高速列车制动系统粘滑特性分析:不同摩擦半径的盘块摩擦系统

Changlin Lu, Quan-Rui Wang, Zhiwei Wang, J. Mo, S. Zhu, Wenwei Jin
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引用次数: 1

摘要

摘要根据高速列车制动系统中垫片摩擦半径的差异,通过试验装置对不同摩擦半径的盘块摩擦系统进行了粘滑试验。基于试验结果,分析了摩擦半径变化时盘块摩擦系统的粘滑振动特性,并识别了相应的指数型和分数型Stribeck模型参数。实验结果表明:随着摩擦半径的增大,振动幅值先增大后减小,粘滑振动频率增大;识别的Stribeck模型参数表明,随着摩擦半径的增大,衰减系数增大,静摩擦系数减小,动摩擦系数先减小后增大。此外,识别出的指数形式的Stribeck模型比分数形式的模型更能准确地反映盘块摩擦系统的粘滑特性。该方法可进一步应用于高速列车制动系统动力学特性的研究。
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Stick–Slip Characteristic Analysis of High-Speed Train Brake Systems: A Disc–Block Friction System with Different Friction Radii
Inspired by the difference in the friction radii of the pads from the high-speed train brake system, stick–slip experiments for a disc–block friction system with different friction radii were carried out via a test device. Based on the test results, the stick–slip vibration characteristics of the disc–block friction system with variation in the friction radius were analyzed, and the corresponding Stribeck model parameters in exponential and fractional forms were identified. The experimental results show that with an increase in the friction radius the vibration amplitude first increased and then decreased and the frequency of stick–slip vibration increased. The identified Stribeck model parameters show that the decay factors increased, the static friction coefficient decreased, and the dynamic friction coefficient decreased first and then increased as the friction radius increased. Moreover, the identified Stribeck model in an exponential form can more accurately reflect the stick–slip characteristics of a disc–block friction system than the model in a fractional form. It can be further applied in the investigation of the dynamic behaviors of high-speed train brake systems.
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