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Experimental and Numerical Assessment into Frequency Domain Dynamic Response of Deep water Rigid-Frame Bridge

Wei, Kai / Zhang, Jiarui / Qin, Shunquan

The dynamic responses of the deepwater rigid-frame bridge are assessed by underwater shaking table tests and numerical simulations. The frequency domain dynamic responses are estimated to illustrate the effect of water depth and superstructures on the bridge subjected to earthquake loading along the transverse direction. Major findings are summarized as follows: (a) the water depth changes the modal frequencies and vibration pattern of the bridge; (b) the superstructures affect the modal frequencies and frequency response peaks of pier; and (c) a practical method is proposed for seismic design of deepwater rigid-frame bridge by considering the influence of the superstructures.

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Experimental and Numerical Assessment into Frequency Domain Dynamic Response of Deep water Rigid-Frame Bridge

Wei, Kai / Zhang, Jiarui / Qin, Shunquan

The dynamic responses of the deepwater rigid-frame bridge are assessed by underwater shaking table tests and numerical simulations. The frequency domain dynamic responses are estimated to illustrate the effect of water depth and superstructures on the bridge subjected to earthquake loading along the transverse direction. Major findings are summarized as follows: (a) the water depth changes the modal frequencies and vibration pattern of the bridge; (b) the superstructures affect the modal frequencies and frequency response peaks of pier; and (c) a practical method is proposed for seismic design of deepwater rigid-frame bridge by considering the influence of the superstructures.

Experimental and Numerical Assessment into Frequency Domain Dynamic Response of Deep water Rigid-Frame Bridge

Wei, Kai / Zhang, Jiarui / Qin, Shunquan

The dynamic responses of the deepwater rigid-frame bridge are assessed by underwater shaking table tests and numerical simulations. The frequency domain dynamic responses are estimated to illustrate the effect of water depth and superstructures on the bridge subjected to earthquake loading along the transverse direction. Major findings are summarized as follows: (a) the water depth changes the modal frequencies and vibration pattern of the bridge; (b) the superstructures affect the modal frequencies and frequency response peaks of pier; and (c) a practical method is proposed for seismic design of deepwater rigid-frame bridge by considering the influence of the superstructures.

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Title:

Experimental and Numerical Assessment into Frequency Domain Dynamic Response of Deep water Rigid-Frame Bridge

Contributors:

Wei, Kai (author) / Zhang, Jiarui (author) / Qin, Shunquan (author)

Published in:

Journal of Earthquake Engineering ; 26 ; 307-330

Publication date:

2022-01-02

Size:

24 pages

ISSN:

1363-2469 , 1559-808X

DOI:

https://doi.org/10.1080/13632469.2019.1684402

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Underwater shaking table test , frequency domain dynamic response , deepwater rigid-frame bridge , water depth , superstructures , practical seismic design method

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