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Flexural Behavior of High-Strength Rectangular Concrete-Filled Steel Tube Members

Ying Wang, Hang Lin, Zhichao Lai, Li Dong, Weisheng Zhou, Xiaoqiang Yang

2021Journal of Structural Engineering28 citationsDOI

Abstract

This study experimentally and numerically investigates the flexural behavior of high-strength rectangular concrete-filled steel tube (CFST) members. An experimental database including 30 flexural tests on high-strength rectangular CFST members was compiled, and gaps in the existing research were identified. To address these gaps, a total of 14 specimens were tested, considering the effect of tube thickness, compressive strength of concrete, yield stress of steel, and tube height. Detailed finite-element models were also developed and benchmarked for parametric studies. Results from the tests and finite-element analyses indicated the following: (1) the flexural strength increased with the increasing tube thickness, yield stress of steel, tube height, and tube width, while the effect of the compressive strength of concrete was minor; (2) the flexural stiffness increased with the increasing tube thickness, tube height, and tube width, while the effect of the yield stress of steel and compressive strength of concrete was minor; and (3) high-strength CFST members, especially those with high-strength steel tubes, had lower ductility compared with conventional-strength CFST members. Experimental and numerical results were also used to evaluate the applicability of current design provisions (i.e., AISC 360-16, GB 50936-2014, Eurocode 4, and the AIJ) for estimating the flexural strength and stiffness. The evaluation showed that AISC 360-16 reasonably estimated the flexural strength, while AIJ provided the most accurate estimation of the service-level flexural stiffness.

Topics & Concepts

Flexural strengthMaterials scienceStructural engineeringCompressive strengthComposite materialTube (container)Ductility (Earth science)StiffnessYield (engineering)Three point flexural testEngineeringCreepStructural Load-Bearing AnalysisFire effects on concrete materialsStructural Behavior of Reinforced Concrete
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