Numerical simulation of rail surface-initiated rolling contact fatigue in the switch panel of railway turnouts

Ma, Xinkai; Wang, Ping; Xu, Jingmang; Chen, Rong; Liu, Linya

doi:10.1177/0954409720909971

Proceedings of the Institution of Mechanical Engineers, Part F:

2020

DOI: 10.1177/0954409720909971

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Numerical simulation of rail surface-initiated rolling contact fatigue in the switch panel of railway turnouts

Xinkai Ma

Ping Wang

Jingmang Xu

et al.

Abstract: Considering the complex characteristics of the track structure in railway turnouts, it is difficult and also expensive to experimentally study rail damages; therefore, numerical methods are an effective alternative. This study presents a numerical method to simulate rail surface-initiated rolling contact fatigue in the switch panel of railway turnouts. This method includes simulation of the vehicle–turnout wheel–rail dynamic interaction, analysis of the wheel–rail multipoint non-Hertzian rolling contact that c… Show more

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Cited by 8 publications

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References 22 publications

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“…More costly contact models are applied for studying turnouts in static cases [49] or generating approximated models [39]. For the study of either vehicle dynamics or the rail damaging phenomena, the utilization of simplified non-Hertzian contact models presents advantages [8,27,50,51].…”

mentioning

confidence: 99%

Wheel-rail contact models in the presence of switches and crossings

Magalhães

Marques

Antunes

et al. 2022

Vehicle System Dynamics

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Multibody codes are widely used to model and study the operation of railway vehicles on realistic track, where the wheel-rail contact model is the key to represent the vehicle-track interaction forces. However, the development and implementation of wheel-rail contact models in multibody codes remain two active research topics, aiming at improving the accuracy of numerical results and computational efficiency of the dynamics analysis. The realism of numerical results is challenged when considering switches and crossings (S&C), where the most adverse wheel-rail contact conditions occur. This paper presents a benchmark study where the performance of the multibody codes MUBODyn, VOCO and VI-Rail are assessed using three case scenarios that involve typical contact conditions observed in S&C. A focused description of the relevant methods to determine the wheel-rail contact forces is presented for each software. The three scenarios considered in this work have been designed to represent typical challenging contact conditions observed in S&C, i.e. conformal contact, contact with a sharp edge, and impact loads. The scenarios proposed in this work are fully described, making them easily reproducible. The agreement between results is discussed in the framework of the methods implemented in each code. This work highlights the impact of wheelrail contact methods on the results as well as on the computational efficiency of the multibody codes.

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mentioning

confidence: 99%

Wheel-rail contact models in the presence of switches and crossings

Magalhães

Marques

Antunes

et al. 2022

Vehicle System Dynamics

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Analysis of load characteristics and fatigue life prediction of fixed frog nose rail under complex conditions based on load spectrum compilation

Wang,

Liu,

Chen

et al. 2024

Engineering Failure Analysis

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Fatigue damage analysis of the straight switch rail considering complex random loads

Zhu

Wang

et al. 2022

Vehicle System Dynamics

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Numerical simulation of rail surface-initiated rolling contact fatigue in the switch panel of railway turnouts

Cited by 8 publications

References 22 publications

Wheel-rail contact models in the presence of switches and crossings

Wheel-rail contact models in the presence of switches and crossings

Analysis of load characteristics and fatigue life prediction of fixed frog nose rail under complex conditions based on load spectrum compilation

Fatigue damage analysis of the straight switch rail considering complex random loads

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