Seismic Performance Assessment of a Pin-bearing Restraint System for Curved Bridge

Authors

  • Huili Wang
    Affiliation
    National & Local Joint Engineering Laboratory of Bridge and Tunnel Technology, Dalian University of Technology, 116023 Dalian, China State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology, 116023 Dalian, China
  • Kunkun Zhao
    Affiliation
    National & Local Joint Engineering Laboratory of Bridge and Tunnel Technology, Dalian University of Technology, 116023 Dalian, China
  • Sifeng Qin
    Affiliation
    College of Civil Engineering and Architecture, Dalian University, 116622 Dalian, China
https://doi.org/10.3311/PPci.19477

Abstract

The traditional restraint systems limit the deformation of curved bridge under temperature load, which results in radial and tangential secondary internal forces in the bridge. This paper proposes a pin-bearing restraint system (PBRS) for curved bridge, which can relax the rotational deformation of curved bridge under temperature load. Its configuration and working mechanism are illustrated. The finite element model of a curved bridge with PBRS is established using ANSYS software, and nonlinear time history analysis is conducted. The pounding force and pounding number between pin and slot under ground motion are analyzed. The pin stiffness, the gap and the ratio of upper structure mass to lower structure mass are selected for parametric study. The results show that the pounding force and pounding number present dramatic changes with pin stiffness. As the pin stiffness increases, the pounding force presents a logarithmic linear tendency, and the pounding number shows a reduce tendency. Gap has little influence on pounding force and pounding number. The radial pounding force and pounding number increase with the increase of mass ratio.

Keywords:

curved bridge, bearing, restraint, FEM, time history analysis

Citation data from Crossref and Scopus

Published Online

2022-09-28

How to Cite

Wang, H., Zhao, K., Qin, S. “Seismic Performance Assessment of a Pin-bearing Restraint System for Curved Bridge”, Periodica Polytechnica Civil Engineering, 66(4), pp. 1077–1086, 2022. https://doi.org/10.3311/PPci.19477

Issue

Section

Technical Notes