Evaluation of thermal conductive resistance at organic-inorganic interface and development of thermal conductive insulation materials for electric devices

K. Fukushima, Y. Takezawa, T. Adschiri
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Abstract

The effect of organic-inorganic interfaces on thermal conductivity of composite materials has been studied by evaluating thermal conductive resistance at the organic-inorganic interfaces experimentally. Polymer layer was sandwiched with thin ceramic plates to make multi-layer stacked samples. Through the comparison of the thermal conductivity of the multi-layer-stacked materials, and those of the single component materials for both polymer and ceramics, the thermal resistance at the interface between polymer and ceramic plate was evaluated. This suggests that the contribution of thermal-resistance become significant for composite materials because of the increase of interface. The results also demonstrate that the organic modifications of inorganic surface could effectively reduce the interfacial thermal resistance. Control of the interfaces seems to be effective to improve thermal conducting property of materials. On the other hand, control of inner structures in the materials is also important. We also investigated effects of inner structures on both thermal conducting and electrical insulating properties of the materials. Based on the results, high thermal conductive insulating materials were newly designed.
有机-无机界面导热电阻的评价与电气器件导热绝缘材料的研制
通过实验评估有机-无机界面处的导热电阻,研究了有机-无机界面对复合材料导热性能的影响。将聚合物层与薄陶瓷板夹在一起,形成多层堆叠样品。通过对多层叠层材料与聚合物和陶瓷单组分材料导热系数的比较,评价了聚合物与陶瓷板界面处的热阻。这表明,由于界面的增加,热阻对复合材料的贡献变得显著。结果还表明,无机表面的有机修饰可以有效地降低界面热阻。控制界面对提高材料的导热性能是有效的。另一方面,对材料内部结构的控制也很重要。我们还研究了内部结构对材料导热性能和电绝缘性能的影响。在此基础上,设计了新型高导热绝缘材料。
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