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THREE-DIMENSIONAL SEISMIC RESPONSE OF HUMBOLDT BAY BRIDGE-FOUNDATION-GROUND SYSTEM (2008)
Soil-structure interaction may play a major role in the seismic response of a bridge structure. Specifically, soil layers of low stiffness and strength may result in permanent displacement of the abutments and foundations, thus imposing important kinematic conditions to the bridge structure. A study to illustrate such phenomena is undertaken based on three-dimensional nonlinear dynamic
finite-element FE modeling and analysis for a specific bridge configuration under a given seismic excitation. A bridge-foundation-ground model is developed based on the structural configuration and local soil conditions of the Humboldt Bay Middle Channel Bridge. The FE model and nonlinear solution strategy are built in the open-source software platform OpenSees of the Pacific Earthquake
Engineering Research Center. Based on the simulation results, the overall system seismic response behavior is examined, as well as local deformations/stresses at selected critical locations. It is shown that permanent ground deformation may induce settlement and longitudinal/transversal displacements of the abutments and deep foundations. The relatively massive approach ramps may also contribute to this simulated damage condition, which imposes large stresses on the bridge foundations, supporting piers, and superstructure.
ournal of Structural Engineering, Vol. 134, No. 7, July 2008, pp. 1165-1176
Dept. of Structural Engineering, Univ. of California, San Diego
USA