Flash Temperature Analysis Method for Polymer Gears With Consideration of Deviations in Meshing Kinematics

Volume 10: 2019 International Power Transmission and Gearing Conference Pub Date : 2019-11-25 DOI:10.1115/detc2019-97824

B. Černe, D. Zorko, J. Duhovnik, J. Tavčar, R. Zavbi

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引用次数: 7

Abstract

The presented work describes a computational method for carrying out a detailed and thorough examination of the flash temperature rise (i.e. the local ‘instantaneous’ temperature increase on a contact interface, due to frictional effects) present on the tooth flanks of a polymer gear pair, composed of a combination of POM and PA66 thermoplastics, during a given meshing cycle. The method involves a decoupled sequential procedure, where first the mechanical response of the gear teeth during a whole meshing cycle is analyzed using finite element analysis and, subsequently, a semi-analytical thermal analysis procedure is employed, with which the local flash temperature rise under a given tooth-pair contact can be evaluated. The method provides an accurate reproduction of the actual thermo-mechanical processes taking place at the gear teeth contact interfaces and allows for an investigation of the influence of deviations in the gear flank geometry and gear tolerances, while retaining a manageable enough form for application with moderate computational resources.

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考虑啮合运动学偏差的聚合物齿轮闪蒸温度分析方法

所提出的工作描述了一种计算方法，用于在给定的啮合周期内对由POM和PA66热塑性塑料组合组成的聚合物齿轮副的齿侧进行详细而彻底的闪变温升(即由于摩擦效应在接触界面上的局部“瞬时”温升)进行检查。该方法采用解耦顺序程序，首先采用有限元分析分析齿轮齿在整个啮合周期内的机械响应，然后采用半解析热分析程序，利用该程序可以评估给定齿副接触下的局部闪蒸温升。该方法提供了在齿轮齿接触界面发生的实际热机械过程的精确再现，并允许对齿轮侧面几何形状和齿轮公差偏差的影响进行调查，同时保留了一个可管理的足够形式，用于中等计算资源的应用。

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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Volume 10: 2019 International Power Transmission and Gearing Conference

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