Article dans une revue avec comité de lecture

Theoretical and finite element studies of interfacial stresses in reinforced concrete beams strengthened by externally FRP laminates plate.
Journal of Adhesion Science and Technology, Volume 30, N° 12, Pages 1253–1280, 2016.

par   T. Hassaine Daouadji , A. Rabahi , Boussad ABBES , B. Adim

Résumé :

Abstract :
The paper presents the results of an analytical and numerical solution for interfacial stresses in carbon fiber reinforced plastic
(CFRP)–reinforced concrete (RC) hybrid beams studied by the finite element method. The analytical analysis is based on the deformation compatibility approach where both the shear and normal stresses are assumed to be invariant across the adhesive layer thickness. The adherend shear deformations are taken into account by assuming a parabolic shear stress through the thickness of both the concrete beam and the bonded plate. In numerical analysis, the mesh sensitivity
test shows that the finite element results for interfacial stresses are not sensitive to the finite element mesh. The finite element analysis then is used to calculate the interfacial stress distribution and evaluate the effect of the structural parameters on the interfacial behavior. It is shown that both the normal and shear stresses at the interface are influenced by the material and geometry parameters of the composite beam. Numerical results from the present analysis are presented both
to demonstrate the advantages of the present solution over existing ones and to illustrate the main characteristics of interfacial stress distributions. We can conclude that this research is helpful for the understanding the mechanical behavior of the interface and design of the FRP–RC hybrid structures., 2016.

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  • 42ème congrès de la Société de Biomécanique 2,3 et 4 novembre 2017 Reims, France.
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