总结了铁基合金真空摩擦学实验研究结果,综述了铁基合金真空摩擦学研究进展,阐明了铁基合金真空摩擦学进一步的研究方向.结果表明,基底气氛、真空度、载荷和滑动速度是影响铁基合金真空摩擦学行为的主要因素.铁基合金在真空中的摩擦系数较空气中普遍降低,在真空中摩擦系数的波动较空气中普遍减小,存在临界真空度,在此真空度下铁基合金呈现轻微磨损特征.
参考文献
| [1] | Kong H;Yoon E S;Kwon K O .Self-formation of protective oxide films at dry sliding mild steel surface under a medium vacuum[J].Wear,1995,181-183(01):325. |
| [2] | X. Wu;P. Cong;H. Nanao;I. Minami;S. Mori .Tribological behaviors of 52100 steel in carbon dioxide atmosphere[J].Tribology letters,2004(4):925-930. |
| [3] | Mishina H .Atmospheric characteristics in friction and and wear of metals[J].Wear,1992,152(01):99. |
| [4] | Venkatesan S;Rigney D A .Sliding friction and wear of plain carbon steels in air and vacuum[J].Wear,1992,153(01):163. |
| [5] | K. Hiratsuka;M. Goto .The role of changes in hardness of subsurfaces, transfer particles and wear particles in initial-steady wear transition[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2000(1):70-77. |
| [6] | Quinn T F J .Review of oxidational wear,Part Ⅰ:The origins of oxidational wear[J].Tribology International,1983,16(05):257. |
| [7] | Quinn T F J .Review of oxidational wear,Part Ⅱ:Recent developments and future trends in oxidational wear research[J].Tribology International,1983,16(06):305. |
| [8] | Wilson J E;Stott F H;Wood G C .The development of wear protective oxides and their influence on sliding friction[J].Proceedings of the Royal Society A:Mathematical,Physical & Engineering Sciences,1980,369(03):557. |
| [9] | Salesky W J;Fisher R M;Ritchie R O.The nature and origin of sliding wear debris from steels[A].ASME:NY,1983 |
| [10] | T. Hisakado;N. Hashizume .Effects of normal loads on the friction and wear properties of metals and ceramic against cermet in vacuum[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2000(1):98-106. |
| [11] | Chen R;Akira I;Tomoharu S .Effects of ambient pressure on fretting friction and wear behavior SUS 304 steels[J].Wear,2001,249(5-6):379. |
| [12] | Yasuhisa Ando .Lowering friction coefficient under low loads by minimizing effects of adhesion force and viscous resistance[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2003(10):965-973. |
| [13] | A. Ramalho;A. Merstallinger;A. Cavaleiro .Fretting behaviour of W-Si coated steels in vacuum environments[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2006(1):79-85. |
| [14] | M. Reza Bateni;J. A. Szpunar;X. Wang;D. Y. Li .Wear and corrosion wear of medium carbon steel and 304 stainless steel[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2006(1/2):116-122. |
| [15] | Lee K Y;Ko K H;Kim J H et al.Effects of temperature and sliding distance on the wear behavior of austenitic Fe-Cr-C-Si hardfacing alloy[J].Wear,2006,26(02):131. |
| [16] | Farias M C M;Souza R M;Sinatora A et al.The influence of applied load,sliding velocity and martensitic transformation on the unlubricated sliding wear of austenitic stainless steels[J].Wear,2007,263(1-6):773. |
| [17] | Kanchanomai C;Saengwichian B;Manonukul A .Delamination wear of metal injection moulded 316L stainless steel[J].Wear,2009,267(9-10):1665. |
| [18] | Buckley D H .The use of analytical surface tools in the fun-damental study of wear[J].Wear,1978,46(01):19. |
| [19] | Landman U;Luedtke W D;Ringer E M .Atomistic mechanisms of adhesive contact formation and interfacial processes[J].Wear,1992,153(01):3. |
| [20] | Kazuhisa Miyoshi .Considerations in vacuum tribology (adhesion, friction, wear, and solid lubrication in vacuum)[J].Tribology International,1999(11):605-616. |
| [21] | Y. Liu;D. Z. Yang;S. Y. He .Microstructure developed in the surface layer of Ti-6Al-4V alloy after sliding wear in vacuum[J].Materials Characterization,2003(4/5):275-279. |
| [22] | Sun H Q;Shi Y N;Zhang M X .Sliding wear-induced mi-crostructure evolution of nanocrystalline and coarse-grained AZ91D Mg alloy[J].Wear,2009,266(7-8):666. |
| [23] | Kragelski I V;Dobychin M N.Friction and wear-Cal-culation methods[M].Oxford:Pergamon Press,1982:129. |
| [24] | 于翔,王成彪,孙晓军.9Cr18和GCr15球-盘摩擦副摩擦学性能分析[J].材料热处理学报,2002(04):47-50. |
| [25] | Yang, JQ;Liu, Y;Ye, ZY;Yang, DZ;He, SY .Microstructure and tribological characteristics of nitrided layer on 2Cr13 steel in air and vacuum[J].Surface & Coatings Technology,2009(5):705-712. |
| [26] | 张人佶;宋期 .GCr15钢球/Cr7C3涂层盘摩擦副在大气与真空中摩擦学性能的比较[J].摩擦学学报,1993,13(01):48. |
| [27] | Yu X.;Wang CB.;Jiang GW.;Liu HS.;Hua M. .Tribological mechanism and property of 9Cr18 friction pair at atmosphere and in vacuum[J].Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology,2004(4):461-466. |
| [28] | 宋宝玉,古乐,邢恩辉.真空条件下GCr15钢摩擦磨损性能研究[J].哈尔滨工业大学学报,2004(02):238-241. |
| [29] | Lepper K;James M et al.Sliding behavior of selected alu-minum alloys[J].Wear,1997,203-204(01):46. |
| [30] | Sawa M;Rigney D A .Sliding behavior of dual phase steels in vacuum and in air[J].Wear,1987,119(03):369. |
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