A Generalized Finite Element Method for polycrystals with discontinuous grain boundaries

A. Simone; C. A. Duarte; E. Van der Giessen

doi:10.1002/nme.1658

A Generalized Finite Element Method for polycrystals with discontinuous grain boundaries

A. Simone^*, C. A. Duarte, E. Van der Giessen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

165 Citations (Scopus)

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Abstract

We present a Generalized Finite Element Method for the analysis of polycrystals with explicit treatment of grain boundaries. Grain boundaries and junctions, understood as loci of possible displacement discontinuity, are inserted into finite elements by exploiting the partition of unity property of finite element shape functions. Consequently, the finite element mesh does not need to conform to the polycrystal topology. The formulation is outlined and a numerical example is presented to demonstrate the potential and accuracy of the approach. The proposed methodology can also be used for branched and intersecting cohesive cracks, and comparisons are made to a related approach (Int. J. Numer Meth. Engng. 2000; 48:1741). Copyright (c) 2006 John Wiley & Sons, Ltd.

Original language	English
Pages (from-to)	1122-1145
Number of pages	24
Journal	International Journal for Numerical Methods in Engineering
Volume	67
Issue number	8
DOIs	https://doi.org/10.1002/nme.1658
Publication status	Published - 20-Aug-2006

Keywords

Generalized Finite Element Method
eXtended Finite Element Method
partition of unity
grain boundary sliding
polycrystals
CRACK-GROWTH
UNITY METHOD
ELASTIC-MODULI
PARTITION
CREEP
MICROSTRUCTURES
INCLUSIONS
SIMULATION
MECHANICS
MODEL

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Cite this

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title = "A Generalized Finite Element Method for polycrystals with discontinuous grain boundaries",

abstract = "We present a Generalized Finite Element Method for the analysis of polycrystals with explicit treatment of grain boundaries. Grain boundaries and junctions, understood as loci of possible displacement discontinuity, are inserted into finite elements by exploiting the partition of unity property of finite element shape functions. Consequently, the finite element mesh does not need to conform to the polycrystal topology. The formulation is outlined and a numerical example is presented to demonstrate the potential and accuracy of the approach. The proposed methodology can also be used for branched and intersecting cohesive cracks, and comparisons are made to a related approach (Int. J. Numer Meth. Engng. 2000; 48:1741). Copyright (c) 2006 John Wiley & Sons, Ltd.",

keywords = "Generalized Finite Element Method, eXtended Finite Element Method, partition of unity, grain boundary sliding, polycrystals, CRACK-GROWTH, UNITY METHOD, ELASTIC-MODULI, PARTITION, CREEP, MICROSTRUCTURES, INCLUSIONS, SIMULATION, MECHANICS, MODEL",

author = "A. Simone and Duarte, {C. A.} and {Van der Giessen}, E.",

year = "2006",

month = aug,

day = "20",

doi = "10.1002/nme.1658",

language = "English",

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journal = "International Journal for Numerical Methods in Engineering",

issn = "0029-5981",

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T1 - A Generalized Finite Element Method for polycrystals with discontinuous grain boundaries

AU - Simone, A.

AU - Duarte, C. A.

AU - Van der Giessen, E.

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Y1 - 2006/8/20

N2 - We present a Generalized Finite Element Method for the analysis of polycrystals with explicit treatment of grain boundaries. Grain boundaries and junctions, understood as loci of possible displacement discontinuity, are inserted into finite elements by exploiting the partition of unity property of finite element shape functions. Consequently, the finite element mesh does not need to conform to the polycrystal topology. The formulation is outlined and a numerical example is presented to demonstrate the potential and accuracy of the approach. The proposed methodology can also be used for branched and intersecting cohesive cracks, and comparisons are made to a related approach (Int. J. Numer Meth. Engng. 2000; 48:1741). Copyright (c) 2006 John Wiley & Sons, Ltd.

AB - We present a Generalized Finite Element Method for the analysis of polycrystals with explicit treatment of grain boundaries. Grain boundaries and junctions, understood as loci of possible displacement discontinuity, are inserted into finite elements by exploiting the partition of unity property of finite element shape functions. Consequently, the finite element mesh does not need to conform to the polycrystal topology. The formulation is outlined and a numerical example is presented to demonstrate the potential and accuracy of the approach. The proposed methodology can also be used for branched and intersecting cohesive cracks, and comparisons are made to a related approach (Int. J. Numer Meth. Engng. 2000; 48:1741). Copyright (c) 2006 John Wiley & Sons, Ltd.

KW - Generalized Finite Element Method

KW - eXtended Finite Element Method

KW - partition of unity

KW - grain boundary sliding

KW - polycrystals

KW - CRACK-GROWTH

KW - UNITY METHOD

KW - ELASTIC-MODULI

KW - PARTITION

KW - CREEP

KW - MICROSTRUCTURES

KW - INCLUSIONS

KW - SIMULATION

KW - MECHANICS

KW - MODEL

U2 - 10.1002/nme.1658

DO - 10.1002/nme.1658

M3 - Article

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SP - 1122

EP - 1145

JO - International Journal for Numerical Methods in Engineering

JF - International Journal for Numerical Methods in Engineering

IS - 8

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