| WANG Yan-zhong,WEI Bin,NING Ke-yan,HAN Ming,SHEN Rong.Topology Acquisition and Contact Analysis of Image Threshold of Cu-based Sintered Material[J],43(1):40-43 |
| Topology Acquisition and Contact Analysis of Image Threshold of Cu-based Sintered Material |
| Received:July 08, 2013 Revised:August 18, 2013 |
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| DOI: |
| KeyWord:sintered materials friction mechanism threshold binary |
| Author | Institution |
| WANG Yan-zhong |
School of Mechanical Engineering, Beijing University of Aeronautics and Astronautics, Beijing , China |
| WEI Bin |
School of Mechanical Engineering, Beijing University of Aeronautics and Astronautics, Beijing , China |
| NING Ke-yan |
National Key Laboratory of Vehicular Transmission, China North Vehicle Research Institute, Beijing , China |
| HAN Ming |
National Key Laboratory of Vehicular Transmission, China North Vehicle Research Institute, Beijing , China |
| SHEN Rong |
National Key Laboratory of Vehicular Transmission, China North Vehicle Research Institute, Beijing , China |
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| Abstract: |
[1] BINNIG G, ROHRER H, et al. Tunneling Through a Controllable Vacuum Gap[ J] . Applied Physical Letters,1981,40:178—180.
[2] BINNING G. Atomic Force Microscope[ J] . Physical Review Letters,1986,56( 9) :930—933.
[3] GREENWOOD J A,WILLIAMSON J B P. Contact of Nominally Flat Surfaces [ J ] . Proc Roy Soc Lond, 1966, A295:300—319.
[4] WHITEHOUSE D J,ARCHARD J F. The Properties of Random Surface of Significance in Their Contact [ J] . Proc Roy Soc Lond,1970,A316:97—121.
[5] CHANG W R,ETSION I,BOGY,D B. Static Friction Coefficient Model for Metallic Rough Surfaces[ J] . ASME J Tribol,1988,110:57—63.
[6] LIOR K,IZHAK E. A Static Friction Model for Elastic-plastic Contacting Rough Surfaces [ J ] . Transaction of the ASME,2004,126(1) :34—40.
[7] LIOR K,IZHAK E. A Semi-analytical Solution for the Sliding Inception of a Spherical Contact[ J] . Journal of Trlbology,2003,125(3) :499—506.
[8] MAJUMDAR A,BHUSHAN B. Fractal Model of Elastic-plastic Contact between Rough Surfaces[ J] . ASME J Trib, 1991,113(1) : 1—11.
[9] WANG Yan-zhong,CHEN Yan-yan,HAN Xiao. Research of Simulation Technology in Low-stress Machining on Tooth Surface of Spiral Bevel Gears Used in Aviation Industry [ J ] . Applied Mechanics and Materials, 2011, 86: 688—691.
[10] WANG Yan-zhong,WEI Bin. Mixed-modal Disk Gas Squeeze Film Theoretical and Experimental Analysis[ J] . International Journal of Modern Physics, 2013, 25(7) : 135—168.
[11] 王延忠,魏彬. 激光微造型表面流体动力润滑分析[ J ] .润滑与密封,2012,37(12) :1—4 WANG Yan-zhong, WEI Bin. Hydrodynamic Lubrication Study on Micro-texture Structure Surface [ J ] . Lubrication Engineering,2012,37(10) :1—5.
[12] 王延忠,魏彬. 大功率重载摩擦元件磨损率的分形模拟方法[ J] . 润滑与密封,2012,37(10) :1—4. WANG Yan-zhong,WEI Bin. Fractal Wear Rate Prediction of Friction Elements with Heavy Duty[ J] . Lubrication Engineering,2012,37(10) :1—5.
[13] 汪家道,陈大融. 规则凹坑表面形貌润滑研究[ J ] . 摩擦学学报,2003,23(1) :52—54.WANG Jia-dao, CHEN Da-rong. Study on Lubrication of Regular Concave Surface[ J] . Tribology,2003,23 (1) :52—54.
[14] WANG Yan-zhong, WEI Bin, WU Xiang-yu. Wet FrictionElements Boundary Friction Mechanism and Friction Coefficient Prediction [ J ] . Tribology Industry, 2012, 34 ( 4 ) :198—205.
[15] WANG Yan-zhong,WEI Bin. Friction Mechanism and Lockup Friction Coefficient Prediction for Sinter Bronze Friction Materials [ J ] . Industrial Lubrication Tribology, 2014, 66(6) :101—106. |
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