Vol. 14 No. 01 (2024): Journal of Materials & Construcstion
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JOURNAL OF MATERIALS & CONSTRUCTION

ISSN: 2734-9438

Website: www.jomc.vn

Nonlinear inelastic behaviors of concrete-filled steel tubular beam-column structures

Khoa Ho Ngoc , Loan Le Thi Phuong , Thuc Luu Van , Cong Vu Chi

Keywords:

Advanced analysis
CFST
Stability function
Beam-column element
Distributed plasticity model

Abstract

A new advanced method combining stability function and distributed plasticity model has been developed using Fortran programming language to predict the nonlinear inelastic behavior of concrete-filled steel tubalar (CFST) under static loading. The advantage of this method is the ability to accurately study the nonlinear behavior using only one or two beam-column elements per member instead of using solid and shell elements as traditional methods, thereby improving the model analysis time. The Generalized Displacement Control (GDC) algorithm, capable of analyzing beyond the limit point, will be used to solve the nonlinear equilibrium equations instead of the traditional Newton-Raphson algorithm. The element stiffness matrix is integrated through the Gauss-Lobatto numerical integration framework, while the nonlinear geometric effects P-Δ and P-δ are considered using stability functions and a corresponding geometric matrix. The reliability and accuracy of the proposed method are verified by comparing the analysis results with experimental data. The obtained results have demonstrated that using beam-column elements for simulation, the proposed method still provides accurate results while significantly reducing computational resources. Therefore, this new method holds promise as a useful tool for practical design and analysis of statically loaded CFST structures.

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How to Cite

Ho Ngoc, K., Le Thi Phuong, L., Luu Van, T., & Vu Chi, C. (2024). Nonlinear inelastic behaviors of concrete-filled steel tubular beam-column structures . JOURNAL OF MATERIALS & CONSTRUCTION, 14(01), Page 24 – Page 34. https://doi.org/10.54772/jomc.v14i01.717

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