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| Vacuum tribological behaviors of CoCrFeNi high entropy alloy at elevated temperatures 期刊论文 Wear, 2020, 卷号: 15, 期号: 203368, 页码: 546-457 Authors: Geng YS(耿钰山); Chen J(陈娇); Tan H(谈辉); Cheng J(程军); Yang J(杨军); Liu WM(刘维民) Adobe PDF(5915Kb)  |  Favorite  |  View/Download:99/1  |  Submit date:2020/11/30 CoCrFeNi high entropy alloy Vacuum High temperature Spark plasma sintering Tribo-chemistry |
| Response of RF-sputtered MoS2 composite films to LEO space environment 期刊论文 Vacuum, 2017, 卷号: 144, 页码: 72-79 Authors: Gao XM(高晓明); Hu M(胡明); Sun JY(孙嘉奕); Fu YL(伏彦龙); Yang J(杨军); Liu WM(刘维民); Weng LJ(翁立军); Weng LJ(翁立军); Hu M(胡明); Sun JY(孙嘉奕) Adobe PDF(2101Kb)  |  Favorite  |  View/Download:128/4  |  Submit date:2017/11/19 Leo Atomic Oxygen Mos2 Films |
| High-temperature tribological behavior of a nickel alloy matrix solid-lubricating composite under vacuum 期刊论文 Tribology International, 2017, 卷号: 110, 页码: 52-56 Authors: Zhen JM(甄金明); Cheng J(程军); Zhu SY(朱圣宇); Hao JY(郝俊英); Qiao ZH(乔竹辉); Yang J(杨军); Liu WM(刘维民); Yang J(杨军) Adobe PDF(938Kb)  |  Favorite  |  View/Download:275/8  |  Submit date:2017/05/22 Metal-matrix Composite Solid Lubrication Vacuum High-temperature |
| High temperature tribological properties of a nickel-alloy-based solid-lubricating composite: Effect of surface tribo-chemistry, counterpart and mechanical properties 期刊论文 Wear, 2017, 卷号: 386-387, 页码: 39-48 Authors: Cheng J(程军); Li F(李斐); Zhu SY(朱圣宇); Hao JY(郝俊英); Yang J(杨军); Li WS(李文生); Liu WM(刘维民); Yang J(杨军) Adobe PDF(9297Kb)  |  Favorite  |  View/Download:167/3  |  Submit date:2017/07/27 Metal-matrix Composite Tribochemistry High Temperature Solid Lubricants |
| Friction and wear behavior of Ni-based solid-lubricating composites at high temperature in a vacuum environment 期刊论文 Materials and Design, 2017, 卷号: 122, 页码: 405-413 Authors: Cheng J(程军); Zhen JM(甄金明); Zhu SY(朱圣宇); Yang J(杨军); Ma JQ(马吉强); Li WS(李文生); Liu WM(刘维民); Yang J(杨军) Adobe PDF(3209Kb)  |  Favorite  |  View/Download:200/5  |  Submit date:2017/07/27 Vacuum High Temperature Solid-lubricating Tribological Characteristics Ni-based Composite |
| Friction and wear behavior of nanoeutectic Fe1.87C0.13 under air and vacuum conditions 期刊论文 Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2016, 卷号: 230, 期号: 4, 页码: 481-487 Authors: Li F(李斐); Kang YH(康永海); Fu LC(符立才); Qiao ZH(乔竹辉); Liu WM(刘维民); Yang J(杨军); Qiao ZH(乔竹辉); Yang J(杨军) Adobe PDF(1183Kb)  |  Favorite  |  View/Download:183/5  |  Submit date:2016/05/14 Unlubricated Wear Nanostructured Materials Ferrous Alloys Vacuum Combustion Synthesis |
| Effects of sliding speed and testing temperature on the tribological behavior of a nickel-alloy based solid-lubricating composite 期刊论文 Wear, 2016, 卷号: 368, 页码: 45-52 Authors: Zhen JM(甄金明); Zhu SY(朱圣宇); Cheng J(程军); Liu WM(刘维民); Yang J(杨军); Qiao ZH(乔竹辉); Yang J(杨军) Adobe PDF(3791Kb)  |  Favorite  |  View/Download:168/4  |  Submit date:2016/10/31 High Temperature Dry Sliding Metal Matrix Composite Solid Lubricants |
| LEO space environment exposure resistant behavior of Ag-Cu films 期刊论文 Surface and Coatings Technology, 2015, 卷号: 275, 页码: 303-308 Authors: Gao XM(高晓明); Fu YL(伏彦龙); Hu M(胡明); Sun JY(孙嘉奕); Yang J(杨军); Liu WM(刘维民); Weng LJ(翁立军); Weng LJ(翁立军) Adobe PDF(1245Kb)  |  Favorite  |  View/Download:252/7  |  Submit date:2015/10/29 Leo Atomic Oxygen Ag-cu Film |
| LEO space environment exposure resistant behavior of Ag–Cu films 期刊论文 Surface & Coatings Technology, 2015, 卷号: 275, 页码: 303-308 Authors: Gao XM(高晓明); Fu YL(伏彦龙); Hu M(胡明); Sun JY(孙嘉奕); Yang J(杨军); Liu WM(刘维民); Weng LJ(翁立军); 翁立军 Adobe PDF(1245Kb)  |  Favorite  |  View/Download:153/4  |  Submit date:2015/12/14 Leo Atomic Oxygen Ag–cu Film |
| Tribological behavior of Fe3Al-60 wt.% Fe3AlC0.5 composite under air and vacuum conditions 期刊论文 International Journal of Materials Research, 2014, 卷号: 105, 期号: 10, 页码: 999-1003 Authors: Kang YH(康永海); Hao JY(郝俊英); Qiao ZH(乔竹辉); Fu LC(符立才); Liu WM(刘维民); Yang J(杨军); Hao JY(郝俊英) Adobe PDF(4693Kb)  |  Favorite  |  View/Download:407/4  |  Submit date:2014/10/28 Intermetallics Wear Mechanism Vacuum Friction Adhesion |