Low intrusive coupling of implicit and explicit time integration schemes for structural dynamics: Application to low energy impacts on composite structures

T. Chantrait; J. Rannou; A. Gravouil

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Low intrusive coupling of implicit and explicit time integration schemes for structural dynamics: Application to low energy impacts on composite structures

机译：Low intrusive coupling of implicit and explicit time integration schemes for structural dynamics: Application to low energy impacts on composite structures

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Simulation of low energy impacts on composite structures is a key feature in aeronautics. Unfortunately it involves very expensive numerical simulations: on the one side, the structures of interest have large dimensions and need fine volumic meshes (at least locally) in order to properly capture damage. On the other side, explicit simulations are commonly used to lead this kind of simulations (Lopes et al., 2009 1; Bouvet, 2009 2), which results in very small time steps to ensure the CFL condition (Courant et al., 1967 3). Implicit algorithms are actually more difficult to use in this situation because of the lack of smoothness of the solution that can lead to prohibitive number of time steps or even to non-convergence of Newton-like iterative processes. It is also observed that non-smooth phenomena are localized in space and time (near the impacted zone). It may therefore be advantageous to adopt a multiscale space/time approach by splitting the structure into several substructures with their own space/time discretization and their own integration scheme. The purpose of this decomposition is to take advantage of the specificities of both algorithms families: explicit scheme focuses on non-smooth areas while smoother parts (actually linear in this work) of the solutions are computed with larger time steps with an implicit scheme. We propose here an implementation of the Gravouil-Combescure method (GC) (Combescure and Gravouil, 2002 4) by the mean of low intrusive coupling between the implicit finite element analysis (FEA) code Zset/Zebulon (Z-set official website, 2013 5) and the explicit FEA code Europlexus (Europlexus official website, 2013 6). Simulations of low energy impacts on composite stiffened panels are presented. It is shown on this application that large time step ratios can be reached, thus saving computation time.

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来源
《Finite elements in analysis & design》 |2014年第9期|23-33|共11页
作者
T. Chantrait; J. Rannou; A. Gravouil;
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作者单位

Onera - The French Aerospace Lab, 29 avenue de la Division Leclerc, 92320 Chatillon cedex, France;

Universite de Lyon, CNRS Insa-Lyon, LaMCoS UMR5259, 20 Av Albert Einstein, FR69621 Villeurbanne cedex, France ,Institut Universitaire de France, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类应用数学;
关键词
Implicit dynamics; Explicit dynamics; Code coupling; GC method; Composite materials;

Low intrusive coupling of implicit and explicit time integration schemes for structural dynamics: Application to low energy impacts on composite structures

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