Present Research Status of Arc Erosion in Friction and Wear with Current
摘 要
综述了载流摩擦磨损中电弧侵蚀的研究现状,分析归纳了不同条件下电弧侵蚀的基本特征和影响因素,重点探讨了电弧侵蚀的机理,并提出了今后研究的方向.
Abstract
The present status of the research on arc erosion in the friction and wear with current is reviewed.Following an illustration of the basic features of arc erosion and the influencing factors under different wear conditions,the present work on formation mechanisms of arc erosion is emphatically discussed.Some comments and suggestions on the subject in relation to further research are also presented.
中图分类号 TG172 TH117.3
所属栏目 综述
基金项目 国家自然科学基金项目(50432020);河南省杰出青年基金项目(0412002100)
收稿日期 2007/3/26
修改稿日期 2007/4/5
网络出版日期
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引用该论文: HU Dao-chun,SUN Le-min,SHANGGUAN Bao,ZHANG Yong-zhen. Present Research Status of Arc Erosion in Friction and Wear with Current[J]. Corrosion & Protection, 2008, 29(3): 163~166
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参考文献
【1】Da Hai He,Rafael R Manory,Norm Grady.Wear of railway contact wires against current collector materials[J].Wear,1998,215:146-155.
【2】Shunichi Kubo,Koji Kato.Effect of arc discharge on wear rate of Cu-impregnated carbon strip in unlubricated sliding against Cu trolley under electric current[J].Wear,1998,216:172-178.
【3】Hiroki Nagasawa,Koiji Kato.Wear mechanism of copper alloy wire sliding against iron base strip under electric current[J].Wear,1998,216:179-183.
【4】戴利民,林吉忠,丁新华.滑板材料受流摩擦时接触点瞬态温升对磨损性能的影响[J].中国铁道科学,2002,23(2):111-117.
【5】Da Hai He,Manory R,Sinkis H.A sliding wear tester for overhead wires and current collectors in light rail systems[J].Wear,2000,239:10-20.
【6】C R F Azevedo,A Sinatora.Failure analysis of a railway copper contact strip[J].Engineering Failure Analysis,2004(11):829-841.
【7】Metals Handbook.Failures analysis and prevention[M].8th ed,ASM,1975.
【8】H Asai,Transfer Diagram.Electric contacts and its application[R].The 8th ICECP,Tokyo:1976.
【9】王可健.电触头材料的分断电弧侵蚀研究[D].西安:西安交通大学,1987.
【10】戴利民.滑板材料受流摩擦磨损性能的研究[D].铁道部科学研究院博士研究生论文,2001.
【11】李震彪,张冠生.电触头侵蚀主材料转移研究概述[J].机床电器,1992(2).
【12】吴细秀,狄美华,李震彪,等.电触头侵蚀研究概述[J].低压电器,2003(5):6-11.
【13】吴细秀,李震彪.电极材料喷溅侵蚀模型评述[J].高压电器,2002(5):38-4l.
【14】堵永国,杨广,等.电弧作用下AgMeO触头材料的物理冶金过程分析[J].电工技术学报,1998(8):52-56.
【15】Wu Xixiu,Li Zhenbiao.Model on sputter erosion of electrical contact material[C]//Proceeding of 48th IEEE Holm Conference on Electric Contact,2002:29-34.
【16】R A Marshall.The mechanism of current transfer in high current sliding contacts[J].Wear,1976,37:233-240.
【17】C T Lu,M D Bryant.Thermoelastic evolution of contact area in mound temperatures in carbon graphite electrical contract[J].Wear,1994,174:137-146.
【18】王其平.电器电弧理论[M].北京:机械工业出版社,1991.
【19】Shunichi Kubo,Koji Kato.Effect of arc discharge on the wear rate and wear mode of a copper-impregnated metallized carbon contact strip sliding against a copper disk[J].Tribology International ,1999(32):367-378.
【20】松山,晋作(日).受电弓的受流摩擦学[J].电力牵引快报,1997(1):52-60.
【21】沈向前,孙乐民,张永振.载流条件下铬青铜/3D碳/碳复合材料摩擦副的摩擦磨损性能[J].润滑与密封,2006(1):72-74.
【22】Bouchoucha A,Zaidi H,Kadiri E K,et al.Influence of electric fields on the tribological behaviour of electro dynamical copper/steel contacts[J].Wear,1997,203/204:434-441.
【2】Shunichi Kubo,Koji Kato.Effect of arc discharge on wear rate of Cu-impregnated carbon strip in unlubricated sliding against Cu trolley under electric current[J].Wear,1998,216:172-178.
【3】Hiroki Nagasawa,Koiji Kato.Wear mechanism of copper alloy wire sliding against iron base strip under electric current[J].Wear,1998,216:179-183.
【4】戴利民,林吉忠,丁新华.滑板材料受流摩擦时接触点瞬态温升对磨损性能的影响[J].中国铁道科学,2002,23(2):111-117.
【5】Da Hai He,Manory R,Sinkis H.A sliding wear tester for overhead wires and current collectors in light rail systems[J].Wear,2000,239:10-20.
【6】C R F Azevedo,A Sinatora.Failure analysis of a railway copper contact strip[J].Engineering Failure Analysis,2004(11):829-841.
【7】Metals Handbook.Failures analysis and prevention[M].8th ed,ASM,1975.
【8】H Asai,Transfer Diagram.Electric contacts and its application[R].The 8th ICECP,Tokyo:1976.
【9】王可健.电触头材料的分断电弧侵蚀研究[D].西安:西安交通大学,1987.
【10】戴利民.滑板材料受流摩擦磨损性能的研究[D].铁道部科学研究院博士研究生论文,2001.
【11】李震彪,张冠生.电触头侵蚀主材料转移研究概述[J].机床电器,1992(2).
【12】吴细秀,狄美华,李震彪,等.电触头侵蚀研究概述[J].低压电器,2003(5):6-11.
【13】吴细秀,李震彪.电极材料喷溅侵蚀模型评述[J].高压电器,2002(5):38-4l.
【14】堵永国,杨广,等.电弧作用下AgMeO触头材料的物理冶金过程分析[J].电工技术学报,1998(8):52-56.
【15】Wu Xixiu,Li Zhenbiao.Model on sputter erosion of electrical contact material[C]//Proceeding of 48th IEEE Holm Conference on Electric Contact,2002:29-34.
【16】R A Marshall.The mechanism of current transfer in high current sliding contacts[J].Wear,1976,37:233-240.
【17】C T Lu,M D Bryant.Thermoelastic evolution of contact area in mound temperatures in carbon graphite electrical contract[J].Wear,1994,174:137-146.
【18】王其平.电器电弧理论[M].北京:机械工业出版社,1991.
【19】Shunichi Kubo,Koji Kato.Effect of arc discharge on the wear rate and wear mode of a copper-impregnated metallized carbon contact strip sliding against a copper disk[J].Tribology International ,1999(32):367-378.
【20】松山,晋作(日).受电弓的受流摩擦学[J].电力牵引快报,1997(1):52-60.
【21】沈向前,孙乐民,张永振.载流条件下铬青铜/3D碳/碳复合材料摩擦副的摩擦磨损性能[J].润滑与密封,2006(1):72-74.
【22】Bouchoucha A,Zaidi H,Kadiri E K,et al.Influence of electric fields on the tribological behaviour of electro dynamical copper/steel contacts[J].Wear,1997,203/204:434-441.
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