Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Prashant Mital
  • Thomas Wick
  • Mary F. Wheeler
  • Gergina Pencheva

Externe Organisationen

  • University of Texas at Austin
  • Austrian Academy of Sciences
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksNumerical Mathematics and Advanced Applications ENUMATH 2015
Herausgeber/-innenMurat Manguoglu, Bulent Karasozen, Munevver Tezer-Sezgin, Omur Ugur, Munevver Tezer-Sezgin, Murat Manguoglu, Omur Ugur, Serdar Goktepe, Omur Ugur, Munevver Tezer-Sezgin, Murat Manguoglu, Bulent Karasozen, Bulent Karasozen, Serdar Goktepe, Serdar Goktepe
Herausgeber (Verlag)Springer Verlag
Seiten195-203
Seitenumfang9
ISBN (Print)9783319399270, 9783319399270, 9783319399270
PublikationsstatusVeröffentlicht - 2016
Extern publiziertJa
VeranstaltungEuropean Conference on Numerical Mathematics and Advanced Applications, ENUMATH 2015 - Ankara, Türkei
Dauer: 14 Sept. 201518 Sept. 2015

Publikationsreihe

NameLecture Notes in Computational Science and Engineering
Band112
ISSN (Print)1439-7358

Abstract

In this work, we introduce discontinuous Galerkin and enriched Galerkin formulations for the spatial discretization of phase-field fracture propagation. The nonlinear coupled system is formulated in terms of the Euler-Lagrange equations, which are subject to a crack irreversibility condition. The resulting variational inequality is solved in a quasi-monolithic way in which the irreversibility condition is incorporated with the help of an augmented Lagrangian technique. The relaxed nonlinear system is treated with Newton’s method. Numerical results complete the present study.

ASJC Scopus Sachgebiete

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Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity. / Mital, Prashant; Wick, Thomas; Wheeler, Mary F. et al.
Numerical Mathematics and Advanced Applications ENUMATH 2015. Hrsg. / Murat Manguoglu; Bulent Karasozen; Munevver Tezer-Sezgin; Omur Ugur; Munevver Tezer-Sezgin; Murat Manguoglu; Omur Ugur; Serdar Goktepe; Omur Ugur; Munevver Tezer-Sezgin; Murat Manguoglu; Bulent Karasozen; Bulent Karasozen; Serdar Goktepe; Serdar Goktepe. Springer Verlag, 2016. S. 195-203 (Lecture Notes in Computational Science and Engineering; Band 112).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Mital, P, Wick, T, Wheeler, MF & Pencheva, G 2016, Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity. in M Manguoglu, B Karasozen, M Tezer-Sezgin, O Ugur, M Tezer-Sezgin, M Manguoglu, O Ugur, S Goktepe, O Ugur, M Tezer-Sezgin, M Manguoglu, B Karasozen, B Karasozen, S Goktepe & S Goktepe (Hrsg.), Numerical Mathematics and Advanced Applications ENUMATH 2015. Lecture Notes in Computational Science and Engineering, Bd. 112, Springer Verlag, S. 195-203, European Conference on Numerical Mathematics and Advanced Applications, ENUMATH 2015, Ankara, Türkei, 14 Sept. 2015. https://doi.org/10.1007/978-3-319-39929-4_20
Mital, P., Wick, T., Wheeler, M. F., & Pencheva, G. (2016). Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity. In M. Manguoglu, B. Karasozen, M. Tezer-Sezgin, O. Ugur, M. Tezer-Sezgin, M. Manguoglu, O. Ugur, S. Goktepe, O. Ugur, M. Tezer-Sezgin, M. Manguoglu, B. Karasozen, B. Karasozen, S. Goktepe, & S. Goktepe (Hrsg.), Numerical Mathematics and Advanced Applications ENUMATH 2015 (S. 195-203). (Lecture Notes in Computational Science and Engineering; Band 112). Springer Verlag. https://doi.org/10.1007/978-3-319-39929-4_20
Mital P, Wick T, Wheeler MF, Pencheva G. Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity. in Manguoglu M, Karasozen B, Tezer-Sezgin M, Ugur O, Tezer-Sezgin M, Manguoglu M, Ugur O, Goktepe S, Ugur O, Tezer-Sezgin M, Manguoglu M, Karasozen B, Karasozen B, Goktepe S, Goktepe S, Hrsg., Numerical Mathematics and Advanced Applications ENUMATH 2015. Springer Verlag. 2016. S. 195-203. (Lecture Notes in Computational Science and Engineering). doi: 10.1007/978-3-319-39929-4_20
Mital, Prashant ; Wick, Thomas ; Wheeler, Mary F. et al. / Discontinuous and enriched Galerkin methods for phase-field fracture propagation in elasticity. Numerical Mathematics and Advanced Applications ENUMATH 2015. Hrsg. / Murat Manguoglu ; Bulent Karasozen ; Munevver Tezer-Sezgin ; Omur Ugur ; Munevver Tezer-Sezgin ; Murat Manguoglu ; Omur Ugur ; Serdar Goktepe ; Omur Ugur ; Munevver Tezer-Sezgin ; Murat Manguoglu ; Bulent Karasozen ; Bulent Karasozen ; Serdar Goktepe ; Serdar Goktepe. Springer Verlag, 2016. S. 195-203 (Lecture Notes in Computational Science and Engineering).
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abstract = "In this work, we introduce discontinuous Galerkin and enriched Galerkin formulations for the spatial discretization of phase-field fracture propagation. The nonlinear coupled system is formulated in terms of the Euler-Lagrange equations, which are subject to a crack irreversibility condition. The resulting variational inequality is solved in a quasi-monolithic way in which the irreversibility condition is incorporated with the help of an augmented Lagrangian technique. The relaxed nonlinear system is treated with Newton{\textquoteright}s method. Numerical results complete the present study.",
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AU - Mital, Prashant

AU - Wick, Thomas

AU - Wheeler, Mary F.

AU - Pencheva, Gergina

N1 - Publisher Copyright: © Springer International Publishing Switzerland 2016. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.

PY - 2016

Y1 - 2016

N2 - In this work, we introduce discontinuous Galerkin and enriched Galerkin formulations for the spatial discretization of phase-field fracture propagation. The nonlinear coupled system is formulated in terms of the Euler-Lagrange equations, which are subject to a crack irreversibility condition. The resulting variational inequality is solved in a quasi-monolithic way in which the irreversibility condition is incorporated with the help of an augmented Lagrangian technique. The relaxed nonlinear system is treated with Newton’s method. Numerical results complete the present study.

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