Numerical evaluation of compressive failure behavior of thin-walled concrete-filled steel tubes using coupled RBSM and Shell FEM

Authors

• Rodolfo P. Mendoza Jr.
• Yoshihito Yamamoto, Nagoya University
• Hikaru Nakamura, Nagoya University
• Taito Miura, Nagoya University

College

Gokongwei College of Engineering

Department/Unit

Civil Engineering

Document Type

Article

Source Title

Journal of Structural Engineering

Volume

64A

Publication Date

3-2018

Abstract

The compressive behavior of thin-walled CFST is numerically evaluated taking into account higher D/t ratios, cross-sectional shape, and type of loading application. The evaluation was performed using a newly-developed coupled numerical model which combines the use of 3D Rigid Body Spring Model and nonlinear shell FEM to simulate the behavior of concrete and steel tube, respectively. Quantitative and qualitative validations performed showed excellent agreement with published test results. It was found that (1) confinement in square CFST can be achieved when only the concrete section is loaded, and this extends to specimen with D/t ratio of 300; and (2) an increased in axial ductility can be expected for both circular and square CFST irrespective of the type of load application.

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Recommended Citation

Mendoza, R. P., Yamamoto, Y., Nakamura, H., & Miura, T. (2018). Numerical evaluation of compressive failure behavior of thin-walled concrete-filled steel tubes using coupled RBSM and Shell FEM. Journal of Structural Engineering, 64A Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/15101

Disciplines

Civil Engineering

Keywords

Concrete-filled tubes—Compression testing

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