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Ingegneria Sismica

Ingegneria Sismica

Damage Mechanism and Deformation Optimization Design of Split-Connection Expansion Joints for Assembled Bridges Based on Damage Mechanics

Author(s): Yujuan Liu1, Chuan’ai Zhang1
1Intelligent Construction College, Zhengzhou Business University, Zhengzhou, Henan, 451200, China
Liu, Yujuan. and Zhang, Chuan’ai. “Damage Mechanism and Deformation Optimization Design of Split-Connection Expansion Joints for Assembled Bridges Based on Damage Mechanics.” Ingegneria Sismica Volume 43 Issue 1: 1-24, doi:10.65102/is2026197.

Abstract

Due to the setting of expansion joints, it will increase the impact force when the vehicle passes through, leading to the structural damage or pavement damage of the assembled bridges at the joints, which is a relatively common phenomenon in many bridge structures. In this paper, starting from the ontological relationship under damage mechanics, combined with the theory of continuous medium thermodynamics, we explore the damage evolution equations in a general sense. Then, based on ANSYS finite element software, the elastic-plastic damage model and the intrinsic model of the expansion joints of assembled bridges are established, and the meshing and boundary conditions are set. The finite element simulation results show that when the load is applied to 1179.71KN, the reinforcement at the tap expansion joints starts to yield, and at this time, the sectional bending moment is 959.67KN·m, and there are differences in bearing capacity and deflection of assembled bridges with different materials. Under the standard axle load of 120kN, the maximum principal compressive stress of the material does not exceed 4.5MPa. In order to better enhance the performance of the assembled bridge tap expansion joints, an external T-beam can be used to enhance its stress bearing capacity and prevent deformation.

Keywords
damage mechanics; damage evolution equation; ANSYS; assembled bridge expansion joints

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