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Experimental and Numerical Evaluation of a Welded Demountable Shear Connector through Horizontal Pushout Tests

Ahmed S.H. Suwaed, Jun He, George Vasdravellis

2021Journal of Structural Engineering22 citationsDOI

Abstract

A novel welded demountable shear connector for sustainable steel-concrete composite structures is proposed. The proposed connector consists of a grout-filled steel tube bolted to a compatible partially threaded stud, which is welded on a steel section. This connector allows for an easy deconstruction at the end of the service life of a building, promoting the reuse of both the concrete slabs and the steel sections. This paper presents the experimental evaluation of the structural behavior of the proposed connector using a horizontal pushout test arrangement. The effects of various parameters, including the tube thickness, the presence of grout infill, and the concrete slab compressive strength, were assessed. A nonlinear finite element model was also calibrated against the experimental results, and the validated numerical model was used to extend the validity of the experimental results and to perform further parametric studies. The experimental and numerical results show that the tested connectors have similar stiffness, but higher shear resistance and slip capacity compared with traditional welded shear studs and can be classified as ductile according to Eurocode 4.

Topics & Concepts

Cable glandStructural engineeringWeldingGroutShear (geology)Finite element methodParametric statisticsMaterials scienceEngineeringComposite materialMechanical engineeringMathematicsStatisticsStructural Load-Bearing AnalysisStructural Behavior of Reinforced ConcreteMechanical stress and fatigue analysis
Experimental and Numerical Evaluation of a Welded Demountable Shear Connector through Horizontal Pushout Tests | Litcius