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Finite-Element Analysis of High-Strength Steel Extended End-Plate Connections under Cyclic Loading

Tao Lin, Zhan Wang, Fangxin Hu, Peng Wang

2022Materials17 citationsDOIOpen Access PDF

Abstract

In order to examine the seismic behavior of high-strength steel extended end-plate connections, a three-dimensional efficient finite-element model in Abaqus was established subjected to cyclic loading at the beam end. Geometrical dimensions, boundary conditions, element types, contact properties between the bolts, end-plate and column flange, and material cyclic constitutive models were described in detail. Geometry and material nonlinearity were adequately considered. In particular, a cyclic plasticity model for high-strength steels was employed that was easily calibrated based on the tension coupon test, so as to describe the complicated cyclic hardening and softening response. The simulated results of the finite-element model were compared to the test ones in terms of both deformation modes and hysteresis loops. The results showed that the bending deformation of the end-plate and column flange was accurately captured, and the gap phenomena among the bolt nuts, the end-plate, and column flange was described in a satisfactory manner as well. The hysteresis loops from the simulation agreed well with the test results, reproducing the pinched shape due to the end-plate gap evolution under cyclic loading as well as the quite plump shape with stable energy dissipation when the panel zone dominated the cyclic response. Therefore, the accuracy of the finite-element model was verified and it provided a strong benchmark tool for investigating the cyclic or seismic performance of this kind of connection. The connection failure including the bolt fracture and cracking in the end-plate needs further numerical study by calibrating accurate material failure models for high-strength steels and bolts.

Topics & Concepts

Structural engineeringFlangeFinite element methodDissipationHardening (computing)Materials scienceHysteresisBauschinger effectCrackingDeformation (meteorology)BendingPlasticityEngineeringComposite materialQuantum mechanicsLayer (electronics)ThermodynamicsPhysicsStructural Load-Bearing AnalysisMechanical stress and fatigue analysisStructural Behavior of Reinforced Concrete
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