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高导热金刚石/铝和金刚石/铜复合散热材料的研究进展 被引量:9

Recent advances in the studies of diamond/aluminum and diamond/copper composites with high thermal conductivity
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摘要 人造金刚石由于其自身高的热导率、低的热膨胀系数和相对低的价格已成为制造新型散热材料的研究热点。本文主要介绍了近年来在金刚石/铝和金刚石/铜复合散热材料的致密度、合成方法、热导率、界面等方面的一些研究进展。添加活碳元素(硼、铬等)和在高压下使金刚石直接成键可能是提高金刚石/金属散热材料热导率的两种有效途径。 Synthetic diamond is competitive in heat dispersing materials, because it has high thermal conductivity, low coefficient of thermal expansion and lower price. This paper overviews the manufacturing process, compact density, thermal conductivity and the interfaces of the diamond/aluminum and diamond/copper composites. There may be two ways of improving the thermal conductivity of diamond/metal composites, one is direct bonding between diamonds in high pressure, the other is adding active carbon elements (B, Cr, etc).
作者 黄帅 彭放 寇自力
机构地区 四川大学原子与分子物理研究所
出处 《金刚石与磨料磨具工程》 CAS 北大核心 2009年第3期56-61,共6页 Diamond & Abrasives Engineering
关键词 人造金刚石 散热材料 热导率 synthetic diamond aluminum copper heat dispersing materials thermal conductivity
分类号 TQ164 [化学工程—高温制品工业]
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参考文献22

  • 1Yoshida Katsuhito, Morigami Hideaki. Thermal properties of diamond/copper composite material [J]. Microelectronics Reliability,2004 44 : 303 - 308.
  • 2亓曾笃.人造金刚石散热材料[J].超硬材料工程,2006,18(2):42-43. 被引量:10
  • 3Beffort O, Vaucher S, Kbalid F A. On the thermal and chemical stability of diamond during processing of Al/diamond composites by liquid metal infiltration (squeeze casting) [ J]. Diamond & Related Materials ,2004,13 : 1834 - 1843.
  • 4Khalid E A, Beffort O, Klotz U E et al. Microstrueture and interracial characteristic of aluminium-diamond composite materials[J]. Diamond and Related Materials ,2004,13:393 - 400.
  • 5Hanada K, Matsuzaki K, Sano T. Thermal properties of diamond particle-dispersed Cu composites[J]. Journal of Materials Processing Technology, 2004 : 153 - 154 : 514 - 518.
  • 6Ekimov E A, Suetin N V,Popvich A F et al. Effect of microstructure and grain size on the thermal conductivity of high-pressure-sintered diamond composites[J]. Inorganic Materials,2008,44:224-229.
  • 7Ekimov E A, Suetin N V,Popvich A F Popvich et al. Thermal conductivity of diamond composites sintered under high pressure[ J]. Diamond & Related Materials,2008,17:838 - 843.
  • 8Flaquer J, Noales Set al. Effect of diamond shapes and associated thermal boundary resistance on thermal conductivity of diamond - based composites[J]. Computational Materials Science,2007,41:156 - 163.
  • 9吴成义 解子章 张丽英等.液态金属和合金对人造金刚石的浸润性研究.北京钢铁学院学报,1984,1:102-115.
  • 10Agari Yasuyukii, Kanryu Inour. Thermal conductivity of copper composites dispersed with diamond particles prepared by spark plasma sintering[ C]. The 27th Japan Symposium on Thermophysical Properties. Kyoto, 2006. 328.

二级参考文献41

共引文献114

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引证文献9

二级引证文献39

金刚石与磨料磨具工程
2009年 第3期

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