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Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Standard

Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling. / Schneider, Konrad; Klusemann, Benjamin; Bargmann, Swantje.
Proceedings of the NSCM28. Hrsg. / Arkadi Berezovski; Kert Tamm; Tanel Peets. Tallinn University of Technology, 2015. S. 153-156.

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Harvard

Schneider, K, Klusemann, B & Bargmann, S 2015, Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling. in A Berezovski, K Tamm & T Peets (Hrsg.), Proceedings of the NSCM28. Tallinn University of Technology, S. 153-156, Nordic Seminar on Computational Mechanics - NSCM 2015, Tallinn, Estland, 22.10.15. <http://www.ioc.ee/nscm28/files/Proceedings_of_NSCM28.pdf>

APA

Schneider, K., Klusemann, B., & Bargmann, S. (2015). Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling. In A. Berezovski, K. Tamm, & T. Peets (Hrsg.), Proceedings of the NSCM28 (S. 153-156). Tallinn University of Technology. http://www.ioc.ee/nscm28/files/Proceedings_of_NSCM28.pdf

Vancouver

Schneider K, Klusemann B, Bargmann S. Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling. in Berezovski A, Tamm K, Peets T, Hrsg., Proceedings of the NSCM28. Tallinn University of Technology. 2015. S. 153-156

Bibtex

@inbook{3fa5b533d3c244728856ddfefb1018cc,
title = "Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling",
abstract = "In this contribution we introduce an efficient method to automatically generate and mesh periodic three-dimensional-microstructures that act as representativevolume elements (RVEs) for describing matrix-inclusion composites. Firstly the creation of random microstructures featuring cubic RVEs with non-overlappinginclusions and a periodic topology is emphasized. Thereafter a hierarchical meshing procedure complying with the periodicity constrained follows. Maintaining a periodic mesh topology allows direct application of the favorable periodic boundary conditions. Special emphasis is paid on the discretization procedure to maintain a high quality mesh with as few elements as possible, thus, manageable for further numerical simulations.",
keywords = "Engineering",
author = "Konrad Schneider and Benjamin Klusemann and Swantje Bargmann",
year = "2015",
language = "English",
isbn = "978-9949-430-95-6",
pages = "153--156",
editor = "Arkadi Berezovski and Kert Tamm and Tanel Peets",
booktitle = "Proceedings of the NSCM28",
publisher = "Tallinn University of Technology",
address = "Estonia",
note = "28th Nordic Seminar on Computational Mechanics ; Conference date: 22-10-2015 Through 23-10-2015",
url = "https://www.ioc.ee/nscm28/",

}

RIS

TY - CHAP

T1 - Automatic generation of periodic representative volume elements for matrix-inclusion composites and their efficiency in multiscaling

AU - Schneider, Konrad

AU - Klusemann, Benjamin

AU - Bargmann, Swantje

N1 - Conference code: 28

PY - 2015

Y1 - 2015

N2 - In this contribution we introduce an efficient method to automatically generate and mesh periodic three-dimensional-microstructures that act as representativevolume elements (RVEs) for describing matrix-inclusion composites. Firstly the creation of random microstructures featuring cubic RVEs with non-overlappinginclusions and a periodic topology is emphasized. Thereafter a hierarchical meshing procedure complying with the periodicity constrained follows. Maintaining a periodic mesh topology allows direct application of the favorable periodic boundary conditions. Special emphasis is paid on the discretization procedure to maintain a high quality mesh with as few elements as possible, thus, manageable for further numerical simulations.

AB - In this contribution we introduce an efficient method to automatically generate and mesh periodic three-dimensional-microstructures that act as representativevolume elements (RVEs) for describing matrix-inclusion composites. Firstly the creation of random microstructures featuring cubic RVEs with non-overlappinginclusions and a periodic topology is emphasized. Thereafter a hierarchical meshing procedure complying with the periodicity constrained follows. Maintaining a periodic mesh topology allows direct application of the favorable periodic boundary conditions. Special emphasis is paid on the discretization procedure to maintain a high quality mesh with as few elements as possible, thus, manageable for further numerical simulations.

KW - Engineering

M3 - Article in conference proceedings

SN - 978-9949-430-95-6

SP - 153

EP - 156

BT - Proceedings of the NSCM28

A2 - Berezovski, Arkadi

A2 - Tamm, Kert

A2 - Peets, Tanel

PB - Tallinn University of Technology

T2 - 28th Nordic Seminar on Computational Mechanics

Y2 - 22 October 2015 through 23 October 2015

ER -

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