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    Train-Induced Vibrations on Urban Metro and Tram Turnouts

    Source: Journal of Transportation Engineering, Part A: Systems:;2009:;Volume ( 135 ):;issue: 007
    Author:
    Stefano Bruni
    ,
    Ioannis Anastasopoulos
    ,
    Stefano Alfi
    ,
    André Van Leuven
    ,
    Marios Apostolou
    ,
    George Gazetas
    DOI: 10.1061/(ASCE)TE.1943-5436.0000008
    Publisher: American Society of Civil Engineers
    Abstract: In contrast to standard track, where train-induced vibrations are mainly related to track irregularities, the dynamic response of turnouts is dominated by the nonuniform geometry of wheel-rail contact and variations in track flexibility. Such peculiarities are responsible for the development of strong vibrations during train passage. At the point of rail intersection (heart), where a gap is unavoidable to provide the necessary wheel flange clearance, the system is subjected to severe impact loading, critical for the design and maintenance of railway tracks. Especially in the case of urban turnouts, the vibration levels are also directly related to the exerted noise nuisance. This paper presents two analysis methods to simulate train-turnout interaction. The first is based on a multibody model of the trainset and of wheel-rail contact, utilizing a simplified finite element model for the turnout. The second focuses on the details of the turnout, which is modeled with three-dimensional finite elements, utilizing a simplified model to compute impact loading due to wheel passage over the flange-way gap. The two models are validated against line measurements on three different urban metro and tram networks. A parametric analysis is conducted to investigate the role of soil-structure interaction, which is shown be important for the dynamic response of the system.
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      Train-Induced Vibrations on Urban Metro and Tram Turnouts

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    http://yetl.yabesh.ir/yetl1/handle/yetl/69016
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    • Journal of Transportation Engineering, Part A: Systems

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    contributor authorStefano Bruni
    contributor authorIoannis Anastasopoulos
    contributor authorStefano Alfi
    contributor authorAndré Van Leuven
    contributor authorMarios Apostolou
    contributor authorGeorge Gazetas
    date accessioned2017-05-08T22:01:28Z
    date available2017-05-08T22:01:28Z
    date copyrightJuly 2009
    date issued2009
    identifier other%28asce%29te%2E1943-5436%2E0000067.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/69016
    description abstractIn contrast to standard track, where train-induced vibrations are mainly related to track irregularities, the dynamic response of turnouts is dominated by the nonuniform geometry of wheel-rail contact and variations in track flexibility. Such peculiarities are responsible for the development of strong vibrations during train passage. At the point of rail intersection (heart), where a gap is unavoidable to provide the necessary wheel flange clearance, the system is subjected to severe impact loading, critical for the design and maintenance of railway tracks. Especially in the case of urban turnouts, the vibration levels are also directly related to the exerted noise nuisance. This paper presents two analysis methods to simulate train-turnout interaction. The first is based on a multibody model of the trainset and of wheel-rail contact, utilizing a simplified finite element model for the turnout. The second focuses on the details of the turnout, which is modeled with three-dimensional finite elements, utilizing a simplified model to compute impact loading due to wheel passage over the flange-way gap. The two models are validated against line measurements on three different urban metro and tram networks. A parametric analysis is conducted to investigate the role of soil-structure interaction, which is shown be important for the dynamic response of the system.
    publisherAmerican Society of Civil Engineers
    titleTrain-Induced Vibrations on Urban Metro and Tram Turnouts
    typeJournal Paper
    journal volume135
    journal issue7
    journal titleJournal of Transportation Engineering, Part A: Systems
    identifier doi10.1061/(ASCE)TE.1943-5436.0000008
    treeJournal of Transportation Engineering, Part A: Systems:;2009:;Volume ( 135 ):;issue: 007
    contenttypeFulltext
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