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Darby, Antony
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Publications (10/10 displayed)
- 2018GFRP durability appraisal: mechanical testing of naturally aged composite panelscitations
- 2015Shear strength theories for beams of variable depth
- 2015Moment redistribution in CFRP strengthened concrete t-beams: an experimental study
- 2015Experimental study of moment redistribution in reinforced concrete slabs strengthened with CFRP sheets
- 2013A parametric study on moment redistribution in FRP-strengthened continuous RC beams
- 2013Experimentally observed behaviour of CFRP sheet strengthening across a shear plane
- 2012Polymeric facades: advanced composites for retrofit
- 2012Advanced composite reinforcement for fabric-formed structural elements
- 2011An FRP durability study
- 2009Bond mechanisms of various shapes of NSM CFRP bars
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document
Moment redistribution in CFRP strengthened concrete t-beams: an experimental study
Abstract
Moment redistribution in FRP flexurally strengthened continuous reinforced concrete structures is often not allowed (or is limited) in design guidance documents. This is due to the elastic-brittle nature of CFRP composite materials and their propensity to prematurely debond from the concrete surface, resulting in a reduction in the associated ductility of the strengthened concrete section. However, there is still a possibility that some redistribution can occur if sufficient rotation capacity can develop. In this study, the moment redistribution capacity of FRP strengthened RC T-beams was examined by testing 6 two-span continuous specimens. The specimens were designed to have 30% redistribution capacity before FRP strengthening. Different internal steel arrangements as well as various FRP strengthening configurations and anchoring schemes were investigated for each specimen. The experimental results demonstrated that a high amount of moment redistribution could be achieved into FRP-strengthened zones, with little restriction, while the degree of moment redistribution out of FRP-strengthened zones is highly dependent on the quantity and anchorage of the CFRP composite materials, although some limited but significant moment redistribution is generally still possible.