Torsional Behavior of CFRP Strengthening of SCC Box Beams with Web Openings under Repeated Loading

Mahdi, Haneen M.; Abbas, Rafaa M.

doi:10.28991/cej-2023-09-12-06

Civ Eng J

2023

DOI: 10.28991/cej-2023-09-12-06

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Torsional Behavior of CFRP Strengthening of SCC Box Beams with Web Openings under Repeated Loading

Haneen M. Mahdi,

Rafaa M. Abbas

Abstract: Monotonic and repeated torsional loading frequently occur in many concrete structures. The loading and unloading action of repeated torsion places structures under greater damage and risk of failure than other types of loading. Therefore, keeping old infrastructure maintained, repaired, and upgraded has become an important priority and requirement. In this research, experimental work was done on pre-cracked self-compacted reinforced concrete box beams repaired (strengthened) with CFRP sheets to investigate the… Show more

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2024

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Cited by 4 publications

References 27 publications

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Multi-scale-space Grillage Mixed Method of Mechanical Behavior of Composite Box Beams with Finite Element Method (FEM)

Lu,

Ding,

et al. 2024

Arab J Sci Eng

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Multi-scale-space Grillage Mixed Method of Mechanical Behavior of Composite Box Beams with Finite Element Method (FEM)

Lu,

Ding,

et al. 2024

Arab J Sci Eng

View full text Add to dashboard Cite

Studies on the behaviour of steel fibre reinforced concrete under monotonic and repeated cyclic stress in tension

Jayanth,

Suresh,

Shesha Prakash

2024

Innov. Infrastruct. Solut.

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Behavior of GFRP Reinforced-Concrete Bubbled One-Way Slabs by Encased Composite Steel I-Sections

Abdulkhaliq,

Al-Ahmed

2024

Eng. Technol. Appl. Sci. Res.

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Bubbled Reinforced Concrete (RC) slabs have gained popularity in recent years as a practical construction method that eliminates unnecessary concrete in the center, thereby reducing the dead weight of the structure. This study provides a systematic framework to compare the performance and capabilities of one-way bubbled concrete slabs reinforced with Glass Fiber Reinforced Polymer (GFRP) bars and embedded steel I-sections. Four one-way concrete slabs, each with a length of 2,600 mm and a rectangular cross-sectional area of 600 mm in width and 150 mm in depth were employed. These slabs were reinforced with Glass Reinforced Plastics (GRP) rebar at the same reinforcement ratio and tested by two-point bending to failure. Different parameters such as specimen type (solid or bubbled slabs) and internal reinforcement were achieved using steel I-sections in two different shapes (2 and 4 pcs of steel I-sections), where 4I-section shape with a cross-sectional area equivalent to 2I-section shape, channel shear connectors, and bent steel bars (10 mm diameter) were used to improve the shear resistance. The results showed that bubbled slabs experienced a higher range of deformations (including deflection, strains, and cracks) by about (28%-88%) and a 15% decrease in ultimate load capacity compared to solid slabs. On the other hand, the use of steel I-sections as internal reinforcement significantly improved the specimen performance compared to unreinforced slabs (Steel Slab (SS) and Bubbled Slab (BS), respectively). Deflection was reduced by approximately 52% and 87% at the same load level, ultimate load capacity increased by approximately 121% and 179%, and flexural stiffness increased by approximately 197% and 272% at the same load level.

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Torsional Behavior of CFRP Strengthening of SCC Box Beams with Web Openings under Repeated Loading

Cited by 4 publications

References 27 publications

Multi-scale-space Grillage Mixed Method of Mechanical Behavior of Composite Box Beams with Finite Element Method (FEM)

Multi-scale-space Grillage Mixed Method of Mechanical Behavior of Composite Box Beams with Finite Element Method (FEM)

Studies on the behaviour of steel fibre reinforced concrete under monotonic and repeated cyclic stress in tension

Behavior of GFRP Reinforced-Concrete Bubbled One-Way Slabs by Encased Composite Steel I-Sections

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