Experimental testing and finite element modeling on continuous concrete beams reinforced with fibre reinforced polymer bars and stirrups

摘要

Continuous concrete beams are common elements in structures such as parking garages and overpasses, which might be exposed to extreme weather. Using the non-corrodible fibre reinforced polymer (FRP) bars is a viable alternative to avoid steel corrosion problems. Due to the linear-elastic behaviour of FRP materials, the possibility of moment redistribution in FRP-reinforced beams is questionable. In this paper, the experimental results of ten full-scale continuous concrete beams are summarized followed by a finite element parametric study using ANSYS software. Steel, glass fibre reinforced polymer, and carbon fibre reinforced polymer bars were used in different combinations as longitudinal and transverse reinforcement. The main investigated parameters were the ratio and type of longitudinal and transverse reinforcement. Results showed that moment redistribution in such beams is possible if the reinforcement configuration is chosen properly. The developed finite element model predicted the response of tested beams with a reasonable degree of accuracy and was used to expand the range of investigated parameters.