Experimental assessment of the flexural/shear strengthening effectiveness of new CFRP bars

The potential of a new carbon fibre reinforced polymer (CFRP) bar (CutInov) is explored for the simultaneous flexural and shear strengthening of reinforced concrete (RC) beams. This bar has a stick geometric configuration, with one part applied according to the near surface mounted (NSM) technique a...

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Bibliographic Details
Published in:Procedia Structural Integrity 2024, Vol.64, p.833-840
Main Authors: Barros, J.A.O., Ziaeinia, A., Correia, L.G., Dias, S.J.E., Dourado, F.N.F.M.
Format: Article
Language:English
Subjects:
CFRP anchor
Experimental tests
Flexural
New CFRP bar
RC beams
shear strengthening
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Summary:The potential of a new carbon fibre reinforced polymer (CFRP) bar (CutInov) is explored for the simultaneous flexural and shear strengthening of reinforced concrete (RC) beams. This bar has a stick geometric configuration, with one part applied according to the near surface mounted (NSM) technique and the other according to the embedded through section (ETS) technique, both connected with a smooth transition zone. The NSM part aims to increase the flexural capacity of the RC element, whereas the ETS part, inclined at 45° relative to the RC beam’s axis, aims to provide shear strengthening and to avoid premature end debonding and rip-off failure modes to the NSM part. To avoid premature rupture at the transition zone of this bar, CFRP fan-type anchors are applied in the critical regions of the beam. An experimental programme with almost real-scale RC beams was executed, composed of a reference beam (Ref) and two beams strengthened with CutInov bars, one with (3CI_A) and the other without CFRP anchors (3CI). Compared to the Ref beam, the 3CI beam presented an increase of 55%, 71%, and 79% in terms of load at a deflection corresponding to serviceability limit state conditions, load at yield initiation of the flexural steel reinforcement, and maximum load, while 3CI_A have even developed better indicators, 61%, 95%, and 117%, demonstrating the efficiency of the CFRP anchors.
ISSN:2452-3216
2452-3216
DOI:10.1016/j.prostr.2024.09.354