1·The thermal conduction of a composite medium with variable thermal conductivities is discussed.
讨论了可变导热系数的复合介质的导热性。
2·The thermal conductivities change with different Si and Ge atoms percent because of the effect of interface scatterings;
并且受边界散射效应的影响,热导率值随硅锗原子百分比的不同发生变化;
3·The experimental results show that the effective thermal conductivities of basalt beds increase linearly as temperature increases.
实验和计算结果显示,玄武岩颗粒料床的导热系数随温度线性的增加。
4·Lastly, characterization of both in-plane and cross-plane thermal conductivities in nano metal films with nanosecond laser spectroscopy will be demonstrated.
最后,讨论了纳米金属薄膜的平面和跨平面的热传导率的表征方法。
5·The effective thermal conductivities of xonotlite-type calcium silicate, aerogel and xonotlite-aerogel composite insulation material were compared by model calculation.
通过模型计算对硬硅钙石型硅酸钙、气凝胶及硬硅钙石-气凝胶复合绝热材料的导热系数进行了对比研究。
6·The results showed that EVA-based materials with larger additive contents or a constant content but larger specific surface areas possessed lower thermal conductivities.
结果表明,添加剂用量越大或用量一定时比表面积越大,EVA材料的导热系数越低。
7·An equation for predicting the thermal conductivities of liquid mixtures is proposed on the basis of the subensemble method and the relativity of statistical thermodynamics.
根据统计热力学的子系统原理和统计热力学的相对论,提出一个新的液体混合物导热系数方程。
8·The results of calculations demonstrated that the thermal conductivities of Si-Ge alloy. is remarkably lower than the corresponding bulk experimental data and show obvious size effect;
结果表明,硅锗合金热导率具有明显的尺寸效应,显著小于大体积晶体的实验值;