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Journal Article

Citation

Farahani E, Maalek S. Earthq. Eng. Eng. Vibrat. 2017; 16(3): 609-625.

Copyright

(Copyright © 2017, Institute of Engineering Mechanics (IEM) - China Seismological Bureau, Publisher Holtzbrinck Springer Nature Publishing Group)

DOI

10.1007/s11803-017-0405-x

PMID

unavailable

Abstract

This paper attempts to explore potential benefits of form in a deck-type reinforced concrete (RC) arch bridge in connection with its overall seismic behavior and performance. Through a detailed three-dimensional finite element modeling and analysis of an actual existing deck-type RC arch bridge, some useful quantitative information have been derived that may serve for a better understanding of the seismic behavior of such arch bridges. A series of the nonlinear dynamic analyses has been carried out under the action of seven different time histories of ground motion scaled to the American Association of State Highway and Transportation Officials (AASHTO) 2012 response spectrum. The concept of demand to capacity ratios has been employed to provide an initial estimation of the seismic performance of the bridge members. As a consequence of the structural form, a particular type of irregularity is introduced due to variable heights of columns transferring the deck loads to the main arch. Hence, a particular attention has been paid to the internal force/moment distributions within the short, medium, and long columns as well as along the main arch. A study of the effects of the vertical component of ground motion has demonstrated the need for the inclusion of these effects in the analysis of such bridges.


Language: en

Keywords

Finite element method; Bridge members; Earthquake resistant design; Arch bridges; Seismicity; Bridge decks; Internal forces; Reinforced concrete bridges

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