Application of the partial Dirichlet–Neumann contact algorithm to simulate low-velocity impact events on composite structures
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hdl:2117/381114
Document typeArticle
Defense date2023
PublisherElsevier
Rights accessRestricted access - publisher's policy
(embargoed until 2025-01-06)
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is licensed under a Creative Commons license
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Attribution-NonCommercial-NoDerivs 4.0 International
Abstract
Impact simulations for damage resistance analysis are computationally intensive due to contact algorithms and advanced damage models. Both methods, which are the main ingredients in an impact event, require refined meshes at the contact zone to obtain accurate predictions of the contact force and damage onset and propagation through the material. This work presents the application of the partial Dirichlet–Neumann contact algorithm to simulate low-velocity impact problems on composite structures using High-Performance Computing. This algorithm is devised for parallel finite element codes running on supercomputers, and it is extended to explicit time integration schemes to solve impact problems including damage. The proposed framework is validated with a standard test for damage resistance on fiber-reinforced polymer matrix composites. Moreover, the parallel performance of the proposed algorithm has been evaluated in a mesh of 74M of elements running with 2400 processors
CitationGuillamet, G. [et al.]. Application of the partial Dirichlet–Neumann contact algorithm to simulate low-velocity impact events on composite structures. "Composites Part A: Applied Science and Manufacturing", 2023, vol. 167, 107424.
ISSN1359-835X
Publisher versionhttps://www.sciencedirect.com/science/article/pii/S1359835X22006054
Other identifiershttp://arxiv.org/abs/2301.05552
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