Structure failure analysis on metro axle-box hanger due to modal resonance with rail corrugation

Wenbiao Huo, Pingbo Wu, Qunsheng Wang, Lai Wei, Kang Wang, Shidong Wu
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Abstract

During the long-term service of a metro vehicle, different kinds of fracture failure occur on the bogie, with the axle-box hanger being a representative one. To investigate the cause of the hanger structure failure, a study was conducted that combined field investigation with finite element analysis, focusing on the modal resonance behavior between the hanger and the rail corrugation. Based on the findings, a structural optimization of the hanger was proposed and an experimental verification was conducted. The results show that the main reason for the hanger fracture failure is that the resonance phenomenon that occurred in the hanger structural modal frequency when exposed to the rail corrugation, leading to the poor lateral vibration environment of the hanger and the fracture failure in the long-term service operation. The first-order structural modal frequency of the hanger is 432 Hz, which is very close to the wheel/rail excitation frequency of 435 Hz caused by the rail corrugation. The modal frequency of three newly designed hangers can prevent the frequency caused by the rail corrugation. Experimental verification of the new hangers showed a 55.49% lower maximum average acceleration of hanger lateral vibration compared to the original structure, confirming the effectiveness of the redesigned hangers.
轨道波纹模态共振导致的地铁轴箱吊架结构失效分析
在地铁车辆的长期服役过程中,转向架上会出现不同类型的断裂失效,其中具有代表性的是轴箱吊架。为了研究悬挂架结构失效的原因,研究人员将现场调查与有限元分析相结合,重点研究了悬挂架与轨道波纹之间的模态共振行为。根据研究结果,提出了吊架结构优化建议,并进行了实验验证。结果表明,支吊架断裂失效的主要原因是支吊架结构模态频率与钢轨波纹接触时发生共振现象,导致支吊架横向振动环境恶劣,在长期服役运行中发生断裂失效。支吊架的一阶结构模态频率为 432 Hz,与钢轨波纹引起的车轮/钢轨激励频率 435 Hz 非常接近。新设计的三个支吊架的模态频率可以阻止轨道波纹引起的频率。对新支吊架的实验验证表明,与原始结构相比,支吊架横向振动的最大平均加速度降低了 55.49%,证实了重新设计支吊架的有效性。
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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