A computational library for multiscale modeling of material failure

Talebi, H.; Silani, M.; Bordas, Stéphane; Kerfriden, P.; Rabczuk, T.

doi:10.1007/s00466-013-0948-2

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Article (Scientific journals)

A computational library for multiscale modeling of material failure

Talebi, H.; Silani, M.; Bordas, Stéphane et al.

2013 • In Computational Mechanics, p. 1-25

Peer reviewed

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https://hdl.handle.net/10993/16054

DOI
10.1007/s00466-013-0948-2

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xfem-lib.pdf

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Annexes

Presentation_H-Talebi.pdf

(39.4 MB)

Presentation of PERMIX Open-source Molecular Dynamics Continuum Code Multi-scale Fracture Code

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Movie02.wmv

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Movie multi-scale fracture

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Movie01-1.wmv

(4.37 MB)

Movie multi-scale fracture MD-continuum

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Movie01-2.wmv

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Movie multi-scale fracture MD-continuum

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Movie03.wmv

(42.64 MB)

Movie multi-scale fracture MD-continuum

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Movie04.wmv

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Movie multi-scale fracture MD-continuum

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Keywords :

Crack; Fracture; Molecular dynamics; PERMIX; XFEM

Abstract :

[en] We present an open-source software framework called PERMIX for multiscale modeling and simulation of fracture in solids. The framework is an object oriented open-source effort written primarily in Fortran 2003 standard with Fortran/C++ interfaces to a number of other libraries such as LAMMPS, ABAQUS, LS-DYNA and GMSH. Fracture on the continuum level is modeled by the extended finite element method (XFEM). Using several novel or state of the art methods, the piece software handles semi-concurrent multiscale methods as well as concurrent multiscale methods for fracture, coupling two continuum domains or atomistic domains to continuum domains, respectively. The efficiency of our open-source software is shown through several simulations including a 3D crack modeling in clay nanocomposites, a semi-concurrent FE-FE coupling, a 3D Arlequin multiscale example and an MD-XFEM coupling for dynamic crack propagation. © 2013 Springer-Verlag Berlin Heidelberg.

Disciplines :

Engineering, computing & technology: Multidisciplinary, general & others

Author, co-author :

Talebi, H.; Institute of Structural Mechanics, Bauhaus-Universitaet Weimar, Marienstr. 15, Weimar, 99423, Germany

Silani, M.; Department of Mechanical Engineering, Isfahan University of Technology, Isfahan, 84156-83111, Iran

Bordas, Stéphane ; University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Engineering Research Unit

Kerfriden, P.; Institute of Mechanics and Advanced Materials, Theoretical and Computational Mechanics, Cardiff University, Cardiff, CF 24 3AA, United Kingdom

Rabczuk, T.; Institute of Structural Mechanics, Bauhaus-Universitaet Weimar, Marienstr. 15, Weimar, 99423, Germany, School of Civil, Environmental and Architectural Engineering, Korea University, Seoul, South Korea

Language :

English

Title :

A computational library for multiscale modeling of material failure

Publication date :

2013

Journal title :

Computational Mechanics

ISSN :

0178-7675

Pages :

1-25

Peer reviewed :

Peer reviewed

Focus Area :

Computational Sciences

European Projects :

FP7 - 289361 - INSIST - Integrating Numerical Simulation and Geometric Design Technology

Funders :

CE - Commission Européenne [BE]

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since 17 March 2014

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