Numerical investigation of fully encased composite columns subjected to combined axial and cyclic loading

Hamdaoui, Karim; Boumechra, Nadir; Alkebsi, Ebrahim; Alsamawi, Almoutaz Bellah; Basri, Hamza

doi:10.21608/ijasri.2022.228573

Numerical investigation of fully encased composite columns subjected to combined axial and cyclic loading

Document Type : Original Article

Authors

¹ EOLE Research Laboratory, Department of Civil Engineering, Faculty of Technology, University of Tlemcen, BP 230, Tlemcen, Algeria

² Laboratory of Mechanical structures and materials (LaMSM), University of Batna 2, Batna, Algeria

10.21608/ijasri.2022.228573

Abstract

This research investigated the cyclic behaviour of fully encased
composite (FEC) columns. By constructing and investigating
thirty-six FEC columns to increase the strength and performance
of composite columns subjected to combined axial and cyclically
increasing lateral loads. The goal of this research is to investigate
the effect of the axial load ratio and concrete reinforcing bars on
the behaviour of composite columns subjected to combined axial
and cyclically increasing lateral loads. Finite element analysis
was performed on each specimen, taking into account the
inelastic behaviour of concrete, structural steel, and longitudinal
and transverse steel bars. In this research, the finite element
models created in ANSYS software were verified and calibrated
against previously published experimental results. FEC columns
are studied in terms of hysteretic performance, load-carrying
capacity, energy dissipation capacity, ductility, and stiffness
degradation. The composite columns provide an interesting result
in the numerical simulation.

Keywords