Selected(0)Clear
Items/Page: Sort: |
| 化学复合镀层与Ti6Al4V为配副时高温摩擦磨损性能的研究 期刊论文 摩擦学学报, 2014, 卷号: 34, 期号: 1, 页码: 28-35 Authors: 李珍 ; 吕晋军 ; 马文林 ; 王静波 ; 陈建敏![](/image/person.jpg)
Adobe PDF(515Kb)  |   Favorite  |  View/Download:263/2  |  Submit date:2014/12/22 化学复合镀 Ni - p - Mos2 和Ni - p - Caf2 复合镀层 高温摩擦磨损性能 Electroless Composite Plating Ni - p - Mos2 And Ni - p - Caf2 Composite Coatings High Temperature Friction And Wear Performance |
| Cavitation erosion of several oxy-fuel sprayed coatings tested in deionized water and artificial seawater 期刊论文 Wear, 2014, 卷号: 311, 期号: 1-2, 页码: 81-92 Authors: Hou GL(侯国梁) ; Zhao XQ(赵晓琴); Zhou HD(周惠娣) ; Lv JJ(吕晋军) ; An YL(安宇龙) ; Chen JM(陈建敏) ; Yang J(杨杰) ; Hou GL(侯国梁) ; An YL(安宇龙) ; Chen JM(陈建敏)![](/image/person.jpg)
Adobe PDF(4892Kb)  |   Favorite  |  View/Download:342/4  |  Submit date:2014/10/17 Thermal Spray Coatings Optical Microscopy Erosion Testing Cavitation Erosion |
| Tribological characteristics of electroless Ni-P-MoS2 composite coatings at elevated temperatures 期刊论文 Applied Surface Science, 2013, 卷号: 264, 页码: 516-521 Authors: Li Z(李珍) ; Wang JB(王静波) ; Lv JJ(吕晋军) ; Meng JH(孟军虎) ; Meng JH(孟军虎)
Adobe PDF(2238Kb)  |   Favorite  |  View/Download:335/2  |  Submit date:2013/12/03 Electroless Tribological Characteristic Ni–p–mos2 Composite Coating Lubricious Oxide Film High-temperature |
| 配副材料对镍-磷-碳化硅化学复合镀层摩擦磨损性能的影响 期刊论文 电镀与涂饰, 2012, 卷号: 31, 期号: 4, 页码: 26-29 Authors: 李珍 ; 韩杰胜 ; 马文林 ; 吕晋军![](/image/person.jpg)
Adobe PDF(2316Kb)  |   Favorite  |  View/Download:228/2  |  Submit date:2013/07/12 镍-磷合金 碳化硅 复合镀层 化学镀 摩擦 磨损 配副材料 Nickel-phosphorous Alloy Silicon Carbide Composite Coating Electroless Plating Friction Wear Counterpart Material |
| The research on wear performance at elevated temperature of Ni-based infiltrated layer 期刊论文 Advanced Materials Research, 2011, 卷号: 154-155, 页码: 1375-1378 Authors: Yang GR(杨贵荣); Sun XM(孙显明); Zhou Y(周优); Song WM(宋文明); Ma Y(马颖); Lv JJ(吕晋军) ; Hao Y(郝远)
Adobe PDF(7343Kb)  |   Favorite  |  View/Download:174/0  |  Submit date:2012/09/24 Ni-based Infiltrated Layer Microstructure Wear Behavior Elevated Temperature |