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1 несущая поверхность
carrying surface мат., lifting surface, mounting surface, bearing surface, supporting surfaceРусско-английский научно-технический словарь Масловского > несущая поверхность
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2 несущая поверхность
1) General subject: plane2) Aviation: lifting plane, lifting surface area, supporting area, lift surface3) Naval: lifting surface4) Engineering: aerofoil, airfoil, carrying area, load-bearing face, supporting surface5) Agriculture: lower surface (почвогрунта)6) Construction: wearing surface7) Mathematics: carrying surface8) Physics: currying area9) Oil: bearing surface, supporting suppression10) Astronautics: carrying plane11) Mechanics: bearing area12) Automation: abutment surface, bearing, bearing (surface) area, bearing face, mounting surface, resting surface, support surface13) Stratified plastics: earner surface14) Arms production: aerodynamic lifting surface15) Makarov: aerodynamic surface, aerofoil plane (напр. крыла, оперения), base surface, bearing surface (почвогрунта), bearing surface area, lifting surface (аэро), seating surface16) NATO: aerofoil surfaceУниверсальный русско-английский словарь > несущая поверхность
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3 несущая поверхность
Русско-английский словарь нормативно-технической терминологии > несущая поверхность
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4 грузонесущий орган
Engineering: carrying surface (конвейера), load-carrying surface (конвейера)Универсальный русско-английский словарь > грузонесущий орган
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5 опорная поверхность
bearing surface, load carrying surface, supporting surface -
6 несущая поверхность
bearing surface, carrying surface, supporting surfaceРусско-английский словарь по электронике > несущая поверхность
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7 опорная поверхность
(напр. корпуса ИС) pad, base plane, footprint, land pattern, seat, bearing surface, carrying surface, supporting surfaceРусско-английский словарь по электронике > опорная поверхность
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8 несущая поверхность
bearing surface, carrying surface, supporting surfaceРусско-английский словарь по радиоэлектронике > несущая поверхность
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9 опорная поверхность
(напр. корпуса ИС) footprint, pad, land pattern, base plane, seat, bearing surface, carrying surface, supporting surfaceРусско-английский словарь по радиоэлектронике > опорная поверхность
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10 несущая поверхность
•The carrying surface of the belt.
Русско-английский научно-технический словарь переводчика > несущая поверхность
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11 красковоспринимающая поверхность
Makarov: ink-carrying surfaceУниверсальный русско-английский словарь > красковоспринимающая поверхность
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12 красконесущая поверхность
Makarov: ink-carrying surfaceУниверсальный русско-английский словарь > красконесущая поверхность
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13 орган
authority, ( станка) element, organ* * *о́рган м.
member, elementгрузонесу́щий о́рган ( конвейера) — (load-)carrying surfaceдро́ссельный о́рган — constrictor, restrictor, pressure-difference [p.d.] deviceзаде́лывающий о́рган с.-х. — covering deviceисполни́тельный о́рган автмт. — actuatorо́рган настро́йки радио — tuning controlо́рган подстро́йки частоты́ строк тлв. — horizontal hold controlрабо́чий о́рган с.-х. — toolрабо́чий о́рган землеро́йной маши́ны — excavating part of an earth-moving machineрегулиро́вочный о́рган — controlрегули́рующий о́рган — final control elementо́рган реле́, блоки́рующий — blocking elementо́рган реле́ (вы́держки) вре́мени — timing elementо́рган реле́ направле́ния мо́щности — directional elementо́рган реле́, пусково́й — starting elementо́рган сравне́ния — comparison elementо́рган управле́ния — (operating) controlо́рган управле́ния, аэродинами́ческий — aerodynamic controlо́рган управле́ния дви́гателем — engine controlо́рган управле́ния, стру́йный — control jet -
14 орган
м. member, element -
15 несущая поверхность
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16 площадь несущей поверхности
carrying area, lifting-surface area, supporting areaРусско-английский исловарь по машиностроению и автоматизации производства > площадь несущей поверхности
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17 длительный допустимый ток
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Русско-английский словарь нормативно-технической терминологии > длительный допустимый ток
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18 допустимый длительный ток кабеля (провода)
- current-carrying capacity of the cable
- current carrying capacity of the conductors
- current carrying capacity of the cable
- current carrying capacity
- ampere capacity
допустимый длительный ток кабеля (провода)
-
[Интент]
допустимый длительный ток (проводника)
Максимальный электрический ток, который проводник способен проводить в продолжительном режиме без превышения его установившейся температурой определённого значения.
