[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/eas.2022.22.3.231

Analysis of beam-column joints reinforced with SMAs under monotonous loading with existence of transverse beam

Halahla, Abdulsamee M. (Department of Civil Engineering, Palestine Polytechnic University)
Tahnat, Yazan B. Abu (Department of Civil and Water Engineering, Laval University)
Dwaikat, Monther B. (Department of Building Engineering, An-Najah National University)

Publication Information

Earthquakes and Structures / v.22, no.3, 2022 , pp. 231-243 More about this Journal

Abstract

Beam-column joints (BCJs) are recognized among the most crucial zones in reinforced concrete structures, as they are the critical elements subjected to a complex state of forces during a severe earthquake. Under such conditions, BCJs exhibit behaviors with impacts that extend to the whole structure and significantly influence its ductility and capability of dissipating energy. The focus of this paper is to investigate the effect of undamaged transverse beam (secondary beams) on the ductility of concrete BCJs reinforced with conventional steel and shape memory alloys bars using pushover analysis at tip of beam under different axial load levels at the column using a nonlinear finite element model in ABAQUS environment. A numerical model of a BCJ was constructed and the analysis outcomes were verified by comparing them to those obtained from previous experiments found in the literature. The comparison evidenced the capability of the calibrated model to predict the load capacity response of the joint. Results proved the ability of undamaged secondary beams to provide a noticeable improvement to the ductility of reinforced concrete joints, with a very negligible loss in load capacity. However, the effect of secondary beams can become less significant if the beams are damaged due to seismic effects. In addition, the axial load was found to significantly enhance the performance of BCJs, where the increase in axial load magnified the capacity of the joint. However, higher values of axial load resulted in greater initial stiffness of the BCJ.

Keywords

axial load; ductility; finite element analysis; reinforced concrete joints; secondary beam; Shape Memory Alloy (SMA);

Citations & Related Records

Times Cited By KSCI : 5 (Citation Analysis)

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