1) heat rejection efficiency
散热效能
1.
Effect of heat transfer performance of heat pipe on heat rejection efficiency of the miniature heat pipe heat exchanger;
热管传热性能对小型热管换热器散热效能影响
2.
The experimental design and multivariate analysis of heat rejection efficiency of miniature heat pipe heat exchanger
小热管换热器散热效能试验设计与多因素分析
2) heat emission efficiency
散热效率
3) heat dissipation effect
散热效果
1.
The heat dissipation effect was analyzed.
阐述了主变压器冷却方式改造的必要性,分析了散热效果。
4) heat dissipation capability
散热能力
1.
Analysis of influence factors on heat dissipation capability for traction Ni-MH battery Ni-MH battery;
MH-Ni动力电池散热能力影响因素分析
2.
This paper will choose a suitable installation mede of the radiator through analyzing the heat dissipation capability of the radiator with different installaoion means.
文章通过分析辐射器采取不同安装方式时的散热能力,对辐射器安装方式进行了优化设计。
5) Heat dissipation
散热性能
1.
Thick diamond films were synthesized on Al 2O 3 rod using a microwave plasma chemical vapor deposition technique,which can be taken over the traditional BeO rod and used in the wide band high power TWT to improve the heat dissipation greatly.
采用微波等离子体化学气相沉积法在行波管Al2 O3 夹持杆上沉积金刚石厚膜 ,取代传统有毒的氧化铍陶瓷杆 ,用于宽带大功率行波管改善其散热性能 。
2.
The result indicated that the bigger the thermal conductivity of the chip bonding layer material,the smaller the thermal resistance of the component,and the better the heat dissipation,and that selecting the chip bonding material has significant influence to the thermal properties of the component.
分析了功率型LED热阻系统的构成,通过Flotherm软件对不同材料的芯片键合层的功率型LED进行热分析,结果表明,芯片键合层材料的导热系数越大,器件的热阻越小,散热性能越好,选用芯片键合材料对功率LED器件的热性能有着重大的影响。
3.
By using the method,employing the variation in resistance of helix with temperature,the heat dissipation capability of the helix traveling-wave tube slow-wave structure(SWS) made by several helix assembling methods have been tested.
利用电阻温度系数法对几种方法制备的慢波组件散热性能进行了实验研究,结果表明石墨热挤压法、磁控溅射覆膜法及压力扩散焊接法和无变形热挤压法比冷弹压法和传统的缠钼带热挤压法制备的慢波组件散热性能强许多。
6) heat dissipation performance
散热性能
1.
Study on heat dissipation performance of tread pattern of TBR tire;
全钢载重子午线轮胎胎面花纹散热性能探讨
2.
The result indicated that its heat dissipation performance satisfied totally the 115 W CPU s heat dispel request,and indicated that only improving the motor fan s rotate speed can t increase the exchanger and the system performance efficiently.
对一种台式机所用的热管式CPU散热器的散热性能进行了试验研究和数值模拟。
3.
In this study presented, the heat dissipation performance of CPU radiator under forced convection is investigated based on experimental methods, the flow field and temperature field are investigated based on numerical simulation.
CPU散热器是流体力学和传热学领域的重要研究对象之一,本文主要对CPU风冷散热器在空气强制对流条件下的散热性能进行实验研究,并对散热器的流场及温度场进行数值模拟。
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。
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