Non-Linear Wear Propagation Property and Prediction Method Having Influencing Pitting Failure of Helical Gears

IF 0.9 Q4 ENGINEERING, MECHANICAL

Tribology Online Pub Date : 2022-03-15 DOI:10.2474/trol.17.44

K. Kumagai, Hanlin Liu, Sérgio Kurokawa

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引用次数: 0

Abstract

A simulation method taking into account sequential changes of the tooth contact state due to the tooth surface wear was developed in order to evaluate the influence of wear on pitting durability. As a result of calculating the tooth end relief shape as a parameter, the variation in the wear propagation rate was obtained depending on the contact stress distribution. The study also obtained the nonlinear wear propagation property, in which the initial wear propagation was rapid and then changed gradually. In order to verify the wear characteristics, gear durability tests were conducted using gears with tooth tip modification and end relief, and sequential changes in the tooth surface wear state were observed. The test results revealed that the non-linear wear propagation property was obtained as in the calculation results. Wear propagation in the tooth lead direction and pitting life were able to be predicted. Using this calculation method and the experimental evaluation, it was made clear that the temporal alteration of contact stress and the non-linear propagation changed the pitting initiation timing and position, and may also have an effect on the pitting durability.

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影响斜齿轮点蚀失效的非线性磨损传播特性及预测方法

为了评估磨损对点蚀耐久性的影响，提出了一种考虑齿面磨损引起的齿面接触状态序列变化的模拟方法。通过计算齿端卸荷形状作为参数，得到了磨损传播速率随接触应力分布的变化规律。研究还得到了非线性磨损扩展特性，即初始磨损扩展迅速，然后逐渐变化。为了验证其磨损特性，采用齿尖修形和端部卸荷的齿轮进行了齿轮耐久性试验，观察了齿面磨损状态的顺序变化。试验结果表明，得到了与计算结果一致的非线性磨损传播特性。能够预测齿向磨损扩展和点蚀寿命。通过该计算方法和试验评价，明确了接触应力的时间变化和非线性传播改变了点蚀发生的时间和位置，并可能对点蚀耐久性产生影响。

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

Tribology Online ENGINEERING, MECHANICAL-

CiteScore

1.80

自引率

10.00%

发文量

审稿时长

23 weeks