Tribo-informatics Approach to Investigate the Friction and Wear of Bushings in the Variable Stator Vane System

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:10.1115/1.4063186

Ke He, Yufei Ma, Zhinan Zhang

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Abstract

Determining the friction and wear behaviors of aero-engine key components under realistic conditions is important to improve their long-term reliability and service life. In this paper, the friction and wear behaviors of different bushing materials in the variable stator vane (VSV) system were investigated through the basic pin-on-disc test and actual shaft-bushing test, and different machine learning (ML) models were established based on the experimental information to predict the coefficient of friction (COF) and wear rate. The results indicated that there is a significant temperature warning line for the wear amount of the polymer material, while the superalloy material exhibited stable tribological performance under experimental load and temperature conditions. ML analysis indicated that the eXtreme Gradient Boosting (XGB) outperformed other ML algorithms in predicting the COF (R-square value = 0.956), while the Kernel Ridge Regression (KRR) produced the best performance for predicting the wear rate (R-square value = 0.997). The tribo-informatics research for bushings in the VSV system can accelerate the structural optimization and material selection, and support the evaluation of new structures and materials.

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研究变定子叶片系统中衬套摩擦磨损的摩擦信息学方法

确定航空发动机关键部件在实际条件下的摩擦磨损行为，对于提高其长期可靠性和使用寿命具有重要意义。本文通过基本销盘试验和实际轴衬试验，研究了不同轴衬材料在可变定子叶片（VSV）系统中的摩擦磨损行为，并基于实验信息建立了不同的机器学习（ML）模型来预测摩擦系数（COF）和磨损率。结果表明，聚合物材料的磨损量存在显著的温度警戒线，而高温合金材料在实验载荷和温度条件下表现出稳定的摩擦学性能。ML分析表明，极限梯度提升（XGB）在预测COF方面优于其他ML算法（R平方值=0.956），而核岭回归（KRR）在预测磨损率方面表现最好（R平方价值=0.997）。VSV系统中衬套的摩擦学信息学研究可以加速结构优化和材料选择，并支持对新结构和材料的评估。

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