Properties of High-Strength Concrete Filled Steel Tube Columns

Tan, K. H.; Nichols, John P.

doi:10.22606/mcse.2017.11005

Cited by 5 publications

(4 citation statements)

References 28 publications

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“…2g). As pointed out in available literature, the concrete core is under biaxial confinement due to the steel tube having an enhanced compressive strength [52]. The moment capacity (M u,GB ) considers an empirical coefficient, dependent on ξ, the elastic section modulus W sc = πD 3 /32, and the…”

Section: Comparative Assessmentsmentioning

confidence: 99%

Confinement effects for rubberised concrete in tubular steel cross-sections under combined loading

Mujdeci

Bompa

Elghazouli

2021

Archiv.Civ.Mech.Eng

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This paper describes an experimental investigation into confinement effects provided by circular tubular sections to rubberised concrete materials under combined loading. The tests include specimens with 0%, 30% and 60% rubber replacement of mineral aggregates by volume. After describing the experimental arrangements and specimen details, the results of bending and eccentric compression tests are presented, together with complementary axial compression tests on stub-column samples. Tests on hollow steel specimens are also included for comparison purposes. Particular focus is given to assessing the confinement effects in the infill concrete as well as their influence on the axial–bending cross-section strength interaction. The results show that whilst the capacity is reduced with the increase in the rubber replacement ratio, an enhanced confinement action is obtained for high rubber content concrete compared with conventional materials. Test measurements by means of digital image correlation techniques show that the confinement in axial compression and the neutral axis position under combined loading depend on the rubber content. Analytical procedures for determining the capacity of rubberised concrete infilled cross-sections are also considered based on the test results as well as those from a collated database and then compared with available recommendations. Rubber content-dependent modification factors are proposed to provide more realistic representations of the axial and flexural cross-section capacities. The test results and observations are used, in conjunction with a number of analytical assessments, to highlight the main parameters influencing the behaviour and to propose simplified expressions for determining the cross-section strength under combined compression and bending.

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Section: Comparative Assessmentsmentioning

confidence: 99%

Confinement effects for rubberised concrete in tubular steel cross-sections under combined loading

Mujdeci

Bompa

Elghazouli

2021

Archiv.Civ.Mech.Eng

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“…( 6) provides the shear strength as a function of the axial load, aspect ratio, as well as concrete-fill and steel-tube properties. [6][7][8][9][10][11]18] was used to evaluate current code expressions. Table 1 shows the average and coefficient of variation (COV) for the measured to predicted strength ratio for each code.…”

Section: Aisc 360 (2022)mentioning

confidence: 99%

“…23. The figure shows that some individual specimens by Qian et al [7] and Lehman et al [10] fail in flexure where 𝑀 𝑒𝑥𝑝 > 1.1𝑀 𝑃𝑆𝐷𝑀 ; as such, these results are not included the following validation.…”

Section: Evaluation Of Codified and Proposed Design Expressionsmentioning

confidence: 99%

“…Experimental studies on circular CFSTs subjected to shear loading have been conducted in China (e.g., [68]), Japan (e.g., [9]) and the US (e.g., [10,11]). These investigations cover important design parameters including (1) the compressive concrete strength, (2) the yield strength of steel (𝐹 𝑦 ), (3) the shear span-todiameter ratio (𝑎/𝐷), (4) the diameter of the CFST (𝐷), (5) the axial load ratio (𝑃/𝑃 0 ), (6) the internal reinforcement ratio (𝜌 𝑖𝑛𝑡 ), and (7) the bond condition between steel tube and concrete. The collective findings from these investigations are: (1) shear failure does not occur for 𝑎/𝐷 greater than 0.5 [6,8], (2) the shear strength increased with an increase in the 𝑃/𝑃 0 ratio [8,10], (3) composite action between the steel tube and infill concrete is needed to develop the full shear resistance [10], and (4) internal reinforcement has a much smaller contribution to the total shear capacity and in many cases can be neglected [10].…”

Section: Introductionmentioning

confidence: 99%

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Evaluation and improvement of shear-strength expressions for circular concrete-filled steel tubes

Zhao¹,

Lehman²,

Zhang³

et al. 2023

JSEAM

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The accuracy of the shear resistance design equation for concrete-filled steel tubes (CFSTs) is crucial to ensure the safety of CFST structures. However, the current design equations underestimate the test data, and cannot accurately predict the relative shear resistance of the steel and concrete fill. To solve this problem, this paper developed an advanced finite element model in the LS-Dyna program, which was validated using experimental results of CFST members failing in shear. A systematic parametric study was then conducted. The result showed that the contribution of the steel increased significantly with the strain-hardening ratio (F_u/F_y) while the contribution of concrete fill was greatly influenced by the internally reinforced ratio (ρ_int) and axial load level (P/P_0). These predictions were combined with the experimental results to develop a more accurate and reliable design expression for the shear strength of circular CFSTs.

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Effect of Different Confinements on High-Strength Steel Fiber-Reinforced Concrete (SFRC) Beams

Hafeez,

Ahmad,

Usman

et al. 2023

Arab J Sci Eng

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Properties of High-Strength Concrete Filled Steel Tube Columns

Cited by 5 publications

References 28 publications

Confinement effects for rubberised concrete in tubular steel cross-sections under combined loading

Confinement effects for rubberised concrete in tubular steel cross-sections under combined loading

Evaluation and improvement of shear-strength expressions for circular concrete-filled steel tubes

Effect of Different Confinements on High-Strength Steel Fiber-Reinforced Concrete (SFRC) Beams

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