Relationship between diamond particle size and Thermal conductivity of Cu-diamond composites

机译：金刚石复合材料金刚石粒径与导热系数的关系

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Diamond-copper composites were fabricated by ultrahigh pressure sintering (UHPS) technology. The influence of diamond particle size on the microstructure, relative density and thermal conductivity of composites were investigated. The results indicated that the high relative density of more than 99% diamond-copper composite can be prepared by UHPS method. The composite thermal conductivity dramatically increased with increasing diamond particle size and the highest value of 675W/(mK) were obtained when using 200μm diamond, which is much higher than those of traditional electronic packing materials. The Cu-diamond composite could fulfill the requirement of heat removal of the high-power electronic packaging devices.

机译：通过超高压烧结（UHPS）技术制造金刚石 - 铜复合材料。研究了金刚石粒度对复合材料的微观结构，相对密度和导热率的影响。结果表明，通过UHPS方法可以制备大于99％的金刚石铜复合材料的高相对密度。随着金刚石粒度的增加，复合导热率随着金刚石粒度的增加而显着增加，当使用200μm金刚石时获得了最高值675W /（MK），这远高于传统电子填料材料。 Cu-金刚石复合材料可以满足高功率电子包装装置的热除去的要求。

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《International Conference on Chemical Engineering, Metallurgical Engineering and Metallic Materials》|2014年||共4页
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作者
Guixia Dong; Qiuxiang Liu; Li Dong;
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中图分类 TB3-532;
关键词
diamond-copper composite; ultrahigh pressure sintering; thermal conductivity; relative density;

机译：金刚石铜复合材料;超高压力烧结;导热率;相对密度;

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Relationship between diamond particle size and Thermal conductivity of Cu-diamond composites

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