansion coefficient
- thermal storage capacity coefficient of the material
- total heat transfer coefficient
- traction coefficient
- transfer-function coefficient
- transmission coefficient
- trial coefficient
- utilization coefficient
- vapor permeability coefficient of the material
- variable coefficient
- velocity error coefficient
- volume coefficient
- weighting coefficientEnglish-Russian dictionary of mechanical engineering and automation > coefficient
См. также в других словарях:
Conductivity (electrolytic) — The conductivity (or specific conductance) of an electrolyte solution is a measure of its ability to conduct electricity. The SI unit of conductivity is siemens per meter (S/m). Conductivity measurements are used routinely in many industrial and… … Wikipedia
Classical and quantum conductivity — Classical and quantum mechanical views of conductivity have both described the movements of electrons in a metallic solid. The free electron gas that is present in metallic solids is the reason for an important property of all metals:… … Wikipedia
Electrical resistivity and conductivity — This article is about electrical conductivity in general. For the specific conductance of aqueous solutions, see Conductivity (electrolytic). For other types of conductivity, see Conductivity. Electrical resistivity (also known as resistivity,… … Wikipedia
Hydraulic conductivity — Hydraulic conductivity, symbolically represented as K, is a property of vascular plants, soil or rock, that describes the ease with which water can move through pore spaces or fractures. It depends on the intrinsic permeability of the material… … Wikipedia
Bresle method — The Bresle method is a method used to determine the concentration on soluble salts on surfaces prior to coating applications. These salts can cause serious adhesion problems after time. The Bresle method is the industry s standard for determining … Wikipedia
Silver — This article is about the chemical element. For the color, see Silver (color). For other uses, see Silver (disambiguation). palladium ← silver → cadmium … Wikipedia
Semiconductor — Citations missing|date=March 2008A semiconductor is a solid material that has electrical conductivity in between a conductor and an insulator; it can vary over that wide range either permanently or dynamically. [. They are used in many… … Wikipedia
Soil — For other uses, see Soil (disambiguation). A represents soil; B represents laterite, a regolith; C represents saprolite, a less weathered regolith; the bottommost layer represents bedrock … Wikipedia
Oxygen-free copper — The CuOFP capsule used as overpack for spent nuclear fuel disposal in the KBS 3 concept (Finnish version) Oxygen free copper (OFC) or Oxygen free high thermal conductivity (OFHC) copper generally refers to a group of wrought high conductivity… … Wikipedia
Phase Change Material — A phase change material (PCM) is a substance with a high heat of fusion which, melting and solidifying at a certain temperature, is capable of storing and releasing large amounts of energy. Heat is absorbed or released when the material changes… … Wikipedia
Alcohol fuel — Although fossil fuels have become the dominant energy resource for the modern world, alcohol has been used as a fuel throughout history. The first four aliphatic alcohols (methanol, ethanol, propanol, and butanol) are of interest as fuels because … Wikipedia