Abstract
This paper discusses the failure mode of reinforced concrete beams strengthened with composite materials based on six experimental set-ups to determine the FRP-to-concrete bond strength. Interfacial bond behavior between concrete and CFRP plates was discussed. Shear test were performed with different concrete compressive strengths (21 MPa and 28 MPa) and different bonding length (100 mm, 150 mm, 200 mm, and 250 mm). Shear test results indicate that the effective bond length (the bond length beyond which the ultimate load does not increase) was estimated as 196~204 mm through linear regression analysis. Failure modeof specimens occurred due to debonding between concrete and CFRP plates. Maximum bond stress is calculated as about 3.0~3.3 MPa from the relationships between bond stress and slip. Finally, the interfacial bond-slip model between CFRP plates and concrete, which is governed debonding failure, has been estimated from shear tests. Average bond stress was about 1.86~2.04 MPa, the volume of slip between CFRP plate and concrete was about 1.45~1.72 mm, and the fracture energy was found to be about 1.35~1.71 N/mm.
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