Near-surface mounted flexural strengthening of reinforced concrete beams with low concrete strength

Abstract

Among the strengthening techniques based on fibre-reinforced polymer composites, the use of near-surface mounted fibre-reinforced polymer reinforcement has recently become an attractive option for increasing flexural and shear strength of deficient reinforced concrete structural elements. In order to widen the existing test database, which is currently more limited than that related to externally bonded fibre-reinforced polymer laminates, this project investigated flexural strengthening by testing six 4·3 m long reinforced concrete beams with 200 mm × 400 mm rectangular cross-section, of which two were control and four were strengthened beams. In the latter, carbon fibre&hyp[hen;-reinforced polymer round bars were embedded in grooves cut onto the bottom concrete surface and filled with a two-component, high-viscosity epoxy paste. The concrete compressive strength was very low (cylinder strength equal to 15 MPa), and all the beams were designed to fail by concrete crushing after yielding of the steel reinforcement. The incidence of debonding failures under these conditions could then be evaluated. The variables investigated were the ratio of internal steel reinforcement and the ratio of fibre-reinforced polymer superficial reinforcement. Experimental results are discussed in this paper, and their comparison with predictions of a simple analytical model is also presented.