1) dissipation of heat
散热,热耗
2) Thermal dissipation
热耗散
1.
In order to study the thermal dissipation, the temperature change during low cycle fatigue was measured by a kind of small thermistor.
低周疲劳过程的非弹性响应反映了机械能耗的规律 ,而热响应则能够表征疲劳过程的热耗散规律。
2.
An advanced infrared camera was also used to record specimen temperatures, results show temperature evolution of fatigue specimen depends on the material type and loading level, the temperature increased sharply just at the beginning of the test, which is correspondent to the thermal dissipation in the specimen.
试样温度的快速升高发生在超声疲劳试验的初期,温度的变化反映了材料内部的热耗散过程。
3) heat loss
热耗散
1.
The affects of crystal absorption for heat radiation on crystal growth,which include:the heat loss of the hot grower,the chara cteristic of temperature time of crystal growth,the pattern of fluid flow and the shape of interface,the interface inversion of crystal,the temperature distribution and the thermal stress distribution,are reviewed in this paper.
本文综述了晶体对熔体热辐射吸收对晶体生长的影响,包括对热腔热耗散的影响;对晶体生长温度时间特性的影响;对液流形态和固液界面形状的影响;对晶体界面反转的影响;对晶体中温度分布和应力分布的影响。
4) Thermoelastic dissipation
热弹耗散
5) heat dissipation
热耗散
1.
In this paper,we discuss the relation between information erasure and heat dissipation in quantum memory.
讨论量子寄存器中信息擦除与散热的关系,发现量子态擦除的不可逆性将会导致量子寄存器的热耗散。
2.
Furthermore, heat dissipation of resistor could be calculated on basis of given way in the paper, and then the value were modified according to some ripe manufacture.
阐述了电阻器设计的基本原则 ,提出根据给定的电阻允差 ,求出电阻的偏差值 ,再根据偏差值及材料尺寸偏差 ,得出材料的加工偏差的方法 ;此外 ,电阻器的热耗散可根据本文提供的值进行计算 ,然后对比一些成熟的产品再作修正 ,通过多次反复 ,取得经验 ,就可以设计出合乎要求的电阻
3.
The calculations are based on the equation of current motion with temperature and field-dependent critical current density, and the heat dissipation produced by flux motion in the normal state region and the superconducting state region.
此计算基于电流运动方程,考虑到电流密度是温度和磁场的函数,考虑到在正常区和超导区由磁通运动产生的热耗散。
6) Self-heating Dissipation
自热耗散
补充资料:散热
散热
机体在新陈代谢过程中产生的热量,通过皮肤、呼吸及尿、粪等排泄物向外界放散的过程。机体主要的散热部位是皮肤。皮肤的散热方式有:①辐射散热。机体的热量以热射线的形式传给外界较冷物体。以此方式散发的热量,占安静时总散热量的 60%左右。散热量受气温与皮肤的温差以及辐射面积的影响。②传导散热。机体的热量直接传给同它接触的较冷物体。皮下脂肪的多少,与皮肤接触的物体温度与导热度的高低决定传导散热量。③对流散热。通过气体或液体的不断流动来交换热量。散失的热量受风速影响较大。④蒸发散热,气温等于或超过皮肤温度时的唯一散热途径。又分以下两种:一种为不感蒸发,体液的水分直接透出皮肤和粘膜表面,在未聚成明显水滴前就蒸发。另一种为发汗,又名可感蒸发,汗腺的分泌物即汗液在蒸发表面以明显的汗滴形式蒸发。散热过程亦受神经系统的调节。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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