Experimental and analytical investigation of using externally bonded, hybrid, fiber-reinforced polymers to repair and strengthen heated, damaged RC beams in flexure

Abstract: PurposeThis study aims to conduct an experimental study and finite element model (FEM) to investigate the flexural behavior of heat-damaged beams strengthened/repaired by hybrid fiber-reinforced polymers (HFRP).Design/methodology/approachTwo groups of beams of (150 × 250 × 1,200) mm were cast, strengthened and repaired using different configurations of HFRP and tested under four-point loadings. The first group was kept at room temperature, while the second group was exposed to a temperature of 400°C.FindingsIt… Show more

“…yielding of steel followed by compression concrete crushing was observed for all the beams. The beam A1 failed by flexure mode of failure as shown in Figure 3a [36]. The beams strengthened using GFRP laminates (A2 and A3) failed through the steel reaches its yield value followed by crack in external bonded GFRP sheets which is shown in Figure b and c [37].…”

Evaluation of the Flexural Performance of the Mono and Hybrid FRP Strengthened RC Beams: Static and Cyclic Loads

“…yielding of steel followed by compression concrete crushing was observed for all the beams. The beam A1 failed by flexure mode of failure as shown in Figure 3a [36]. The beams strengthened using GFRP laminates (A2 and A3) failed through the steel reaches its yield value followed by crack in external bonded GFRP sheets which is shown in Figure b and c [37].…”

Evaluation of the Flexural Performance of the Mono and Hybrid FRP Strengthened RC Beams: Static and Cyclic Loads

Shear strengthening of fire-damaged reinforced concrete beams using NSM CFRP laminates

Impact of Internal CFRP strips on the flexural behavior of heat-damaged reinforced concrete beams