Abstract
Abstract
This study investigates hybrid fiber-reinforced polymer (FRP)–steel-reinforced concrete (RC) beams by using three-dimensional finite element models. The research systematically analyzes the influence of key parameters, including FRP type, FRP bar ratio (ρf), the ratio of FRP to total reinforcement (ρf/ρt), and concrete strength. The load–deflection response of the hybrid RC beams is analyzed in detail. The results show that the investigated parameters have a relatively limited influence on the cracking moment, but significantly affect both the yield and ultimate moments. When ρf/ρt increases from 0 to 0.75, the yield moment decreases by up to 44.34%. When ρf increases from 0.55% to 0.88%, the yield moment increases by 50.63%. Meanwhile, increasing the concrete strength significantly enhances the ultimate moment, with a maximum increase of 38.46%. In addition, an energy ductility index is adopted to quantitatively evaluate the structural ductility. The results indicate that the energy ductility index is consistently lower than the conventional ductility index. Finally, to improve the accuracy of theoretical predictions, a semi-empirical simplified formula is proposed for estimating the FRP bar stress at the ultimate state of hybrid beams. The verification results show that the proposed prediction method agrees well with the experimental data, demonstrating that the simplified formula has good applicability and reliability within the parameter range investigated in this study.
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@article{Wu2026Flexural,
title = {Flexural Ductility and Strength in Hybrid FRP–Steel RC Beams},
author = {Y N Wu and B Chen and Sérgio M.R. Lopes and Adelino V. Lopes and Yi Dong and Tiejiong Lou},
journal = {Materials},
year = {2026},
doi = {10.3390/ma19132904},
url = {https://doi.org/10.3390/ma19132904}
}
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