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| In-situ friction and wear responses of WS2 films to space environment: Vacuum and atomic oxygen 期刊论文 Applied Surface Science, 2018, 卷号: 447, 期号: 0, 页码: 368-373 Authors: Xu SS(徐书生); Sun JY(孙嘉奕); Weng LJ(翁立军); Yong Hua; Liu WM(刘维民); Anne Neville; Hu M(胡明); Gao XM(高晓明); Gao XM(高晓明); Hu M(胡明) Adobe PDF(2564Kb)  |  Favorite  |  View/Download:299/7  |  Submit date:2018/04/07 In-situ Atomic Oxygen Ws2 Films Friction Wear |
| Microstructure, mechanical and tribological behavior of the TiAl-based composites reinforced with high volume fraction of the nearly network Ti2AlC particulates 期刊论文 Journal of Materials Science & Technology, 2018, 卷号: 34, 期号: 4, 页码: 670-678 Authors: Cheng J(程军); Zhu SY(朱圣宇); Yu Y(于源); Yang J(杨军); Liu WM(刘维民); Yang J(杨军) Adobe PDF(5482Kb)  |  Favorite  |  View/Download:207/9  |  Submit date:2017/12/06 Tial/ti2alc Composites Network Structure Wear Resistance |
| Surface Modification of MoS2 Nanosheets as Effective Lubricant Additives for Reducing Friction and Wear in Poly-α-olefin 期刊论文 Industrial & Engineering Chemistry Research, 2018, 卷号: 57, 页码: 8105−8114 Authors: Wu XH(吴新虎); Gong KL(宫奎亮); Zhao GQ(赵改青); Lou WJ(娄文静); Wang XB(王晓波); Liu WM(刘维民); Lou WJ(娄文静); Wang XB(王晓波) Adobe PDF(891Kb)  |  Favorite  |  View/Download:266/9  |  Submit date:2018/07/04 Mos2 Surface Modification Lubricating Oil Additive |
| MoS2/WS2 Quantum Dots as High-Performance Lubricant Additive in Polyalkylene Glycol for Steel/Steel Contact at Elevated Temperature 期刊论文 Advanced Materials Interfaces, 2018, 卷号: 5, 期号: 1, 页码: 1700859(1-10) Authors: Wu XH(吴新虎); Gong KL(宫奎亮); Zhao GQ(赵改青); Lou WJ(娄文静); Wang XB(王晓波); Liu WM(刘维民); Lou WJ(娄文静) Adobe PDF(6726Kb)  |  Favorite  |  View/Download:341/8  |  Submit date:2018/01/11 Friction Reduction And Antiwear High-temperature Lubricant Lubricant Additive Mos2 Ws2 Quantum Dots |
| 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:124/4  |  Submit date:2017/11/19 Leo Atomic Oxygen Mos2 Films |
| TiB2 reinforced hybrid-fabric composites with enhanced thermal and mechanical properties for high-temperature tribological applications 期刊论文 Tribology International, 2017, 卷号: 115, 页码: 8-17 Authors: Yuan JY(袁军亚); Zhang ZZ(张招柱); Yang MM(杨明明); Guo F(郭芳); Men XH(门学虎); Liu WM(刘维民); Zhang ZZ(张招柱); Men XH(门学虎) Adobe PDF(4256Kb)  |  Favorite  |  View/Download:91/1  |  Submit date:2017/11/24 High Temperature Tribology Polymer Composites Tribofihn Tib2 |
| Tribological behaviors of in situ TiB2 ceramic reinforced TiAl-based composites under sea water environment 期刊论文 Ceramics International, 2017, 卷号: 43, 期号: 5, 页码: 4314-4323 Authors: Wang L(王龙); Cheng J(程军); Qiao ZH(乔竹辉); Yang J(杨军); Liu WM(刘维民); Cheng J(程军); Yang J(杨军) Adobe PDF(4831Kb)  |  Favorite  |  View/Download:118/1  |  Submit date:2017/04/07 Composites Wear Resistance Tib2 |
| High Temperature Wear Behaviors of TiAl–TiB2 Composites 期刊论文 Tribology Letters, 2017, 卷号: 65, 期号: 4, 页码: 144(1-11) Authors: Wang L(王龙); Cheng J(程军); Zhu SY(朱圣宇); Yu Y(于源); Qiao ZH(乔竹辉); Yang J(杨军); Liu WM(刘维民); 程军; 杨军 Adobe PDF(2979Kb)  |  Favorite  |  View/Download:137/2  |  Submit date:2017/11/16 Tial Based Composites High Temperature Wear Resistance Tib2 |
| A novel route to prepare a Ti3SnC2/Al2O3 composite 期刊论文 Scripta Materialia, 2017, 卷号: 131, 页码: 80-83 Authors: Wang S(王帅); Cheng J(程军); Zhu SY(朱圣宇); Ma JQ(马吉强); Qiao ZH(乔竹辉); Yang J(杨军); Liu WM(刘维民); Yang J(杨军) Adobe PDF(672Kb)  |  Favorite  |  View/Download:239/4  |  Submit date:2017/02/13 Ti3snc2 M-n + (1)a(Xn) Phases Synthesis Spark Plasma Sintering Tem |
| Wear resistance of superior structural WS2-Sb2O3/Cu nanoscale multilayer film 期刊论文 Materials & design, 2016, 卷号: 93, 页码: 494-502 Authors: Xu SS(徐书生); Zheng JY(郑建云); Hao JY(郝俊英); Kong LG(孔良桂); Liu WM(刘维民); Hao JY(郝俊英); Liu WM(刘维民) Adobe PDF(3644Kb)  |  Favorite  |  View/Download:292/7  |  Submit date:2016/01/22 Ws2 Based Film Sb2o3 Doping Cu Sublayer Nanostructure Wear Resistance |