1·Ceramic substrade, High efficiency and low thermal resistance.
高光效、低热阻陶瓷基板。
2·The char, the decomposition product of PPPBP has outstanding thermal resistance.
PPPBP分解产生的残炭有突出的耐热性能。
3·The study of oxidation resistance coatings and thermal resistance coatings was overviewed.
综述了目前国内外抗高温氧化涂层和热障涂层的研究现状。
4·Before set up this thermal resistance virtual prototypes, we need built its mathematic model.
在建立机床导轨的热阻虚拟样机的时候,首先要建立它的数学模型。
5·Theoretical model of heat pipe thermal module was built using thermal resistance network method.
采用热阻网络法,得出热管散热模组的数学模型。
6·The thermal resistance of industrial, platinum thermal resistance and thermal resistance of two kinds of.
工业用热电阻,铂热电阻和铜热电阻两大类。
7·The difference of thermal resistance of fabric with different surface structure is studied in this paper.
研究正反面结构有明显差异的立绒织物在传热性能上的方向性。
8·The experimental results for devices with higher thermal resistance are contrary to the above conclusions.
热阻较大的器件,实验的结果与以上结论相反。
9·In this paper the operating principles of the platinum thermal resistance temperature sensor is analyzed,.
分析了金属热电阻温度传感器的工作原理。
10·The effect of the thermal resistance at two interfaces on heat dissipation capability of the SWS is analyzed.
分析了两个接触处的界面热阻率对慢波结构散热性能的不同影响。