Issue |
MATEC Web of Conferences
Volume 2, 2012
IInd International Seminar INVACO – Innovation & Valorization in Civil Engineering & Construction Materials
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Article Number | 02006 | |
Number of page(s) | 9 | |
Section | Reinforcing materials and rehabilitation of soils and structures | |
DOI | https://doi.org/10.1051/matecconf/20120202006 | |
Published online | 03 September 2012 |
Modèle de confinement pour les colonnes de section circulaire en béton armé confiné avec des enveloppes en polymère renforcé de fibres de carbone
Confinement model for circular RC columns wrapped with CFRP composite
1 L.G.G., Université de Jijel. BP. 98 Ouled Issa, Jijel – 18000, Algérie
2 L.G.C.G.M., Département génie civil, INSA de Rennes, 20, Av. des Buttes de Coësmes – CS 70 839 – 35708 – Rennes Cedex7, France
Un programme experimental comprenant des essais sur 30 cylindres 160×320 mm a ete mene en vue de determiner le gain de resistance et de ductilite du beton confine par collage externe de tissu de polymere renforce de fibres de carbone (PRFC). Les variables etudiees sont la resistance a la compression du beton non confine f’co, le niveau de confinement, exprime par le nombre de plis de PRFC applique aux eprouvettes. La deformation circonferentielle a la rupture du composite PRF et l’feffet de la pression de confinement laterale effective de l’fenveloppe composite ont ete egalement etudies. Pour l’fensemble des specimens testes, l’faugmentation de la rigidite du confinement entraine a la fois une augmentation significative de la resistance a la compression axiale et de la ductilite des specimens en beton confine avec des PRFC par rapport aux specimens en beton non confine. Base sur les resultats experimentaux, un modele de confinement pratique est propose pour predire la resistance a la compression maximale du beton confine avec des materiaux composites (f’cc) et la deformation axiale correspondante (εcc).
Abstract
The present paper deals with the analysis of experimental results, in terms of load carrying capacity and strains, obtained from tests on plain- and reinforced- concrete (RC) cylinder, strengthened with external carbon-fiber-reinforced polymer (CFRP). The parameters considered are the number of composite layers, the compressive strength of unconfined concrete. The effective circumferential FRP failure strain and the effect of the effective lateral confining pressure were investigated. Totally thirty cylinders (160×320 mm) were subjected to axial compression which includes control specimens. All the test specimens were loaded to failure in axial compression and the behaviour of the specimens in the axial and transverse directions was investigated. Test results shown that the CFRP wrap increases the strength and ductility of reinforced concrete cylinders, significantly. A simple model is presented to predict the compressive strength and axial strain of FRP-confined RC columns.
© Owned by the authors, published by EDP Sciences, 2012
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