<scp>Data‐driven</scp> investigation of compressive strength of <scp>FRP‐confined</scp> concrete columns using a unified model based on <scp>RSM</scp> considering interactions between parameters

Vafaei, Ali; Davoudi‐Kia, Abdullah; Kutanaei, Saman Soleimani; Taslimi, Mobina

doi:10.1002/suco.202300994

Structural Concrete

2024

DOI: 10.1002/suco.202300994

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Data‐driven investigation of compressive strength of FRP‐confined concrete columns using a unified model based on RSM considering interactions between parameters

Ali Vafaei,

Abdullah Davoudi‐Kia,

Saman Soleimani Kutanaei

et al.

Abstract: In this study, a data‐driven model was developed to predict compressive strength of concrete columns after confining with Fiber‐Reinforced Polymer (FRP). Through application of Response Surface Method (RSM), interactions of input parameters are investigated in addition to their individual influence. Moreover, RSM is utilized in conjunction with unification to enhance model's accuracy. Furthermore, sensitivity analysis is employed together with RSM, to determine the effect size of statistically significant para… Show more

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2024

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Cited by 2 publications

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Performance of eccentrically loaded low‐strength RC columns confined with posttensioned metal straps: An experimental and numerical investigation

Neupane,

Imjai,

Garcia

et al. 2024

Structural Concrete

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This study experimentally and numerically examines the performance of low‐strength reinforced concrete (LS RC) columns confined with external post‐tensioned metal straps (PTMS). Twelve square columns of cross‐section 125 × 125 mm and height 1500 mm were subjected to axial load, with eight columns being eccentrically loaded. Four columns were control specimens without confinement, and another eight were confined using a novel technique that provides active confinement through the PTMS. The main parameters investigated included the PTMS confinement ratio (ρv = 0.64% and 1.28%) and different eccentricities (e/b = 0, 0.25, 0.5 or 1.0, where e = eccentricity). The results show that the capacity and axial displacement of the PTMS‐confined columns increased by up to 43% and 116% over unconfined control columns. Finite element analyses of the columns were carried out in Abaqus® to provide further insight into the behavior of PTMS‐confined columns. This study contributes towards developing cost‐effective confinement solutions for LS RC columns, thus encouraging the broader adoption of active confinement techniques in practical strengthening applications.

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Performance of eccentrically loaded low‐strength RC columns confined with posttensioned metal straps: An experimental and numerical investigation

Neupane,

Imjai,

Garcia

et al. 2024

Structural Concrete

View full text Add to dashboard Cite

show abstract

Effect of hybrid type of fibers on the mechanical properties of stabilized sand with coal waste and cement

Paein,

Janalizadeh,

Soleimani

et al. 2024

J. Cent. South Univ.

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Data‐driven investigation of compressive strength of FRP‐confined concrete columns using a unified model based on RSM considering interactions between parameters

Cited by 2 publications

References 76 publications

Performance of eccentrically loaded low‐strength RC columns confined with posttensioned metal straps: An experimental and numerical investigation

Performance of eccentrically loaded low‐strength RC columns confined with posttensioned metal straps: An experimental and numerical investigation

Effect of hybrid type of fibers on the mechanical properties of stabilized sand with coal waste and cement

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