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    Comparison of calculation methods for wheel–switch rail normal and tangential contact

    Xu, Jingmang / Wang, Ping / Ma, Xiaochuan et al. | SAGE Publications | 2017
    Verlag: SAGE Publications

    Comparison of non-Hertzian modeling approaches for wheel–rail rolling contact mechanics in the switch panel of a railway turnout

    Ma, Xiaochuan / Wang, Ping / Xu, Jingmang et al. | SAGE Publications | 2019
    Verlag: SAGE Publications

    Effect of the turning characteristics of underfloor wheel lathes on the evolution of wheel polygonisation

    Cui, Dabin / An, Boyang / Allen, Paul et al. | SAGE Publications | 2019
    Verlag: SAGE Publications

    Assessment of derailment risk in railway turnouts through quasi-static analysis and dynamic simulation

    Wang, Ping / Lai, Jun / Liao, Tao et al. | SAGE Publications | 2022
    Verlag: SAGE Publications

    Numerical analysis of the effect of track parameters on the wear of turnout rails in high-speed railways

    Xu, Jingmang / Wang, Ping / Wang, Jian et al. | SAGE Publications | 2018
    Verlag: SAGE Publications

    Assessing the fast non-Hertzian methods based on the simulation of wheel–rail rolling contact and wear distribution

    An, Boyang / Ma, Daolin / Wang, Ping et al. | SAGE Publications | 2020
    Verlag: SAGE Publications

    Numerical investigation of the fatigue performance of elastic rail clips considering rail corrugation and dynamic axle load

    Wang, Ping / Lu, Jun / Zhao, Caiyou et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    The effect of the frequency-dependent stiffness of rail pad on the environment vibrations induced by subway train running in tunnel

    Wei, Kai / Wang, Ping / Yang, Fan et al. | SAGE Publications | 2016
    Verlag: SAGE Publications

    An investigation into the effect of temperature-dependent stiffness of rail pads on vehicle-track coupled vibrations

    Wei, Kai / Liu, Zi-xuan / Liang, Ying-chun et al. | SAGE Publications | 2017
    Verlag: SAGE Publications

    Vertical track irregularity analysis of high-speed railways on simply-supported beam bridges based on the virtual track inspection method

    Gao, Tianci / Cong, Jianli / Wang, Ping et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    Influence of out-of-round wheels on the vehicle–flexible track interaction at rail welds

    Lulu, G Bethel / Chen, Rong / Wang, Ping et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    Analysis on the track quality evolution law of polyurethane-reinforced ballasted track in high-speed railway

    Xiao, Jie-Ling / Jing, Pu / Yu, Si-Xin et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    Using the geometric wheel-rail contact algorithms for fault detection in turnout areas based on the variable section characteristics of rails

    Qian, Yao / Wang, Ping / Liu, Yibin et al. | SAGE Publications | 2020
    Verlag: SAGE Publications

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

    Ma, Xiaochuan / Wang, Ping / Xu, Jingmang et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    Controlling bridge vibrations using a viscoelastic waveguide absorber

    Zhao, Caiyou / Wang, Ping | SAGE Publications | 2018
    Verlag: SAGE Publications

    Simulation analysis of high-speed turnout point rail switching force considering influence of external locking device

    Fang, Jiasheng / Chen, Rong / Hu, Chenyang et al. | SAGE Publications | 2022
    Verlag: SAGE Publications

    Numerical study of the transition characteristics and related degradation at the flange bearing frog

    Gao, Yuan / Xu, Jingmang / Wang, Ping et al. | SAGE Publications | 2021
    Verlag: SAGE Publications

    Analysis and design of a novel low-noise rail

    Zhao, Caiyou / Wang, Ping | SAGE Publications | 2017
    Verlag: SAGE Publications

    Calculation model of the vehicle – CRTS II coupling system with symplectic method

    Wang, Ping / Xu, Jinhui / Wang, Li et al. | SAGE Publications | 2018
    Verlag: SAGE Publications