期刊
TRIBOLOGY INTERNATIONAL
卷 179, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.triboint.2022.108182
关键词
Braking system; Torsional vibration; Negative slope characteristics; Stability
By using a developed braking system torsional dynamics model, this study investigated the effects of dry and wet rail surface conditions on system dynamic responses. Furthermore, the system stability was explored under different disc-pad friction and wheel-rail adhesion characteristics, revealing the interaction mechanism between the disc-pad and wheel-rail sub-systems. The results showed that the wheel-disc torsional vibration was more complicated under wet rail surface conditions, and the braking system had worse stability when negative slope characteristics of disc-pad friction and wheel-rail adhesion were combined.
A high-speed train braking system with the disc-pad sliding friction pair and the wheel-rail rolling friction pair is a classic torsional system. By adopting a developed braking system torsional dynamics model, the influences of dry and wet rail surface conditions on system dynamic responses were investigated. Further, the system stability under different disc-pad friction and wheel-rail adhesion characteristics was explored and the interaction mechanism between the disc-pad and the wheel-rail sub-systems was revealed. The results indicated that the wheel-disc torsional vibration was more complicated under the wet rail surface condition. Moreover, the braking system had worse stability when the negative slope characteristics of disc-pad friction and wheel-rail adhesion were interacted.
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