BAI Zhijun, WU Yinshun, ZHANG Tiancheng, and LIU Qiang, Fretting corrosion of surgical 316L stainless steel in saline solutions, J. Univ. Sci. Technol. Beijing, 4(1997), No. 3, pp. 18-21.
Cite this article as:
BAI Zhijun, WU Yinshun, ZHANG Tiancheng, and LIU Qiang, Fretting corrosion of surgical 316L stainless steel in saline solutions, J. Univ. Sci. Technol. Beijing, 4(1997), No. 3, pp. 18-21.
BAI Zhijun, WU Yinshun, ZHANG Tiancheng, and LIU Qiang, Fretting corrosion of surgical 316L stainless steel in saline solutions, J. Univ. Sci. Technol. Beijing, 4(1997), No. 3, pp. 18-21.
Citation:
BAI Zhijun, WU Yinshun, ZHANG Tiancheng, and LIU Qiang, Fretting corrosion of surgical 316L stainless steel in saline solutions, J. Univ. Sci. Technol. Beijing, 4(1997), No. 3, pp. 18-21.
Material Science and Engineering School, University of Science and Technology Beijing, Beijing 100083, China
中文摘要
A new simulation system for the laboratory investigation of fretting wear is developed. It consist of a mechanism device, a electrochemical cell and a datum acqulsition and process software. Fretting of surgical 316L stainless steel in saline is studied. The results show that electrochemical corrosion is enhanced by fretting and anodic current density under fretting is 100 times than static condition. Fretting corrosion is a mechanic -elec trochemical al Process.
A new simulation system for the laboratory investigation of fretting wear is developed. It consist of a mechanism device, a electrochemical cell and a datum acqulsition and process software. Fretting of surgical 316L stainless steel in saline is studied. The results show that electrochemical corrosion is enhanced by fretting and anodic current density under fretting is 100 times than static condition. Fretting corrosion is a mechanic -elec trochemical al Process.