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Flexural performance of rectangular CFST composite T-beams: Experimental, numerical, and theoretical investigation.

Authors :
Ding, Fa-xing
Sadat, Said Ikram
Lyu, Fei
Yin, Yixiang
Source :
Journal of Constructional Steel Research. Feb2024, Vol. 213, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Steel-concrete composite beams find extensive application in bridge construction, offering adaptability to complex terrains and structural advantages. Nevertheless, a persistent challenge lies in local instability, especially in steel beams with large aspect ratios. This study proposes stirrup-confined concrete-filled steel tube (CFST) composite beams as a solution to enhance structural performance by mitigating local instability. The research comprises comparative tests, numerical simulations, and theoretical examinations of rectangular CFST composite beams. Results demonstrate a significant improvement, with a 40% increase in flexural stiffness and a 10% increase in ultimate bearing capacity compared to traditional composite beams. Stirrup confinement effectively limits cross-section slip between the steel tube and infilled concrete, resulting in slip measurements of 0.72 mm at the end of loading. Examination of aspect ratios reveals substantial enhancements, showing a 65.6% increase in flexural stiffness and a 54.7% increase in ultimate bearing capacity as aspect ratios increase. Concrete strength grade exhibits minor effects, with slight improvements as the grade increases. Steel yield strength significantly influences ultimate bearing capacity, with a maximum 24.4% increase in higher-strength steel. Moreover, the steel content ratio enhances both flexural stiffness (up to 40.2%) and ultimate bearing capacity (up to 34.6%) with an increased steel ratio. Increased concrete slab thickness leads to improvements of up to 18.3% in flexural stiffness and up to 10.1% in ultimate bearing capacity. Formulas for predicting the flexural stiffness and bearing capacity of rectangular CFST composite T-beams are developed, offering practical guidance for optimizing their performance in structural engineering applications. • Comparative analysis shows CFST beams outperform traditional ones in stiffness and capacity. • Stirrups in CFST beams enhance steel-concrete bond, improving structural integrity. • Steel ratio and tube aspect are key in CFST beams' stiffness and capacity; other factors are less influential. • Formulas for calculating the flexural stiffness and bearing capacity of rectangular CFST composite T-beams are proposed. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0143974X
Volume :
213
Database :
Academic Search Index
Journal :
Journal of Constructional Steel Research
Publication Type :
Academic Journal
Accession number :
174760167
Full Text :
https://doi.org/10.1016/j.jcsr.2023.108356