期刊
STRUCTURAL CONCRETE
卷 24, 期 1, 页码 818-839出版社
ERNST & SOHN
DOI: 10.1002/suco.202100219
关键词
CFDST members; design model; FE analysis; flexural performance; strength and ductility; ultimate flexural capacity
This paper presents experimental and numerical investigations on circular concrete-filled double steel tubular (CFDST) members under flexural load. The study analyzes the failure modes, moment-curvature curves, deflection curves, and strain distributions of the specimens. A nonlinear finite element model is developed and parametric studies are performed. A simple formula for calculating the flexural capacity of CFDST members is proposed and compared with design codes.
This paper presents experimental and numerical investigations on circular concrete-filled double steel tubular (CFDST) members under flexural load. Seven specimens including five CFDST specimens were tested and the test parameters included the effects of concrete compressive strength, the thickness of the steel tubes, and the diameter ratio on their flexural performance. The final failure modes, moment (M)-curvature (phi) curves, deflection curves of specimens, and distributions of section longitudinal strains were analyzed and reported in this study. A nonlinear finite element model (FEM) was then developed for the CFDST members. After successful validation in ultimate strengths and failure modes, parametric studies were performed by using the verified FEM. A simple formula for calculating the flexural capacity of CFDST members was proposed and compared against several design codes to investigate the design accuracy. Based on this study, it was found that the CFDST members exhibit ductile behavior under flexural load. Increasing the steel area, particularly for the outer tube improved the flexural capacities of the members. Furthermore, the existing design codes were found to be remarkably underestimating the moment capacities of CFDST members whereas the design formula proposed can predict the ultimate flexural capacity with reasonable accuracy.
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