| 1. | Fretting wear mechanism of plasma sprayed wc 18co coating
涂层微动磨损机理的研究 |
| 2. | Study on fretting wear behaviour of crn coatings by ibed
膜层及其微动摩擦学性能研究 |
| 3. | 05 . 02 test method for fretting wear protection by lubricating grease
润滑脂磨损侵蚀防护试验方法 |
| 4. | Research on fretting wear behavior of am60b magnesium alloy in sliding regime
镁合金在滑移区的微动磨损行为研究 |
| 5. | Standard test method for fretting wear protection by lubricating greases
润滑脂对流水侵蚀磨损保护性的标准试验方法 |
| 6. | Friction and wear performance on fretting wear of steel wires in hoisting ropes
提升钢丝绳的钢丝微动摩擦磨损特性研究 |
| 7. | Fretting wear and its induced fatigue and fracture of wires was one of the major failure modes of the hoisting ropes
摘要钢丝间的微动磨损以及由此引起的钢丝的疲劳断裂是提升钢丝绳失效的主要原因之一。 |
| 8. | However , the increasing trends of wear depth varies at different fretting wear conditions due to the simultaneous variations of contact area and contact stress in the process of fretting wear
建立的钢丝接触有限元模型表明,接触区中心的最大接触应力随着接触载荷的增加而增大,随着嵌入深度的加深而减小。 |
| 9. | The objective of the test process was to examine how the signal - path loss varied after exposure to different levels of vibration , and if discontinuities could be forced through long - term fretting wear or by unbiasing the spring contact with excessive shock
测试的目标是检验在施加不同程度的振动之后,信号路径损失是如何变化的,以及是否会通过长期接触磨损或通过用过度冲击使弹簧不偏置而形成不连续性。 |
| 10. | A series of tests were performed on the self - made fretting wear test rig to examine the fretting wear of steels , by taking the wear depth of steel wires as a characterization parameter describing the fretting wear in relation to contact load and fretting time . the results demonstrates that the fretting wear depth increases with the increasing of the contact load and fretting time
结果表明,钢丝试样的微动磨损深度随着接触载荷和微动时间的增加而呈增长趋势,但由于接触面积和接触应力在微动磨损过程中随着接触载荷和微动时间的变化而变化,使磨损深度在不同磨损工况下增长趋势不同。 |
