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Abstract
This paper presents the results of an experimental study on the behaviour of axially loaded short concrete columns, with different cross sections that have been externally strengthened with carbon fibre-reinforced polymer (CFRP) sheets. Six series, forming the total of 60 specimens, were subjected to axial compression. All the test specimens were loaded to failure in axial compression and investigated in both axial and transverse directions. According to the obtained test results, FRP-confined specimen failure occurs before the FRP reached the ultimate strain capacities. Thus, the failure occurs prematurely and the circumferential failure strain is lower than the ultimate strain obtained from the standard tensile testing of the FRP composite. In existing models for FRP-confined concrete, it is commonly assumed that the FRP ruptures when the hoop stress in the FRP jacket reaches its tensile strength from either flat coupon tests, which is herein referred to as the FRP material tensile strength. This phenomenon considerably affects the accuracy of the existing models for FRP-confined concrete. On the basis of the effective lateral confining pressure of the composite jacket and the effective circumferential FRP failure strain, new equations were proposed to predict the strength of FRP-confined concrete and corresponding strain for each of the cross section geometry used, circular and square. The estimations given by these equations were compared with the experimental ones and general conclusions were drawn.
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Notes on contributors
Riad Benzaid
Riad BENZAID.Associate Professor at the University of Jijel (Algeria). Researcher at the L.G.G. laboratory at Jijel University and at the L.M.D.C. laboratory of Materials at Mentouri University – Constantine (Algeria). His main research interests include strengthening the concrete elements with FRP materials.
Habib-Abdelhak Mesbah
Habib-Abdelhak MESBAH. Associate Professor at the University of Rennes 1, France (I.U.T of Rennes). Researcher at the L.G.C.G.M. laboratory at INSA of Rennes (France). His research interests include self-consolidating concrete, high performance concrete, fibre reinforced concrete, strengthening the concrete elements with FRP materials.