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http://dx.doi.org/10.12989/aas.2016.3.2.171

Thermo-oxidation behaviour of organic matrix composite materials at high temperatures  

Cinquin, Jacques (Airbus Group Innovations)
Colin, Xavier (Laboratoire PIMM (UMR CNRS 8006), Art et Metiers ParisTech)
Fayolle, Bruno (Laboratoire PIMM (UMR CNRS 8006), Art et Metiers ParisTech)
Mille, Marion (Laboratoire PIMM (UMR CNRS 8006), Art et Metiers ParisTech)
Terekhina, Svetlana (Laboratoire PIMM (UMR CNRS 8006), Art et Metiers ParisTech)
Chocinski-Arnault, Laurence (Institut Pprime, CNRS - ENSMA - Universite de Poitiers)
Gigliotti, Marco (Institut Pprime, CNRS - ENSMA - Universite de Poitiers)
Grandidier, Jean-Claude (Institut Pprime, CNRS - ENSMA - Universite de Poitiers)
Lafarie-Frenot, Marie-Christine (Institut Pprime, CNRS - ENSMA - Universite de Poitiers)
Minervino, Matteo (Institut Pprime, CNRS - ENSMA - Universite de Poitiers)
Cluzel, Christophe (LMT, ENS Cachan, CNRS, Universite Paris Saclay)
Daghia, Federica (LMT, ENS Cachan, CNRS, Universite Paris Saclay)
Ladeveze, Pierre (LMT, ENS Cachan, CNRS, Universite Paris Saclay)
Zhang, Fangzouh (LMT, ENS Cachan, CNRS, Universite Paris Saclay)
Publication Information
Advances in aircraft and spacecraft science / v.3, no.2, 2016 , pp. 171-195 More about this Journal
Abstract
The present paper is a review of the main activities carried out within the context of the COMPTINN' program, a joint research project founded by a FUI program (Fonds $Unifi{\acute{e}}s$ $Interminist{\acute{e}}riels$) in which four research teams focused on the thermo-oxidation behaviour of HTS-TACTIX carbon-epoxy composite at 'high' temperatures ($120^{\circ}C-180^{\circ}C$). The scientific aim of the COMPTINN' program was to better identify, with a multi-scale approach, the link between the physico-chemical mechanisms involved in thermo-oxidation phenomena, and to provide theoretical and numerical tools for predicting the mechanical behaviour of aged composite materials including damage onset and development.
Keywords
polymer matrix composites; environmental degradation; thermo-oxidation; epoxy resin; micro indentation; delamination;
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