Static behaviors of reinforcement-stiffened square concrete-filled steel tubular columns

Square concrete-filled steel tubes (CFSTs) are gaining increasing usage in modern construction practice, offering improved mechanical properties and increased material efficiency compared with the individual steel and core concrete components. However, the cross-section slenderness of the encasing steel is, although more inflexible than a comparable hollow steel tube, restrained due to local buckling. A number of innovative kinds of reinforcement stiffeners have been put forward particularly for the square CFSTs with slender sections of encasing steel. To investigate the mechanical effect of the reinforcement stiffeners and compare them with traditional ones in practice, four square CFSTs welded with various reinforcement stiffeners and one reference CFST have been tested, and are presented in this paper. The mechanical behaviors such as the resistance, ductility and failure modes investigated during the test were also studied in the theoretical research, which was carried out to predict and further summarize the comprehensive properties of the specimens. A numerical analysis program was written and verified with related scholars’ experimental data, and extensive parametric analysis was conducted to investigate the influencing parameters on mechanical properties. Design recommendation for the cross-section strength has been put forward based on the test results and previous research.

Graphical abstractLongitudinal arrangement of reinforcement stiffeners. (a) F2 (b) F3 (c) F4 (d) F5.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Reinforcement stiffener was proposed to enhance the strength and ductility of square CFSTs. ► A numerical analysis model was written in program to formulate the experiment results. ► Simplified model for stiffened specimens’ resistances based on previous research was proposed and reasonably verified.