Experimental investigations and finite element simulation for predicting wear life of overrunning clutches

Engineering Research Express Pub Date : 2024-07-12 DOI:10.1088/2631-8695/ad62b7

Karan A. Dutt, Shashikant J. Joshi, Dhaval B. Shah, Dipak Prajapati

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Abstract

An overrunning clutch, generally known as a freewheel clutch, is a direction dependent torque transmitting device that works on the principle of wedge friction. The overrunning wear characteristics of freewheels are studied using pin-on-disc tribometry. The wear experiments for freewheels are performed at accelerated loads to promote wear in a short period. The overrunning wear life of the clutch under operating conditions is predicted using an appropriate load-life relationship. A finite element-based Archard’s wear model is implemented as a numerical strategy to evaluate the wear profile. The maximum local wear for various loads is computed using experimentally obtained wear and friction coefficients. The numerical simulation is performed with an adaptive mesh technique utilizing incremental nodal displacements to predict surface wear. The experimental and numerical results are compared in terms of wear characteristics. The numerical wear results are almost 11% higher than the experimental results. The wear life of an overrunning clutch is predicted in terms of overrunning speed based on the wear amount.

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预测超越离合器磨损寿命的实验研究和有限元模拟

超越离合器一般称为单向离合器，是一种根据楔形摩擦原理工作的与方向有关的扭矩传递装置。单向离合器的超越磨损特性是通过盘上销钉摩擦测量法进行研究的。单向离合器的磨损实验是在加速载荷下进行的，以促进短时间内的磨损。利用适当的负载-寿命关系预测离合器在工作条件下的超越磨损寿命。采用基于有限元的 Archard 磨损模型，作为评估磨损轮廓的数值策略。利用实验获得的磨损和摩擦系数计算各种载荷下的最大局部磨损。数值模拟采用自适应网格技术，利用增量节点位移来预测表面磨损。实验结果和数值结果在磨损特性方面进行了比较。数值磨损结果比实验结果高出近 11%。根据磨损量，以超越速度来预测超越离合器的磨损寿命。

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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Engineering Research Express

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