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Communication dans un congrès

Strategies and Numerical Implementation of Fatigue Life Models for Continuous Fiber Reinforced Polymers

Abstract : Structural components made of continuous fiber reinforced polymers are exposed to repeatedly-applied loads leading to fatigue failure during the service life. To predict the lifetime and achieve the proper industrial part design against fatigue failure, the development of numerical simulation tool is crucial. Even though fatigue phenomena in composites have been intensively investigated, having a unique and reliable numerical simulation strategy remains a great challenge. The primary issue to address is to establish a robust constitutive modeling including non-linear behaviors, namely progressive damage mechanism and inelastic behavior of constituents at micro and meso scales. Nonetheless, the complexity increases when time-dependent or cyclic behavior is involved. These issues on material modeling and lifetime prediction for composite materials were addressed in this work. Implementation is performed in environmental solution for structural design (Virtual Performance Solution. Solver Notes Manual, ESI Group, Paris, France. 2013).
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Contributeur : Louise DESSAIVRE Connectez-vous pour contacter le contributeur
Soumis le : mercredi 22 juin 2022 - 18:57:15
Dernière modification le : vendredi 5 août 2022 - 11:21:51


  • HAL Id : hal-03702178, version 1



D. Vasiukov, A. Trameçon, Stéphane Panier, S. Mueller. Strategies and Numerical Implementation of Fatigue Life Models for Continuous Fiber Reinforced Polymers. Proceedings of the American Society for Composites - 31st Technical Conference, ASC 2016, Sep 2016, Williamsburg, United States. ⟨hal-03702178⟩



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