Influence of thermal loading parameters and microstructure on the formation of stratified surface layers on railway wheels

Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit Pub Date : 2024-01-23 DOI:10.1177/09544097241229121

M. Freisinger, K. Pichelbauer, G. Trummer, K. Six

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Abstract

Due to an increasing trend towards environmentally friendly public transport, rail networks face higher speeds and wheel loads affecting the material degradation of the railway components. Within this study, influencing parameters on the formation of stratified surface layers, forming on railway wheels during service due to thermal loadings in the wheel-rail contact, are studied. These layers consist of white etching layer and underlying brown etching layer and are susceptible to fatigue crack initiation. By using laser surface treatments, its formation based on two consecutive thermal loadings is systematically demonstrated on ER7 wheel steel. Further, a decrease in layer thickness with decreasing laser power, and an increase in brown etching layer thickness with increasing laser power difference is shown. Moreover, the effect of finer grain size leading to an increased layer thickness, and the influence of the chemical composition by comparing the standard ER7 wheel steel to a micro-alloyed wheel steel are demonstrated.

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热加载参数和微观结构对铁路车轮分层表层形成的影响

由于环保型公共交通的发展趋势日益明显，铁路网络面临着更高的速度和车轮载荷，这对铁路部件的材料降解产生了影响。本研究对铁路车轮在使用过程中由于轮轨接触热负荷而形成的分层表面层的影响参数进行了研究。这些层由白色蚀刻层和底层棕色蚀刻层组成，容易产生疲劳裂纹。通过使用激光表面处理技术，在 ER7 车轮钢上系统地展示了基于两次连续热负荷的腐蚀层形成过程。结果表明，随着激光功率的减小，层厚度减小，而随着激光功率差的增大，棕色蚀刻层厚度增大。此外，通过将标准 ER7 车轮钢与微合金车轮钢进行比较，还证明了晶粒更细导致层厚度增加的影响，以及化学成分的影响。

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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Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit

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