Ahmed K. El-Sayed scite author profile

This paper describes an experimental investigation to evaluate the shear strength and behavior of concrete deep beams reinforced with fibre-reinforced polymer (FRP) bars. A total of ten full-scale reinforced concrete beams without web reinforcement were constructed and tested in four-point bending. The test variables were the reinforcement ratio and the modulus of elasticity of the longitudinal reinforcing bars as well as the shear span to depth ratio. The test beams included five beams reinforced with glass FRP bars and five beams reinforced with carbon FRP bars. The behavior of the deep beams is described in terms of load-deflection response, cracking patterns and modes of failure, strains in reinforcement and concrete, inclined cracking, and ultimate shear strengths. All ten beams showed significant reserve strength after the inclined cracking was fully developed. The test results also indicated that the ultimate shear strength of the tested beams considerably increased with the decrease of the shear span to depth ratio. In addition, the ultimate shear strengths of the tested beams were predicted using the shear design provisions recommended by the new version of the Canadian Standard CSA-S806-11 and compared with the experimental results, showing good agreement.Résumé : Cet article présente une étude expérimentale servant à évaluer la résistance en cisaillement et le comportement de poutres-cloisons en béton armées de tiges en polymère renforcé de fibres (PRF). Un total de 10 poutres en béton armé à pleine échelle sans armature d'âme a été construit et mis à l'épreuve sous flexion à quatre points. Les variables d'essai étaient le rapport d'armature et le module d'élasticité des tiges d'armature longitudinales ainsi que le rapport portée en cisaillement -profondeur. Les poutres à l'essai comprennent cinq poutres armées de tiges en polymère renforcé de fibres en verre (PRFV) et cinq poutres armées de tiges en polymère renforcé de fibres en carbone (PRFC). Le comportement des poutres-cloisons est décrit en termes de la réponse en déformation en raison de la charge, les motifs de fissuration et les modes de défaillance, les contraintes dans l'armature et le béton, la fissuration inclinée ainsi que les résistances à la rupture en cisaillement. Les 10 poutres ont montré de bonnes réserves de résistance une fois la fissuration inclinée pleinement dévelop-pée. Les résultats des essais ont également indiqué que la résistance à la rupture en cisaillement des poutres mises à l'é-preuve a considérablement augmenté avec la diminution du rapport portée en cisaillement -profondeur. De plus, les résistances à la rupture en cisaillement des poutres à l'essai ont été prédites en utilisant les dispositions de calcul du cisaillement recommandées dans la nouvelle version de la norme canadienne CSA-S806-11 et elles montraient une bonne concordance lorsque qu'elles étaient comparées aux résultats expérimentaux.

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Strengthening of concrete slab-column connections using CFRP strips

Soudki

El-Sayed

Vanzwol

2012

Journal of King Saud University - Engineering Sciences

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Bend Strength of FRP Stirrups: Comparison and Evaluation of Testing Methods

et al. 2010

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Analytical study on RC beams strengthened for flexure with externally bonded FRP reinforcement

Al-Zaid

Al‐Negheimish

Al-Saawani

et al. 2012

Composites Part B: Engineering

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A State-of-the-Art Review of Bending and Shear Behaviors of Corrosion-Damaged Reinforced Concrete Beams

El-Sayed¹,

Al‐Negheimish²,

Alhozaimy³

2019

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Ahmed K. El-Sayed

Shear Strength of One-Way Concrete Slabs Reinforced with Fiber-Reinforced Polymer Composite Bars

Effect of shear-span/depth ratio on debonding failures of FRP-strengthened RC beams

Mechanical and Structural Characterization of New Carbon FRP Stirrups for Concrete Members

Shear strength of fibre-reinforced polymer reinforced concrete deep beams without web reinforcement

Strengthening of concrete slab-column connections using CFRP strips

Bend Strength of FRP Stirrups: Comparison and Evaluation of Testing Methods

Analytical study on RC beams strengthened for flexure with externally bonded FRP reinforcement

A State-of-the-Art Review of Bending and Shear Behaviors of Corrosion-Damaged Reinforced Concrete Beams

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