Analysis of Displacement-Controlled Fretting Between Crossed Parabolic Cylinders in Elasto-plastic Contacts

IF 2.2 3区工程技术 Q2 ENGINEERING, MECHANICAL

Journal of Tribology-transactions of The Asme Pub Date : 2023-08-16 DOI:10.1115/1.4063198

T. Guo, Hao-xian Shi, Ruguo Ji, Bo Li, Chenhang Wang

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引用次数: 0

Abstract

In practice, it is difficult to avoid the axis angle deviation when some regular surfaces are in micro-sliding, such as gears, machined surfaces, etc. In order to better investigate the micro-motion contact characteristics, a crossed paraboloidal contact model under frictional condition is proposed to simulate both tangential displacement-controlled fretting and the evolution of the energy dissipation in a load cycle. By deriving the theoretical of the normal and tangential contact course of the model, the load-displacement curves during initial loading, unloading and reloading stage are presented. On this basis, the hysteresis curve is then obtained by integrating the closed area surrounded by load-displacement during unloading and reloading, which also means that the empirical formulation for micro-slip in a load cycle is constructed. This study also reveals the plastic yield phenomenon under pure normal loading and plastic shakedown behavior caused by cyclic reciprocating displacement loads. In addition, the research on the junction growth, the evolution of tangential load and hysteresis curve with different COFs under multiple-cycle load is also carried out. The implications of involved parameters, such as friction coefficient, axis intersection angle, normal load and so on, are discussed with respect to hysteresis curve shape and energy dissipation. The difference about hysteresis and energy dissipation curves between the paraboloidal contact model and other classic contact models is then presented. It is discovered by comparison with other models that the paraboloidal contact model presents a relatively high energy dissipation in a load cycle.

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弹塑性接触中交叉抛物柱面间位移控制微动的分析

在实践中，当一些规则表面（如齿轮、加工表面等）处于微滑动时，很难避免轴角偏差。为了更好地研究微运动接触特性，提出了摩擦条件下的交叉抛物面接触模型，以模拟切向位移控制的微动和载荷循环中能量耗散的演变。通过推导模型的法向和切向接触过程的理论，给出了初始加载、卸载和再加载阶段的载荷-位移曲线。在此基础上，通过对卸载和再加载过程中负载位移包围的闭合区域进行积分，获得了磁滞曲线，这也意味着构建了负载循环中微滑移的经验公式。该研究还揭示了纯法向载荷下的塑性屈服现象和循环往复位移载荷引起的塑性安定行为。此外，还对不同COFs在多周载荷下的结生长、切向载荷和磁滞曲线的演变进行了研究。讨论了摩擦系数、轴线夹角、法向载荷等相关参数对磁滞曲线形状和能量耗散的影响。然后介绍了抛物面接触模型与其他经典接触模型在磁滞和能量耗散曲线方面的差异。通过与其他模型的比较发现，抛物面接触模型在负载循环中表现出相对较高的能量耗散。

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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来源期刊

Journal of Tribology-transactions of The Asme 工程技术-工程：机械

CiteScore

4.20

自引率

12.00%

发文量

117

审稿时长

4.1 months

期刊介绍： The Journal of Tribology publishes over 100 outstanding technical articles of permanent interest to the tribology community annually and attracts articles by tribologists from around the world. The journal features a mix of experimental, numerical, and theoretical articles dealing with all aspects of the field. In addition to being of interest to engineers and other scientists doing research in the field, the Journal is also of great importance to engineers who design or use mechanical components such as bearings, gears, seals, magnetic recording heads and disks, or prosthetic joints, or who are involved with manufacturing processes. Scope: Friction and wear; Fluid film lubrication; Elastohydrodynamic lubrication; Surface properties and characterization; Contact mechanics; Magnetic recordings; Tribological systems; Seals; Bearing design and technology; Gears; Metalworking; Lubricants; Artificial joints