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Articles

Study on the Mechanism of the Abnormal Phenomenon of Rail Corrugation in the Curve Interval of a Mountain City Metro

, , , &
Pages 996-1007 | Received 21 Mar 2020, Accepted 09 Jun 2020, Published online: 12 Aug 2020
 

Abstract

An abnormal phenomenal of rail corrugation was found in the transition and circular curve interval of the mountain city metro, in which the rail corrugation on the outer rail is more serious and earlier than that on the inner rail, and the wavelengths are also different. In the present article, the frictional self-excited oscillation of the wheel–rail system and the feedback vibration of the rail corrugation are considered comprehensively to study the mechanism of rail corrugation. According to the dynamic analysis of the vehicle track system on the high-incidence section of rail corrugation, finite element models of wheelset–track systems on the smooth track and wear track are established. Then, the unstable vibration mode and dynamic response of the wheelset–track system are calculated by complex eigenvalue analysis and transient dynamic analysis. The consistency of the numerical simulation and field test indicates that the generation of rail corrugation may be affected by the frictional self-excited vibration of the wheelset–track system. Furthermore, the feedback vibration induced by the previous rail corrugation not only aggravates the original rail corrugation but also induces new rail corrugation.

Additional information

Funding

The authors thank the financial support from the National Natural Science Foundation of China (Grant No: 51805057), the Basic Natural Science and Frontier Technology Research Program of the Chongqing Municipal Science and Technology Commission (Grant No: cstc2018jcyjA2567), the Chongqing Municipal Education Commission Science and Technology Research Project (KJQN201900734), the Chongqing Municipal Key Laboratory Open Fund for Integration and Control of Urban Rail Transit Vehicle Systems (Grant No: CKLURTSIC-KFKT-201802), the Major Science and Technology Projects of Sichuan Province (2020ZXZD0019), and Sichuan Province Science and Technology Department Key Research and Development Project (19ZDYF1083).

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