Experiments on shear behavior of reinforced concrete continuous beams strengthened by <scp>C‐FRCM</scp>

Feng, Ran; Tang, Jing‐Pu; Wang, Fangying; Wang, Sen; Zeng, Jun‐Jie; Zhu, Ji‐Hua

doi:10.1002/suco.202300396

Structural Concrete

2024

DOI: 10.1002/suco.202300396

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Experiments on shear behavior of reinforced concrete continuous beams strengthened by C‐FRCM

Ran Feng,

Jing‐Pu Tang,

Fangying Wang

et al.

Abstract: The dual‐function retrofitting system that uses the carbon‐fabric reinforced cementitious matrix (C‐FRCM) as both the anode of impressed current cathodic protection (ICCP) system and the structural strengthening (SS) material, that is, an ICCP‐SS system, is investigated. The experimental program mainly focused on the shear behavior of C‐FRCM strengthened reinforced concrete (RC) continuous beam under the dual‐function retrofitting system. The influence of anode polarization on the shear strengthening of RC con… Show more

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Cited by 2 publications

References 27 publications

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Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets

Feng,

Hou,

Wang

et al. 2024

Journal of Building Engineering

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Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets

Feng,

Hou,

Wang

et al. 2024

Journal of Building Engineering

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Shear Strengthening with a Fiber-Reinforced Cementitious Matrix of Reinforced Concrete Elements Under Different Levels of Loads: An Experimental Investigation

Vegera,

Borzovic,

Blikharskyi

et al. 2024

Construction Materials

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This article explores the impact of strengthening reinforced concrete beams under different load levels, focusing on the use of polyphenylene benzobisoxazole (P.B.O.) fibers in a stabilized inorganic matrix to enhance the shear capacity. This research examines the interaction between modern composite materials and existing reinforced concrete structures, highlighting the practical challenges when the full unloading of structures is impossible. The experiments demonstrate that strengthening significantly increases the shear strength, with a maximum enhancement of 25%. However, the effect decreases as the load applied during strengthening increases, dropping to 16% at 70% of the ultimate load. This research also highlights the importance of refining current calculation methods due to the complex stress–strain state of beams and the unpredictable nature of shear failures. It concludes that composite materials, especially fiber-reinforced cementitious matrix (FRCM) systems, provide a practical solution for enhancing structural performance while maintaining the integrity and safety of concrete elements. This article emphasizes that the strengthening efficiency should be adjusted based on the applied load, suggesting a 5% reduction in effectiveness for every 10% increase in the initial load level. The findings support the empirical hypothesis that the shear strength improvement diminishes linearly with higher load levels during strengthening.

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Experiments on shear behavior of reinforced concrete continuous beams strengthened by C‐FRCM

Cited by 2 publications

References 27 publications

Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets

Flexural performance of seawater sea sand concrete composite beams enhanced by dual-functional C-FRCM jackets

Shear Strengthening with a Fiber-Reinforced Cementitious Matrix of Reinforced Concrete Elements Under Different Levels of Loads: An Experimental Investigation

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