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    Numerical prediction of ground vibrations induced by high-speed trains including wheel–rail–soil coupled effects

    Neue Suche nach: Gao, Guangyun
    Neue Suche nach: Song, Jian
    Neue Suche nach: Chen, Gongqi
    Neue Suche nach: Yang, Jun

    Abstract A simplified analytical model including the coupled effects of the wheel–rail–soil system and geometric irregularities of the track is proposed for evaluation of the moving train load. The wheel–rail–soil system is simulated as a series of moving point loads on an Euler–Bernoulli beam resting on a visco-elastic half-space, and the wave-number transform is adopted to derive the 2.5D finite element formulation. The numerical model is validated by published data in the literature. Numerical predictions of ground vibrations by using the proposed method are conducted at a site on the Qin-Shen Line in China.

    Highlights A model including the coupled effects of the wheel–rail–soil system is proposed. The model takes into account the track irregularity. The wheel/rail loads decrease with the increase of track irregularity wavelength.

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    Numerical prediction of ground vibrations induced by high-speed trains including wheel–rail–soil coupled effects

    Neue Suche nach: Gao, Guangyun
    Neue Suche nach: Song, Jian
    Neue Suche nach: Chen, Gongqi
    Neue Suche nach: Yang, Jun

    Abstract A simplified analytical model including the coupled effects of the wheel–rail–soil system and geometric irregularities of the track is proposed for evaluation of the moving train load. The wheel–rail–soil system is simulated as a series of moving point loads on an Euler–Bernoulli beam resting on a visco-elastic half-space, and the wave-number transform is adopted to derive the 2.5D finite element formulation. The numerical model is validated by published data in the literature. Numerical predictions of ground vibrations by using the proposed method are conducted at a site on the Qin-Shen Line in China.

    Highlights A model including the coupled effects of the wheel–rail–soil system is proposed. The model takes into account the track irregularity. The wheel/rail loads decrease with the increase of track irregularity wavelength.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Numerical prediction of ground vibrations induced by high-speed trains including wheel–rail–soil coupled effects

    Neue Suche nach: Gao, Guangyun
    Neue Suche nach: Song, Jian
    Neue Suche nach: Chen, Gongqi
    Neue Suche nach: Yang, Jun

    Abstract A simplified analytical model including the coupled effects of the wheel–rail–soil system and geometric irregularities of the track is proposed for evaluation of the moving train load. The wheel–rail–soil system is simulated as a series of moving point loads on an Euler–Bernoulli beam resting on a visco-elastic half-space, and the wave-number transform is adopted to derive the 2.5D finite element formulation. The numerical model is validated by published data in the literature. Numerical predictions of ground vibrations by using the proposed method are conducted at a site on the Qin-Shen Line in China.

    Highlights A model including the coupled effects of the wheel–rail–soil system is proposed. The model takes into account the track irregularity. The wheel/rail loads decrease with the increase of track irregularity wavelength.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Zugriff

    Zugriff prüfen
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    Titel:

    Numerical prediction of ground vibrations induced by high-speed trains including wheel–rail–soil coupled effects

    Beteiligte:

    Gao, Guangyun (Autor:in) / Song, Jian (Autor:in) / Chen, Gongqi (Autor:in) / Yang, Jun (Autor:in)

    Erschienen in:

    Soil Dynamics and Earthquake Engineering ; 77 ; 274-278

    Erscheinungsdatum:

    10.06.2015

    Format / Umfang:

    5 pages

    ISSN:

    0267-7261

    DOI:

    https://doi.org/10.1016/j.soildyn.2015.06.002

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    High-speed train , Ground vibration , 2.5D finite element method , Track geometric irregularities , Wheel–rail–soil coupled effects

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