Допустимый длительный ток является одной из основных характеристик проводника. Он представляет собой максимальный электрический ток, который проводник может проводить длительно (неделями, месяцами, годами) не перегреваясь. Значение допустимого длительного тока зависит от сечения проводника, материалов из которых выполнены проводник и его изоляция, способов монтажа проводника в электроустановке здания. Допустимый длительный ток проводника фактически является его номинальным током. В электроустановках зданий выполняют защиту проводников от сверхтоков, протекание которых по проводникам сопровождается их перегревом.
[ http://www.volt-m.ru/glossary/letter/%C4/view/11/]EN
current carrying capacity
maximum current a cable circuit (one or several conductors) can support resulting in a specified increase of the surface temperature of the conductor beyond the ambient temperature, not exceeding the maximum allowed operating temperature of the cable
[IEC 61156-1, ed. 3.0 (2007-06< size="2">)]FR
courant maximal admissible
courant maximal qu’un circuit de câble (un ou plusieurs conducteurs) peut supporter avec une augmentation spécifiée de la température de surface du conducteur au delà de la température ambiante, et ne dépassant pas la température maximale de fonctionnement autorisée du câble
[IEC 61156-1, ed. 3.0 (2007-06< size="2">)]Номинальный ток устройств защиты от короткого замыкания может превышать допустимый длительный ток кабеля.
[ ГОСТ Р 50571. 5-94 ( МЭК 364-4-43-77)]Допустимые длительные токи для проводов и кабелей, проложенных в коробах, а также в лотках пучками, должны приниматься...
[ПУЭ]Тематики
- кабели, провода...
- электроустановки
EN
- ampere capacity
- current carrying capacity
- current carrying capacity of the cable
- current carrying capacity of the conductors
- current-carrying capacity of the cable
FR
Русско-английский словарь нормативно-технической терминологии > допустимый длительный ток кабеля (провода)
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19 длительный допустимый ток
- Strombelastbarkeit, f
- Dauerstrombelastbarkeit, f
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Русско-немецкий словарь нормативно-технической терминологии > длительный допустимый ток
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20 длительный допустимый ток
- courant permanent admissible, m
- courant admissible, m
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Русско-французский словарь нормативно-технической терминологии > длительный допустимый ток
См. также в других словарях:
Surface — Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the earth; the … The Collaborative International Dictionary of English
Surface condensation — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Surface condenser — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Surface gauge — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Surface grub — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Surface plate — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Surface printing — Surface Sur face , n. [F. See {Sur }, and {Face}, and cf. {Superficial}.] 1. The exterior part of anything that has length and breadth; one of the limits that bound a solid, esp. the upper face; superficies; the outside; as, the surface of the… … The Collaborative International Dictionary of English
Ink-carrying surface — Красконесущая поверхность, красковоспринимающая поверхность … Краткий толковый словарь по полиграфии
Surface runoff — Runoff flowing into a stormwater drain Surface runoff is the water flow that occurs when soil is infiltrated to full capacity and excess water from rain, meltwater, or other sources flows over the land. This is a major component of the water… … Wikipedia
Surface Transportation Board — The Surface Transportation Board [1] of the United States is a bipartisan, decisionally independent adjudicatory body organizationally housed within the U.S. Department of Transportation. The STB was established in 1996 to assume some of the… … Wikipedia
surface deed — A deed designed to convey the surface of the land alone, not carrying the minerals below the surface. 36 Am J1st Min & M § 31. A matter of reservation or exception of mineral rights. 24 Am J1st Gas & O § 29 … Ballentine's law dictionary