Soutenance de thèse : Astérios VALOGIANNIS

Contribution à l'étude du comportement des structures renforcées par des armatures en fibres de carbone

Doctorant : Astérios VALOGIANNIS

Laboratoire INSA : GEOMAS

École doctorale : ED162 : Mécanique, Énergétique, Génie Civil, Acoustique de Lyon

Steel corrosion is one of the main causes of mechanical deterioration of reinforced concrete structures during their lifetime. A promising alternative for their reinforcement is the Fiber Reinforced Polymer (FRP) bars. These bars are also being studied in the context of reinforcing the underground structures that will host the radioactive waste produced in France, through related research projects carried out by the French National Agency for Radioactive Waste Management (ANDRA). The research conducted through this PhD thesis contributes to gaining more knowledge about the behavior of these bars by focusing on their interaction with concrete. Four types of carbon FRP (CFRP) bars were selected for this study, which differ, among others, in their surface treatment as follows: ribbed, sand-coated, smooth and twisted bars. Conventional steel bar is also used for comparison purposes. Steel-reinforced and CFRP-reinforced cubic concrete samples with 20 cm on each side are tested in pull-out loading to evaluate and quantify the concrete/bar bond behavior. Each CFRP bar exhibits a different bond performance attributed mainly to the composition and geometry of their outer surface, with ribbed bar presenting the highest bond strength among CFRP bars. Some of the CFRP-reinforced samples are also subjected to partial pull- out loading, while others remain unloaded. Cylindrical samples of 0.6-2.5cm thickness and 4.2cm in diameter obtained by core drilling from the CFRP-reinforced samples are studied using Scanning Electron Microscopy-Energy Dispersive Spectroscopy, indentation and push-out tests. The objective is to understand the interface behavior and its failure mechanisms. One of the notable results is the poor concrete-carbon fibers bond and the good concrete-polymer bond. Bond strength values obtained from pull-out tests with CFRP bars are converted to anchorage length in beams. This additionally requires the determination of parameters resulting from the beams design. A steel- reinforced concrete beam is also studied for comparison purposes.