Sensors (Aug 2022)

Rapid Seismic Evaluation of Continuous Girder Bridges with Localized Plastic Hinges

  • Zhaolan Wei,
  • Mengting Lv,
  • Minghui Shen,
  • Haijun Wang,
  • Qixuan You,
  • Kai Hu,
  • Shaomin Jia

DOI
https://doi.org/10.3390/s22166311
Journal volume & issue
Vol. 22, no. 16
p. 6311

Abstract

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In seismic assessment of continuous girder bridges, plastic hinges form in bridge piers to dissipate seismic energy through nonlinear restoring forces. Considering temporal and spatial variations of ground motions, seismic evaluation of the bridges involves nonlinear stochastic vibration and expensive computation. This paper presents an approach to significantly increase the efficiency of seismic evaluation for continuous girder bridges with plastic hinges. The proposed approach converts nonlinear motion equations into quasi-linear state equations, solves the equations using an explicit time-domain dimension-reduced iterative method, and incorporates a stochastic sampling method to statistically analyze the seismic response of bridges under earthquake excitation. Taking a 3 × 30 m continuous girder bridge as an example, fiber beam-column elements are used to simulate the elastic–plastic components of the continuous girder bridge, and the elastic–plastic time history analysis of the continuous girder bridge under non-uniform seismic excitation is carried out. Results show that the computation time is only 5% of the time of the nonlinear time history approach while retaining the accuracy. This study advances the capability of rapid seismic assessment and design for bridges with localized nonlinear behaviors such as plastic hinges.

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