简介概要

Tribological Behaviours of PTFE Composites Filled with PEEK and Nano-ZrO2 Based on Pin-on-Flat Reciprocating Friction Model

来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2020年第1期

论文作者:祁渊 龚俊 CAO Wenhan 王宏刚

文章页码:87 - 98

摘    要:Nano-Zr O2 and PEEK particles were synergistically filled in unfilled PTFE to improve the wear resistance and maintain a relatively low friction coefficient, and the materials were studied using a reciprocating sliding friction and wear tester. In the friction tests, the evolution of various tribological characteristics in both the contact interfaces and debris was observed, and the wear mechanism of the PTFE composites was investigated. The results showed that the wear rate of the PTFE composites synergistically filled with nano-Zr O2 and PEEK was lower and its friction coefficient was slightly higher than that of the unfilled PTFE; the uniformity and continuity of the transfer film generated by the composite with nano-Zr O2 and PEEK were the best, and the particle size of the debris was minimal in comparison to that in other sample systems.

详情信息展示

Tribological Behaviours of PTFE Composites Filled with PEEK and Nano-ZrO2 Based on Pin-on-Flat Reciprocating Friction Model

祁渊1,龚俊1,CAO Wenhan1,王宏刚2

1. Mechanical and Electrical Engineering College, Lanzhou University of Technology2. State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences

摘 要:Nano-Zr O2 and PEEK particles were synergistically filled in unfilled PTFE to improve the wear resistance and maintain a relatively low friction coefficient, and the materials were studied using a reciprocating sliding friction and wear tester. In the friction tests, the evolution of various tribological characteristics in both the contact interfaces and debris was observed, and the wear mechanism of the PTFE composites was investigated. The results showed that the wear rate of the PTFE composites synergistically filled with nano-Zr O2 and PEEK was lower and its friction coefficient was slightly higher than that of the unfilled PTFE; the uniformity and continuity of the transfer film generated by the composite with nano-Zr O2 and PEEK were the best, and the particle size of the debris was minimal in comparison to that in other sample systems.

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