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Auteur David J. Srolovitz

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A more accurate two-dimensional grain growth algorithm / Emanuel A. Lazar in Acta materialia, Vol. 58 N° 2 (Janvier 2010)

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[article]
in Acta materialia > Vol. 58 N° 2 (Janvier 2010) . - pp. 364-372
Titre : A more accurate two-dimensional grain growth algorithm
Type de document : texte imprimé
Auteurs : Emanuel A. Lazar, Auteur ; Robert D. MacPherson, Auteur ; David J. Srolovitz, Auteur
Article en page(s) : pp. 364-372
Note générale : Métallurgie
Langues : Anglais (eng)
Mots-clés : Grain growth Simulation von Neumann–Mullins theory
Index. décimale : 669 Métallurgie
Résumé : We describe a method for evolving two-dimensional polycrystalline microstructures via mean curvature flow that satisfies the von Neumann–Mullins relation with an absolute error O(Δt2).
This is a significant improvement over a different method currently used that has an absolute error O(Δt).
We describe the implementation of this method and show that while both approaches lead to indistinguishable evolution when the spatial discretization is very fine, the differences can be substantial when the discretization is left unrefined.
We demonstrate that this new front-tracking approach can be pushed to the limit in which the only mesh nodes are those coincident with triple junctions.
This reduces the method to a vertex model that is consistent with the exact kinetic law for grain growth.
We briefly discuss an extension of the method to higher spatial dimensions.
DEWEY : 669
ISSN : 1359-6454
En ligne : http://www.sciencedirect.com/science?_ob=PublicationURL&_tockey=%23TOC%235556%23 [...]

[article] A more accurate two-dimensional grain growth algorithm [texte imprimé] / Emanuel A. Lazar, Auteur ; Robert D. MacPherson, Auteur ; David J. Srolovitz, Auteur . - pp. 364-372.
Métallurgie
Langues : Anglais (eng)
in Acta materialia > Vol. 58 N° 2 (Janvier 2010) . - pp. 364-372
Mots-clés : Grain growth Simulation von Neumann–Mullins theory
Index. décimale : 669 Métallurgie
Résumé : We describe a method for evolving two-dimensional polycrystalline microstructures via mean curvature flow that satisfies the von Neumann–Mullins relation with an absolute error O(Δt2).
This is a significant improvement over a different method currently used that has an absolute error O(Δt).
We describe the implementation of this method and show that while both approaches lead to indistinguishable evolution when the spatial discretization is very fine, the differences can be substantial when the discretization is left unrefined.
We demonstrate that this new front-tracking approach can be pushed to the limit in which the only mesh nodes are those coincident with triple junctions.
This reduces the method to a vertex model that is consistent with the exact kinetic law for grain growth.
We briefly discuss an extension of the method to higher spatial dimensions.
DEWEY : 669
ISSN : 1359-6454
En ligne : http://www.sciencedirect.com/science?_ob=PublicationURL&_tockey=%23TOC%235556%23 [...]