Computer simulation of grain growth in three dimensions by the phase field model with anisotropic grain-boundary mobilities

Y. Suwa; Y. Saito; H. Onodera

Computer simulation of grain growth in three dimensions by the phase field model with anisotropic grain-boundary mobilities

Y. Suwa^*, Y. Saito, H. Onodera

^*この研究の対応する著者

研究成果: Conference contribution

抄録

The kinetics and topology of grain growth in three dimensions were simulated using a phase-field model with anisotropic grain-boundary mobilities. In order to perform large scale calculations we applied both modifications of algorithms and parallel coding techniques to the Fan and Chen's phase-field algorithm. Kinetics of abnormal grain growth is presented. It is observed that the grains of a minor component which are at the beginning surrounded preferentially by boundaries of high mobility grow faster than the grains of a major component until the texture reverses completely. Additionally, topological results of grain structures, such as grain size distributions and grain face distributions, are discussed.

本文言語	English
ホスト出版物のタイトル	Materials Science Forum
ページ	2437-2442
ページ数	6
巻	539-543
版	PART 3
出版ステータス	Published - 2007
イベント	5th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2006 - Vancouver 継続期間: 2006 7月 4 → 2006 7月 8

出版物シリーズ

名前	Materials Science Forum
番号	PART 3
巻	539-543
ISSN（印刷版）	02555476

Other

Other	5th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2006
City	Vancouver
Period	06/7/4 → 06/7/8

ASJC Scopus subject areas

材料科学（全般）

他のファイルとリンク

引用スタイル

Suwa, Y, Saito, Y & Onodera, H 2007, Computer simulation of grain growth in three dimensions by the phase field model with anisotropic grain-boundary mobilities. in Materials Science Forum. PART 3 edn, vol. 539-543, Materials Science Forum, no. PART 3, vol. 539-543, pp. 2437-2442, 5th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2006, Vancouver, 06/7/4.

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abstract = "The kinetics and topology of grain growth in three dimensions were simulated using a phase-field model with anisotropic grain-boundary mobilities. In order to perform large scale calculations we applied both modifications of algorithms and parallel coding techniques to the Fan and Chen's phase-field algorithm. Kinetics of abnormal grain growth is presented. It is observed that the grains of a minor component which are at the beginning surrounded preferentially by boundaries of high mobility grow faster than the grains of a major component until the texture reverses completely. Additionally, topological results of grain structures, such as grain size distributions and grain face distributions, are discussed.",

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author = "Y. Suwa and Y. Saito and H. Onodera",

year = "2007",

language = "English",

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volume = "539-543",

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AU - Saito, Y.

AU - Onodera, H.

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N2 - The kinetics and topology of grain growth in three dimensions were simulated using a phase-field model with anisotropic grain-boundary mobilities. In order to perform large scale calculations we applied both modifications of algorithms and parallel coding techniques to the Fan and Chen's phase-field algorithm. Kinetics of abnormal grain growth is presented. It is observed that the grains of a minor component which are at the beginning surrounded preferentially by boundaries of high mobility grow faster than the grains of a major component until the texture reverses completely. Additionally, topological results of grain structures, such as grain size distributions and grain face distributions, are discussed.

AB - The kinetics and topology of grain growth in three dimensions were simulated using a phase-field model with anisotropic grain-boundary mobilities. In order to perform large scale calculations we applied both modifications of algorithms and parallel coding techniques to the Fan and Chen's phase-field algorithm. Kinetics of abnormal grain growth is presented. It is observed that the grains of a minor component which are at the beginning surrounded preferentially by boundaries of high mobility grow faster than the grains of a major component until the texture reverses completely. Additionally, topological results of grain structures, such as grain size distributions and grain face distributions, are discussed.

KW - Anisotropic grain-boundary mobility

KW - Computer simulation

KW - Grain growth

KW - Phase field

KW - Texture evolution

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M3 - Conference contribution

AN - SCOPUS:38349014929

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SN - 9780878494286

VL - 539-543

T3 - Materials Science Forum

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EP - 2442

BT - Materials Science Forum

T2 - 5th International Conference on Processing and Manufacturing of Advanced Materials - THERMEC'2006

Y2 - 4 July 2006 through 8 July 2006

ER -

Computer simulation of grain growth in three dimensions by the phase field model with anisotropic grain-boundary mobilities

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