Effects of Seismically Induced Pounding at Expansion Joints of Concrete Bridges
Publication: Journal of Engineering Mechanics
Volume 129, Issue 11
Abstract
This paper presents the result of a study on the effect of pounding at expansion joints on concrete bridge response to earthquake ground motions. An engineering approach, rather than continuum mechanics approach, is emphasized. First, the dynamic behavior of a damped multidegree-of-freedom bridge system separated by an expansion joint involving an impact is examined by means of the finite element method. Second, the sensitivity analysis of the stiffness in gap elements is performed. Third, usefulness of the analysis method for simulation of pounding phenomena is demonstrated and the effect of pounding on the ductility demands measured in terms of the rotation of column ends is investigated. Two-dimensional finite element analysis using a bilinear hysterestic model for bridge substructure joints and a nonlinear gap element for the expansion joint is performed on a realistic bridge with an expansion joint. The effects of the primary factors on the ductility demand such as gap sizes and characteristics of earthquake ground motion are investigated through a parametric study. The major conclusions are (1) the effect of impact most directly depends on the size of momentum (or pounding magnitude); and (2) the pounding effect is generally found to be negligible on the ductility demand for wide practical ranges of gap size and peak ground acceleration, but is potentially significant at the locations of impact.
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References
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Information
Published In
Journal of Engineering Mechanics
Volume 129 • Issue 11 • November 2003
Pages: 1225 - 1234
Copyright
Copyright © 2003 American Society of Civil Engineers.
History
Received: Apr 26, 2002
Accepted: Feb 21, 2003
Published online: Oct 15, 2003
Published in print: Nov 2003
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