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Prof. Maher Abd El-Rahman Ibrahim Adam :: Publications:

Title:
Structural Behavior of High-Strength Concrete Slabs Reinforced with GFRP Bars
Authors: Adam, M.A.; Erfan, A.M.; Habib, F.A.; El-Sayed, T.A.
Year: 2021
Keywords: structural performance; exponential study; GFRP bars; high-strength concrete (HSC), nonlinear analysis; ANSYS 2019-R1
Journal: Polymets
Volume: 13
Issue: 17
Pages: 2997
Publisher: MDPI
Local/International: International
Paper Link:
Full paper Maher Abd El-Rahman Ibrahim Adam_polymers-13-02997.pdf
Supplementary materials Not Available
Abstract:

this manuscript, structural testing was conducted on high-strength concrete slab specimens to investigate the behavior of such specimens when reinforced with a locally produced GFRP reinforcement. Subsequently, a finite element model (FEM) was constructed and validated against the experimental results. In the experimental phase, a total of eleven specimens (nine were reinforced with GFRP, while two were reinforced with conventional steel) were constructed and tested. The slabs dimensions are 700 mm × 1750 mm with variable thickness from 100 mm to 150 mm and different reinforcement ratios using different diameters. The structural behavior of the tested slabs was investigated in terms of ultimate load, ultimate deflection, load–deflection relationship, and crack pattern. Additionally, a nonlinear finite element model using the software ANSYS 2019-R1 was constructed to simulate the structural behavior of slabs reinforced with GFRP bars. The results obtained from the finite element analysis are compared with experimental results. The outcomes showed that the contribution of GFRP rebars in concrete slabs improved slab ductility and exhibited higher deflection when compared with traditional steel rebars. Good agreement between experimental and nonlinear analysis was obtained.

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