Behaviour of inclined, tapered and STS square CFST stub columns subjected to axial load

This paper describes the finite element method using ABAQUS to model the axial compressive behaviour of inclined, tapered and straight–tapered–straight (STS) concrete filled steel tubular stub (CFST) columns with square hollow sections. The accuracy of the numerical model was verified by comparing the numerical predictions with experimental study of the 200×200×3.75 RHS filled with C60 concrete with inclined angle of 0–9° and tapered angle of 0–4°. The results show that the compressive behaviours, load vs. strain relationship and failure mode predicted by the numerical simulations were agreeable with experimental results. After the validation, a parametric study was performed with 3 typical steel hollow sections (200×200×3.75 RHS, 300×300×6.3 RHS and 400×400×8.0 RHS) and extended the inclined angle and tapered angle to 0–15° and 0–12° respectively. The parametric study highlights some of the behaviour observed in test and extends the application range. In addition, reduction factor for calculating the axial capacity of this form of CFST columns are proposed.

► Compressive behaviour of inclined, tapered and straight–tapered–straight (STS) concrete-filled steel tubular columns. ► Parametric study on the behaviour of these columns via ABAQUS FE model. ► Develop simple design equations for calculating the compressive capacity of this form of CFST stub columns.