Coupled dynamic model for pile-soil-periodic-viaduct under moving loading

SHA Xuan; FAN Zeng; LU Jian-fei

doi:10.11779/CJGE2015S2032

Volume 37 Issue zk2

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Chinese Journal of Geotechnical Engineering > 2015 > 37(zk2): 164-169. > DOI: 10.11779/CJGE2015S2032

SHA Xuan, FAN Zeng, LU Jian-fei. Coupled dynamic model for pile-soil-periodic-viaduct under moving loading[J]. Chinese Journal of Geotechnical Engineering, 2015, 37(zk2): 164-169. DOI: 10.11779/CJGE2015S2032

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Coupled dynamic model for pile-soil-periodic-viaduct under moving loading

Faculty of Civil Engineering and Mechanics, Jiangsu University, Zhenjiang 212013, China

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Received Date: March 25, 2015
Published Date: July 24, 2015

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Abstract

When a periodic viaduct is subjected to moving loadings, the vibrations of the superstructure, pile foundation and soil will be coupled. To investigate the dynamic response of the periodic viaduct considering the pile-soil-structure interaction, a boundary element model for the pile-soil system is established to determine the compliances of the pile foundation. By using the governing equations for piers and beams, the corresponding transfer matrices are derived. According to the joint conditions at the beam-beam-pier (BBP) junction, the transfer matrix at the junction is obtained. To improve the proposed model, the Timoshenko beam theory is used to describe the ?exural vibrations of the piers and beams. By means of the Fourier and the sequence Fourier transforms, the frequency domain response of the periodic viaduct under a single loading is reduced to an integral of the frequency-wavenumber domain response function over the representative span of the viaduct. Employing the transfer matrices of the piers, beams and BBP junctions as well as the compliances of the pile foundation, the response function for the coupled vibration of the viaduct is obtained. The numerical results show that there are obvious differences between the dynamic responses of the rigidly-supported and pile-supported viaducts.
- periodic viaduct,
- moving loading,
- pile-soil-structure coupling,
- boundary element method,
- Timoshenko beam theory

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Coupled dynamic model for pile-soil-periodic-viaduct under moving loading

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