The influence of physical separation between cycles on the wear behavior of connector contact materials

P. Lees
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引用次数: 3

Abstract

The wear behavior of connector contact materials has traditionally been evaluated using reciprocating motion with continuous contact between the rider and flat up to the end-of-test. Initial contact establishes the location of the wear tracks and spots. Connector members, on the other hand are physically separated between cycles. Further, because of manufacturing tolerances, the wear tracks for each cycle may not coincide. This study characterizes the influence of physical separation between cycles on the wear behavior of connector contact materials. Both electroplated and metallurgically processed contact materials were cycled under load first without, then with, physical separation between cycles. Two mating geometries were employed representing "preferred" and "troublesome" contact geometries as defined by the magnitude of Hertz stress. Methods of evaluation included determination of the coefficient of friction and quantitative metallography. It was found that, high contact material hardness reduces the initial coefficient of friction but does not assure acceptable wear behavior, the wear behavior of each material correlated with a basic model, physical separation can lead to multiple wear spots on the riders forestalling the onset of asperity junction growth, and the mating geometry did not affect wear behavior.
循环之间的物理分离对连接器接触材料磨损性能的影响
传统上,连接器接触材料的磨损行为是通过在测试结束之前,在承托件与平板之间持续接触的往复运动来评估的。初始接触确定磨损痕迹和斑点的位置。另一方面,连接器成员在循环之间是物理分离的。此外,由于制造公差,每个周期的磨损轨迹可能不一致。本研究表征了循环之间的物理分离对连接器接触材料磨损行为的影响。电镀和冶金加工的触点材料首先在负载下循环,然后在循环之间进行物理分离。根据赫兹应力的大小,采用了两种配合几何形状来表示“首选”和“麻烦”的接触几何形状。评价方法包括摩擦系数测定和定量金相法。研究发现,高接触材料硬度降低了初始摩擦系数,但不能保证可接受的磨损行为,每种材料的磨损行为与一个基本模型相关,物理分离可以导致车座上的多个磨损点,阻止了粗糙结生长的开始,并且配合几何形状不影响磨损行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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