ur des cas litigieux en 2D (éprouvettes fines, flambement local) Cette méthode de mesure est particulièrement utile pour des cas où le mode III joue un rôle non-négligeable. Validée, l'extraction de facteurs d'intensité des contraintes en mode I+II+III ouvre la voie à des études plus complètes [Frémy 12]. Ces procédures auront été l'occasion de développer les interfaces logicielles nécessaires au traitement plus efficace de grandes séries d'images, que ce soit pour l'extraction de facteurs d'intensité des contraintes en 2D ou 3D surfacique, l'identification de lois de fissurationa v e cl e sd e u xp r o c é d u r e sp r o p o s é e s ,o ul e pilotage de calculs éléments finis avec des conditions aux limites mesurées par corrélation d'images. 3.8. CONCLUSIONS importantes pour l'expérimentateur, et notamment la contrainte T ,s o u s -p r o d u i td ec e sp r o c é d u r e sq u ' i l serait intéressant d'intégrer à l'identification d'un modèle pour un cas qui le nécessite. De manière générale, la suite logique de ces travaux est la généralisation de ces essais et procédures à un domaine plus large (amplitude de facteurs d'intensité plus faibles, effet de lac o n t r a i n t eT ,m o d è l e si n c l u a n tl ' e f f e td um o d eI I sur la propagation) On peut également envisager un pilotaged'essaienfacteursd'intensitédescontraintes [Fayolle 08, Durif et al. 12]. Certains cas sortent néanmoins du cadre théorique qui a permis ces résultats. Les champs de Williams ne permettent en effet de traiter que des cas où la fissure est majoritairement droite et où existe une zone de K-dominance (domaine élastique). Plusieurs variantes de ces approches sont dès lors possibles. L'utilisation des champs HRR est notamment une voie possible ,
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