Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials 被引量：19

Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials

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摘要 CNTs-Ag-G electrical contact composite material was prepared by means of powder metallurgical method. The influence of the graphite content on sliding wear characteristics of electrical contact levels was examined. In experiments, CNTs content was retained as 1% (mass fraction), and graphite was added at content levels of 8%, 10%, 13%, 15% and 18%, respectively. The results indicate that with the increase of graphite content, the contact resistance of electrical contacts is enhanced to a certain level then remains constant. Friction coefficient decreases gradually with the increase of graphite content. Wear mass loss decreases to the minimum value then increases. With the small content of graphite, the adhesive wear is hindered, which leads to the decrease of wear mass loss, while excessive graphite brings much more worn debris, resulting in the increase of mass loss. It is concluded that wear mass loss reaches the minimum value when the graphite mass fraction is about 13%. Compared with conventional Ag-G contact material, the wear mass loss of CNTs-Ag-G composite is much less due to the obvious increase of hardness and electrical conductivity, decline of friction surface temperature and inhibition of adhesive wear between composites and slip rings. CNTs-Ag-G electrical contact composite material was prepared by means of powder metallurgical method. The influence of the graphite content on sliding wear characteristics of electrical contact levels was examined. In experiments, CNTs content was retained as 1% （mass fraction）, and graphite was added at content levels of 8%, 10%, 13%, 15% and 18%, respectively. The results indicate that with the increase of graphite content, the contact resistance of electrical contacts is enhanced to a certain level then remains constant. Friction coefficient decreases gradually with the increase of graphite content. Wear mass loss decreases to the minimum value then increases. With the small content of graphite, the adhesive wear is hindered, which leads to the decrease of wear mass loss, while excessive graphite brings much more worn debris, resulting in the increase of mass loss. It is concluded that wear mass loss reaches the minimum value when the graphite mass fraction is about 13%. Compared with conventional Ag-G contact material, the wear mass loss of CNTs-Ag-G composite is much less due to the obvious increase of hardness and electrical conductivity, decline of friction surface temperature and inhibition of adhesive wear between composites and slip rings.

作者王娟凤仪李庶林森

机构地区 Department of Materials Science and Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2009年第1期113-118,共6页 Transactions of Nonferrous Metals Society of China

基金 Project(50271021) supported by the National Natural Science Foundation of China Project(ZD2008003) supported by Key Science Foundation of the Education Department of Anhui Province, China Project(CF07-10) supported by the Innovation Center for Postgraduates at HFNL (USTC), China Project(KF0702) supported by the Open Project Program of Ministry of Education of China Project supported by Nippon Sheet Glass Foundation of Japan for Materials Science and Engineering

关键词 CNTs-Ag-G复合材料金属材料镀层摩擦系数 CNTs-Ag-G electrical contact material graphite contact resistance friction coefficient wear mass loss

分类号 TB383.1 [一般工业技术—材料科学与工程]

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