Dieses Dokument steht unter einer CreativeCommons Lizenz by-nc-nd/4.0
Verlagslink DOI: 10.1016/j.pmatsci.2018.02.003
Titel: Generation of 3D representative volume elements for heterogeneous materials: a review
Sprache: English
Autor/Autorin: Bargmann, Swantje 
Klusemann, Benjamin 
Markmann, Jürgen 
Schnabel, Jan Eike 
Schneider, Konrad 
Soyarslan, Celal 
Wilmers, Jana 
Schlagwörter: Representative volume element;RVE generation;Microstructure;Polycrystal;Matrix-inclusion composite;nanocomposite;Metamaterial;Porous media;Lamellar;Fiber reinforced composite;Nanoporous metal;Open cell structure;Closed cell structure;Aggregate;Agglomerate
Erscheinungsdatum: 2018
Verlag: Elsevier
Quellenangabe: Progress in Materials Science (96): 322-384 (2018)
Zeitschrift oder Schriftenreihe: Progress in Materials Science 
Zusammenfassung (englisch): This work reviews state of the art representative volume element (RVE) generation techniques for heterogeneous materials. To this end, we present a systematic classification considering a wide range of heterogeneous materials of engineering interest. Here, we divide heterogeneous solids into porous and non-porous media, with 0 < void volume fraction < 1 and void volume fraction = 0, respectively. Further subdivisions are realized based on various morphological features. The corresponding generation methods are classified into three categories: (i) experimental methods targeting reconstruction through experimental characterization of the microstructure, (ii) physics based methods targeting simulation of the physical process(es) responsible for the microstructure formation and evolution, and (iii) geometrical methods concentrating solely on mimicking the morphology (ignoring the physical basis of the microstructure formation process). These comprise of various mathematical tools such as digital image correlation, tessellation, random field generation, and differential equation solvers. For completeness, relevant up-to-date software tools, used at various stages of RVE generation – either commercial or open-source – are summarized. Considered methods are reviewed based on their efficiency and predictive performance with respect to geometrical and topological properties of the microstructures
URI: http://tubdok.tub.tuhh.de/handle/11420/1737
DOI: 10.15480/882.1734
ISSN: 1873-2208
Institut: Institute of Materials Physics and Technology, Hamburg University of Technology 
Institute of Continuum Mechanics and Material Mechanics, Hamburg University of Technology 
Dokumenttyp: (wissenschaftlicher) Artikel
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