Abstract
The reinforcement effect and durability of carbon fibre-reinforced polymer (CFRP) sheets are important indicators that affect its promotion and application. This study conducted an experimental investigation of the degradation behavior of reinforced concrete (RC) beams strengthened with CFRP. The RC beams were deteriorated under the compound effects of acid-salt mist and carbon dioxide for a time period t1i, then strengthened with one or two layers of CFRP sheets, and placed in the same deterioration environment for an additional time period t2i. The failure modes, load-deflection curves, rigidity, and flexural carrying capacity changes were studied after the deteriorated RC beams were loaded to failure. Three combinations of deterioration periods were considered in this study: different t1i and same t2i, same t1i and different t2i, and same total time (t1i + t2i). This study found that the U-shaped hoops and the side concrete peeled off gradually as the CFRP-strengthened RC beams were deteriorated again with time. Under the ultimate load, the strengthening layer in the tension zone stripped. The strengthened layer, which consisted of CFRP, a binder, and the concrete cover, was stripped from the RC beam during loading. The deflection of the strengthened layer behaved differently from the other part; this disharmony prevented the mobilization of the tensile advantage of CFRP. The mechanism of RC beam’s mechanical behaviour was analyzed in terms of the degrees of deterioration of RC beams and CFRP and their coupled effects. The conclusions of this study can be used as references in the prediction of strength changing and service life of strengthened RC beams.
Highlights
Reinforced concrete (RC) structures in coalmines deteriorate rapidly in their deteriorative environment
Ree failure modes can be observed when CFRPstrengthened reinforced concrete (RC) beams are under their ultimate loads: the main failure mode is concrete crushed while the tensile steel bars are yielded and the carbon fibrereinforced polymer (CFRP) strengthening layer is stripped [5]
Cracks appeared on the sides of the RC beams along the direction of the tensile steel bars, with the maximum crack width exceeding 6 mm. e reinforcement layer, including the Hydraulic jack Beam specimen
Summary
Reinforced concrete (RC) structures in coalmines deteriorate rapidly in their deteriorative environment. The carbon fibrereinforced polymer (CFRP) is widely accepted in RC structure-strengthening projects for its ability to increase the range of elastic area of RC structures, when the tensile steel bars have yielded [3, 4]. E flexural failure modes, load-deflection curves, rigidity, and loading capacity of RC beams that deteriorated for 18 to 30 months in the compound effects of acid-salt mist and carbon dioxide exposed in the same environment for another 15 to 21 months after being strengthened with CFRP are studied; the mechanical performance of the RC beams in the deteriorative environment before and after strengthening and factors that affect the performance are analyzed in this paper. As confirmed above, strengthening with CFRP increases the mechanical performance of RC beams, the performance degrades under environmental effects. e strengthening effect differs for RC beams with different degrees of deterioration. e degradation mechanism of CFRP-strengthened RC beam still needs further investigation. e deterioration mechanism relates to the deterioration of the RC beam and CFRP and the coupling effect of the two, which remains unclear to researchers. us, this research conducted an experimental investigation of the degradation behavior of reinforced concrete (RC) beams strengthened with CFRP. e RC beams were deteriorated under the compound effects of acid-salt mist and carbon dioxide for a time period t1i, strengthened with one or two layers of CFRP sheets, and placed in the same deterioration environment for an additional time period t2i. e failure modes, load-deflection curves, rigidity, and flexural carrying capacity changes were studied after the deteriorated RC beams were loaded to failure. ree combinations of deterioration periods were considered in this study: different t1i and same t2i, same t1i and different t2i, and same total time (t1i + t2i). e flexural failure modes, load-deflection curves, rigidity, and loading capacity of RC beams that deteriorated for 18 to 30 months in the compound effects of acid-salt mist and carbon dioxide exposed in the same environment for another 15 to 21 months after being strengthened with CFRP are studied; the mechanical performance of the RC beams in the deteriorative environment before and after strengthening and factors that affect the performance are analyzed in this paper. e research results better reflect the actual situation of the damage and deterioration of colliery ground RC structures and provide effective guides to the strengthening of deteriorated RC structures
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