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复合材料学报 2014

高压熔渗金刚石/铜复合材料的低温导热特性

, PP. 550-555

郭宏,王光宗,贾成厂,张习敏

Keywords: 金刚石/铜复合材料,低温导热率,界面结合,高压熔渗,聚晶

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Abstract:

为研究高压熔渗金刚石/铜复合材料导热率在低温区的变化规律，采用高压熔渗（HRF）的方法分别制备了不同粒度（100μm，250μm，400μm）的金刚石/铜复合材料，利用扫描量热法分析评价了高压熔渗法制备的不同粒度金刚石/铜复合材料的低温导热特性，采用扫描电子显微镜（SEM）分析其显微组织。研究结果表明：由于高压熔渗制备的金刚石/铜复合材料中的部分金刚石发生聚晶反应，导致金刚石颗粒间晶界传热的热阻远小于界面传热热阻；高压熔渗条件下，金刚石颗粒内部变形破碎导致缺陷增多，且100~150K低温下以声子为主要热载子的传热对裂纹和间隙等缺陷敏感，导致在较低温区内金刚石/铜复合材料的导热率低于普通压力熔渗（PF）所制备的金刚石/铜复合材料的导热率。

References

[1]	Tanaeva I A, Ikeda H, Van Boklioven L J A, et al. Heat capacities and magnetic moments of potential regenerator materials at low temperature [J]. Cryogenics, 2003, 43(8): 441-448.
[2]	Popescu G, Radcenco V, Gargalian E, et al. A critical review of pulse tube cryogenerator research [J]. International Journal of Refrigeration, 2001, 24(3): 230-237.
[3]	Wang K, Ju Y L, Lu X S, et al. On the performance of copper foaming metal in the heat exchangers of pulse tube refrigerator [J]. Cryogenics, 2007, 47(1): 19-24.
[4]	Shao W Z, Ivanov V V, Zhen L, et al. A study on graphitization of diamond in copper-diamond composite materials [J]. Materials Letters, 2004, 58(1-2): 146-149.
[5]	郭宏, 张习敏, 尹法章, 等. 一种高导热铜基复合材料及其制备方法: 中国, ZL 200710178844.5 [P]. 2010-06-30. Guo Hong, Zhang Ximin, Yin Fazhang, et al. A kind of Cu-based composites of high thermal conductivity and its preparation method: Chinese patent, ZL 200710178844.5 [P]. 2010-06-30.
[6]	黄强, 顾明元. 电子封装用金属基复合材料的研究现状 [J]. 电子与封装, 2003, 3(2): 22-25. Huang Qiang, Gu Mingyuan. Status and prospects of metal matrix composites for elecctronic packaging [J]. Electronics & Packaging, 2003, 3(2): 22-25.
[7]	Zweben C. Advances in high-performance thermal management materials: A review [J]. Journal of Advanced Materials, 2007, 39(1): 3-10.
[8]	Fan Y M, Guo H, Xu J, et al. Pressure infiltrated Cu/diamond composites for LED applications [J]. Rare Metals, 2011, 30(2): 206-210.
[9]	Zhang X M, Guo H, Yin F Z, et al. Interfacial microstructure and properties of diamond/Cu-x Cr composites for electronic packaging applications [J]. Rare Metals, 2011, 30(1): 94-98.
[10]	尹法章, 郭宏, 张习敏, 等. 添加微量Ti元素对Diamond/Cu复合材料组织及性能的影响 [J]. 复合材料学报, 2010, 27(3): 138-143. Yin Fazhang, Guo Hong, Zhang Ximin, et al. Effect of Ti on microstructures and properties of Diamond/Copper composites [J]. Acta Materiae Compositae Sinica, 2010, 27(3): 138-143.
[11]	陈慧. 超高压法制备金刚石/铜复合材料 [D]. 北京: 北京科技大学, 2011. Chen Hui. Research on fabrication of high thermal conductivity diamond/Cu composite by HPHT technique [D]. Beijing: University of Science and Technology Beijing, 2011.
[12]	Majumdar A, Reddy P. Role of electron-phonon coupling in thermal conductance of metal-nonmetal interfaces [J]. Applied Physics Letters, 2004, 84(23): 4768-4770.
[13]	芶清泉. 人造金刚石聚晶的粘结机理 [J]. 金刚石与磨料磨具工程, 1979(1): 1-7. Gou Qingquan. Coherent mechanism of synthetic diamond glomerocryst [J]. Diamond & Grinding Material and Abrasives Engineering, 1979(1): 1-7.

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