A reduced simulation applied to viscoelastic fatigue of polymers using a time multi-scale approach based on Partition of Unity method

A reduced simulation applied to viscoelastic fatigue of polymers using a time multi-scale approach based on Partition of Unity method

The simulation of viscoelastic time-evolution problems described by a large number of internal variables and with a large spectrum of relaxation times requires high computational resources for their resolution. Furthermore, the internal variables evolution is described by a set of linear differentia...

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Bibliographische Detailangaben
Hauptverfasser: Rodriguez, Sebastian, Pasquale, Angelo, Mounayer, Jad, Canales, Diego, Beringhier, Marianne, Ghnatios, Chady, Ammar, Amine, Chinesta, Francisco
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Computational Engineering, Finance, and Science
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Zusammenfassung:The simulation of viscoelastic time-evolution problems described by a large number of internal variables and with a large spectrum of relaxation times requires high computational resources for their resolution. Furthermore, the internal variables evolution is described by a set of linear differential equations which involves many time scales. In this context, the use of a space-time PGD approximation is proposed here to boost their resolution, where the temporal functions are constructed following a multi-scale strategy along with the Partition of Unity method, in order to catch each dynamic efficiently. The feasibility and the robustness of the method are discussed in the case of a polymer in a non-equilibrium state under cyclic loading.
DOI:10.48550/arxiv.2408.05143