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Influence of the motion conditions of wheelsets on dynamic derailment behaviour of a bogie in railway turnouts

Jun Lai, Jingmang Xu, Zhaoguang Zheng, Ping Wang, Shuguo Wang

2021Vehicle System Dynamics17 citationsDOI

Abstract

Wheel climb derailment frequently occurs in turnouts. This is usually because track alignments in the turnout area are very poor and the cross-sections of switch rail are not uniform. Most previous studies focused on derailments in straight or curved lines. For this reason, understanding the derailment mechanism in turnouts and revealing the influence of the wheelset motion conditions on dynamic derailment behaviour are fundamental for the development of the required dynamic derailment criteria. For this paper, a half-vehicle multi-body dynamic model for derailment simulation was established and validated. Then, the effect of three different running cases with different wheelset motion conditions was further analysed. The results show that the variable cross-sections of switch rail along the longitudinal direction with a small contact angle are the root cause of the wheel climb derailment when compared with straight and curved lines. The wheels start climbing the switch rail at regions of rail top width from 5 to 20 mm. If the effect of the switch rail is ignored, the derailment risk in the guide curve is significantly reduced. This paper can contribute to the mitigation of derailment in railway turnouts as well as to the development of safety assessment criteria.

Topics & Concepts

DerailmentBogieClimbStructural engineeringEngineeringTrack (disk drive)Mechanism (biology)Automotive engineeringMechanical engineeringAerospace engineeringEpistemologyPhilosophyRailway Engineering and DynamicsCivil and Geotechnical Engineering ResearchGeotechnical Engineering and Underground Structures
Influence of the motion conditions of wheelsets on dynamic derailment behaviour of a bogie in railway turnouts | Litcius