This study investigates the flexural behavior of reinforced concrete beams strengthened with a con-crete overlay under static loading conditions. Numerical simulations were performed using ABAQUS, and the finite element model was validated against experimental data to ensure accuracy. A comprehensive parametric study was conducted, considering variables such as overlay thickness, the area of longitudinal tensile reinforcement, and the compressive strength of concrete. Key perfor-mance indicators—including load-deflection behavior, flexural capacity, and ductility ratio—were analyzed. The findings reveal that increasing the thickness of the concrete overlay leads to a reduc-tion in both flexural stiffness and ultimate moment capacity across all types of interface conditions, compared to the un-strengthened control beam. In contrast, enhancing the compressive strength of the overlay resulted in a 7% increase in load-bearing capacity. Although stiffness improved, a no-ticeable decrease in ductility was observed, with the ductility ratio reaching 5.8. Furthermore, both higher overlay compressive strength and a greater area of longitudinal reinforcement were associated with improved flexural performance.
Baraka, E., Yehia, M., Ayash, N., & Sherif, A. (2025). Finite Element Modeling of Reinforced Concrete beam Strengthened by Concrete Overlay. Engineering Research Journal, 184(4), 262-282. doi: 10.21608/erj.2025.386478.1239
MLA
Ehsan Nabil Baraka; Mohamed Mohamed Yehia; Nehal Magdy Ayash; Alaa Gamal Sherif. "Finite Element Modeling of Reinforced Concrete beam Strengthened by Concrete Overlay", Engineering Research Journal, 184, 4, 2025, 262-282. doi: 10.21608/erj.2025.386478.1239
HARVARD
Baraka, E., Yehia, M., Ayash, N., Sherif, A. (2025). 'Finite Element Modeling of Reinforced Concrete beam Strengthened by Concrete Overlay', Engineering Research Journal, 184(4), pp. 262-282. doi: 10.21608/erj.2025.386478.1239
VANCOUVER
Baraka, E., Yehia, M., Ayash, N., Sherif, A. Finite Element Modeling of Reinforced Concrete beam Strengthened by Concrete Overlay. Engineering Research Journal, 2025; 184(4): 262-282. doi: 10.21608/erj.2025.386478.1239
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