UHMWPE-SiC生物摩擦学的特性及机理

无机材料学报

UHMWPE-SiC生物摩擦学的特性及机理

王昌祥; 郑昌琼; 周馨; 尹光福; 邓杰⁺; 孟永钢⁺⁺; 温诗铸⁺⁺

四川联合大学无机材料系; 成都 610065; ⁺四川省机械研究设计院; 成都 610041; ⁺⁺清华大学摩擦学国家重点实验室; 北京 100084

收稿日期:1998-01-13 修回日期:1998-03-09 出版日期:1998-12-20 网络出版日期:1998-12-20

Biological metion Properties and Mechanism of UHMWPE-SiC Ceramics Friction Pair

WANG Chang-Xiang; ZHENG Chang-Qiong; ZHOU Xin; YIN Guang-Fu; DENG Jie⁺; MENG Yong-Gang⁺⁺; WEN Shi-Zhu⁺⁺

Dept. of Inorganic Materials; Sichuan Union University Chengdu 610065 China; ⁺Sichuan Mechanical R & D Institute Chengdu 610041 China; ⁺⁺National Tribology Laboratory, Tsinghua University Beijing 100084 China

Received:1998-01-13 Revised:1998-03-09 Published:1998-12-20 Online:1998-12-20

摘要/Abstract

摘要： 为了探索超高分子量聚乙烯（UHMWPE）与碳化硅（SiC）陶瓷组合作为人工关节置换材料的可能性，利用Falex摩擦磨损实验机测定了37℃下UHMWPE与SiC陶瓷摩擦副在血浆润滑条件下的生物摩擦学性能．结果表明，UHMWPE－SiC摩擦副的摩擦系数为0.05;UHMWPE的磨损系数＜8．45×10^-10mm³／N.m．表面轮廓仪对磨损前后SiC陶瓷表面进行测试，未发现明显变化，说明SiC陶瓷磨损甚微．根据XPS分析结果；提出了生物摩擦磨损机理．

关键词: 超高分子量聚乙烯（UHMWPE）, SiC陶瓷, 血浆, 生物摩擦学特性及机理

Abstract: The biological friction and wear properties of UHMWPE rubbing against SiC ceramics lubricated with fresh plasma were evaluated by using Falex at 37℃, and the surfaces of the specimenwere observed with SEM and surface profile meter. The results show that the friction coefficient of UHMWPE against SiC is about 0.05, and the wear factor of UHMWPE is lower than8.45×10^--10mm³/N.m. The wear loss of SiC ceramics is very small. Based on the results of XPSanalysis, the mechanism was proposed.

Key words: ultrahigh molecular weight polyethylene（UHMWPE）, SiC ceramics, plasma, biotribologicaJ properties and mechanism

中图分类号:

TQ174

王昌祥,郑昌琼,周馨,尹光福,邓杰,孟永钢,温诗铸. UHMWPE-SiC生物摩擦学的特性及机理[J]. 无机材料学报.

WANG Chang-Xiang,ZHENG Chang-Qiong,ZHOU Xin,YIN Guang-Fu,DENG Jie,MENG Yong-Gang,WEN Shi-Zhu. Biological metion Properties and Mechanism of UHMWPE-SiC Ceramics Friction Pair[J]. Journal of Inorganic Materials.

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