Buildings, Vol. 16, Pages 72: Nonlinear Analysis of Hybrid GFRP-Steel Reinforced Beam-Column Joints Under Cyclic and Axial Loading

Greenberg December 24, 2025 in News - 1 Minute

Buildings, Vol. 16, Pages 72: Nonlinear Analysis of Hybrid GFRP-Steel Reinforced Beam-Column Joints Under Cyclic and Axial Loading

Buildings doi: 10.3390/buildings16010072

Authors:
Asma Hadjadj
Abderrahmane Ouazir
Mansour Ouazir
Houcine Djeffal

This study investigates the cyclic behavior of reinforced concrete beam&ndash;column joints strengthened with hybrid GFRP&ndash;steel reinforcement using nonlinear finite element analysis. Six hybrid configurations&mdash;defined by varying the percentage of the total longitudinal steel reinforcement area, in the beam, replaced with GFRP bars (0%, 20%, 25%, 33%, 50%, and 100%)&mdash;were evaluated in terms of load&ndash;displacement hysteresis, stiffness degradation, dissipated energy, and crack development. A multi-criteria decision analysis (MCDA) was employed to quantitatively compare the six configurations. The findings demonstrate the potential of partial GFRP substitution to enhance the seismic performance of reinforced concrete beam&ndash;column joints.

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Asma Hadjadj www.mdpi.com

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