Electrical Conductivity of Spark Plasma Sintered W-Cu and Mo-Cu Composites for Electrical Contact Applications

Journal of Minerals and Materials Characterization and Engineering Pub Date : 2021-01-01 DOI:10.4236/JMMCE.2021.91004

N. Amalu, B. A. Okorie, J. Ugwuoke, C. Obayi

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引用次数: 4

Abstract

Tungsten copper and molybdenum copper composites, with weight percent copper in the range of 20% - 40%, have been produced using the spark plasma sintering (SPS) technique. Other specimens having similar compositions were also developed using the conventional techniques of Liquid Phase Sintering (LPS) and Infiltration. Electrical conductivity measurements showed that the specimens produced by the SPS process had substantially higher levels of electrical conductivity than those produced by the other methods. Relative density measurements showed that the SPS specimens achieved very high densification, with relative densities in the range of 99.1% - 100%. On the other hand, the specimens produced by LPS and infiltration had relative densities in the range of 88% - 92% and 96% - 98% respectively. The superior conductivity of the SPS specimens has been attributed to the virtually full densification achieved by the process. The effect of porosity on electrical conductivity has been discussed and three standard models were assessed using results from porous sintered skeletons of pure tungsten and pure molybdenum.

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电接触用火花等离子烧结W-Cu和Mo-Cu复合材料的导电性

采用火花等离子烧结(SPS)技术制备了含铜量在20% ~ 40%之间的钨铜和钼铜复合材料。采用传统的液相烧结(LPS)和渗滤技术也开发了具有类似成分的其他样品。电导率测量表明，SPS工艺生产的样品具有比其他方法生产的样品高得多的电导率水平。相对密度测量表明，SPS样品达到了很高的致密化，相对密度在99.1% ~ 100%之间。另一方面，LPS和浸润法制备的样品相对密度分别为88% ~ 92%和96% ~ 98%。SPS样品的优异导电性归因于该工艺几乎完全致密化。讨论了孔隙率对电导率的影响，并利用纯钨和纯钼多孔烧结骨架的结果评估了三种标准模型。

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Journal of Minerals and Materials Characterization and Engineering

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