Reduction of Seismic Acceleration Parameters for Temporary Bridge Design
Publication: Journal of Bridge Engineering
Volume 23, Issue 10
Abstract
No prevailing method is currently available for reducing the seismic response acceleration parameters PGA, SS, and S1 from the probabilistic seismic hazard values used for permanent bridge design to levels suitable for temporary bridge design. A method of spectral reduction using spectral reduction factors was proposed to reduce the previously published spectral response acceleration parameters, the peak ground acceleration (PGA), the short-period response acceleration coefficient (Ss), and the long-period response acceleration coefficient (S1), from the 1,000-year return period used for permanent bridge design to a return period suitable for temporary bridge design. The proposed spectral reduction factors are the ratios of the return period used for the seismic design of a permanent bridge to the return period used for the seismic design of a temporary bridge. Spectral ratios were obtained for each of the three seismic response acceleration coefficients for 100 locations around the United States. The examination of the short- and long-period response acceleration coefficients are presented in this paper. As a result of this examination, two spectral reduction factors for the seismic design of temporary bridges were proposed: one spectral reduction factor, of 2.5, to reduce each PGA, SS, and S1 parameter for the western United States, and one spectral reduction factor, of 3.75, to reduce each PGA, SS, and S1 parameter for the central and eastern United States.
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Published In
Journal of Bridge Engineering
Volume 23 • Issue 10 • October 2018
Copyright
© 2018 American Society of Civil Engineers.
History
Received: Dec 12, 2017
Accepted: Apr 25, 2018
Published online: Aug 6, 2018
Published in print: Oct 1, 2018
Discussion open until: Jan 6, 2019
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