Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Train effect on the vibration behavior of high-speed railway track-bridge system subjected to seismic excitation
Abstract Previous studies reached contrary conclusions regarding the train effect on the lateral structural vibration of track-bridge system. Existing shaking table tests failed to address the contrary due to their lack of running train model. In this paper, a shaking table test with a running train model was carried out to verify the train hitting and damping effects, and evaluate the effect degree of train operation on the structural vibration. The results show that the hitting effect on the track structure vibration is considerable but that on the bridge structure vibration is limited; the damping effect on the track and bridge structure vibrations is not significant; under seismic excitation, the irregularity-induced vibration increment of track structure reaches 300%, while that of bridge structure is small; the aseismic design of high-speed railway track-bridge system can be simplified by ignoring the train if the bridge structure response is adopted as the major evaluation index.
Highlights The novelty of the research: A shaking table test with a running train was carried out. The assumption of train hitting effect was confirmed through the test. The assumption of train damping effect was rejected through the test. The effect degree of train operation on the structural vibration was evaluated.
Train effect on the vibration behavior of high-speed railway track-bridge system subjected to seismic excitation
Abstract Previous studies reached contrary conclusions regarding the train effect on the lateral structural vibration of track-bridge system. Existing shaking table tests failed to address the contrary due to their lack of running train model. In this paper, a shaking table test with a running train model was carried out to verify the train hitting and damping effects, and evaluate the effect degree of train operation on the structural vibration. The results show that the hitting effect on the track structure vibration is considerable but that on the bridge structure vibration is limited; the damping effect on the track and bridge structure vibrations is not significant; under seismic excitation, the irregularity-induced vibration increment of track structure reaches 300%, while that of bridge structure is small; the aseismic design of high-speed railway track-bridge system can be simplified by ignoring the train if the bridge structure response is adopted as the major evaluation index.
Highlights The novelty of the research: A shaking table test with a running train was carried out. The assumption of train hitting effect was confirmed through the test. The assumption of train damping effect was rejected through the test. The effect degree of train operation on the structural vibration was evaluated.
Train effect on the vibration behavior of high-speed railway track-bridge system subjected to seismic excitation
Yu, Jian (Autor:in) / Zhou, Wangbao (Autor:in) / Jiang, Lizhong (Autor:in) / Peng, Kang (Autor:in) / Zu, Lingzhi (Autor:in)
18.05.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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