Evolution of thermo-physical properties of diamond/Cu composite materials under thermal shock load

Hong Guo^1,2，Zhi-Hui Bai²，Xi-Min Zhang²，Fa-Zhang Yin²，Cheng-Chang Jia¹，Yuan-Yuan Han²

1. School of Materials and Engineering, University of Science &Technology Beijing2. National Engineering Technology Research Center for Nonferrous Metals Composites, Beijing General Research Institute for Nonferrous Metals

摘 要：In this paper, the two-flume method was used to study the change laws of the thermal conductivity and thermal expansion coefficient of diamond/Cu composite materials with 100, 300, and 500 cycle numbers, under the action of thermal shock load between-196 and 85 °C; the X-ray diffraction method（XRD） was used to study the change of the residual stress in the thermal shock process of the diamond/Cu composite materials; and the evolution of the fracture microstructure with different thermal shock cycle numbers was observed through scanning electron microscopy（SEM）. The results of the study show that the increase of the binder residue at the interface reduces the thermal shock stability of the diamond/Cu composite materials. In addition, under the thermal shock load between-196 and 85 °C, the residual stress of the diamond/Cu composite materials increases continuously with the increase of the cycle numbers, the increase of residual stress leads to a small amount of interface debonding, an increase of the interfacial thermal resistances, and a decrease of the constraints of low-expansion component on material deformation, thus the thermal conductivity decreases slightly and the thermal expansion coefficient increases slightly.

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