Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model

Yuichi Kimura; Sho Kujirai; Ryo Ueta; Kazuyuki Shizawa

doi:10.4028/www.scientific.net/KEM.725.243

Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model

Yuichi Kimura, Sho Kujirai, Ryo Ueta, Kazuyuki Shizawa

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Magnesium alloy with Long-Period Stacking Ordered Structure (LPSO) and α-Mg (ordinary HCP structure) phase is expected for a new structural material due to its excellent mechanical properties. Its materials strengthening arises from the kink band formation in LPSO phase and the grain refinement of α-Mg phase in the vicinity of LPSO phase because of recrystallization. In the present study, a multiscale and multiphysics computation for the dynamic recrystallization in α-Mg phase is carried out by coupling the dislocation-based crystal plasticity model for HCP crystals proposed previously by the authors with the multi-phase-field model through dislocation density. In the present model, not only the environmental temperature-dependences of nucleation and nucleus growth but also a pinning effect of boundary migration of recrystallized grain boundary owing to existence and influence of additive elements are newly taken into account. Furthermore, grain size behaviors of recrystallized nuclei are investigated for various volume fractions of additive element and ratios of grain boundary segregation.

Original language	English
Title of host publication	Advances in Engineering Plasticity and its Application XIII
Editors	Fusahito Yoshida, Hiroshi Hamasaki
Publisher	Trans Tech Publications Ltd
Pages	243-248
Number of pages	6
ISBN (Print)	9783035710243
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.725.243
Publication status	Published - 2017
Event	13th Asia-Pacific Symposium on Engineering Plasticity and its Applications, AEPA 2016 - Hiroshima, Japan Duration: 2016 Dec 4 → 2016 Dec 8

Publication series

Name	Key Engineering Materials
Volume	725 KEM
ISSN (Print)	1013-9826
ISSN (Electronic)	1662-9795

Other

Other	13th Asia-Pacific Symposium on Engineering Plasticity and its Applications, AEPA 2016
Country/Territory	Japan
City	Hiroshima
Period	16/12/4 → 16/12/8

Keywords

Crystal Plasticity
Dislocation
Dynamic Recrystallization
Mg/LPSO Alloy
Phase-field

ASJC Scopus subject areas

Materials Science(all)
Mechanics of Materials
Mechanical Engineering

Access to Document

10.4028/www.scientific.net/KEM.725.243

Cite this

Kimura, Y., Kujirai, S., Ueta, R., & Shizawa, K. (2017). Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model. In F. Yoshida, & H. Hamasaki (Eds.), Advances in Engineering Plasticity and its Application XIII (pp. 243-248). (Key Engineering Materials; Vol. 725 KEM). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.725.243

Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model. / Kimura, Yuichi; Kujirai, Sho; Ueta, Ryo et al.
Advances in Engineering Plasticity and its Application XIII. ed. / Fusahito Yoshida; Hiroshi Hamasaki. Trans Tech Publications Ltd, 2017. p. 243-248 (Key Engineering Materials; Vol. 725 KEM).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Kimura, Y, Kujirai, S, Ueta, R & Shizawa, K 2017, Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model. in F Yoshida & H Hamasaki (eds), Advances in Engineering Plasticity and its Application XIII. Key Engineering Materials, vol. 725 KEM, Trans Tech Publications Ltd, pp. 243-248, 13th Asia-Pacific Symposium on Engineering Plasticity and its Applications, AEPA 2016, Hiroshima, Japan, 16/12/4. https://doi.org/10.4028/www.scientific.net/KEM.725.243

Kimura Y, Kujirai S, Ueta R, Shizawa K. Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model. In Yoshida F, Hamasaki H, editors, Advances in Engineering Plasticity and its Application XIII. Trans Tech Publications Ltd. 2017. p. 243-248. (Key Engineering Materials). doi: 10.4028/www.scientific.net/KEM.725.243

Kimura, Yuichi ; Kujirai, Sho ; Ueta, Ryo et al. / Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model. Advances in Engineering Plasticity and its Application XIII. editor / Fusahito Yoshida ; Hiroshi Hamasaki. Trans Tech Publications Ltd, 2017. pp. 243-248 (Key Engineering Materials).

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abstract = "Magnesium alloy with Long-Period Stacking Ordered Structure (LPSO) and α-Mg (ordinary HCP structure) phase is expected for a new structural material due to its excellent mechanical properties. Its materials strengthening arises from the kink band formation in LPSO phase and the grain refinement of α-Mg phase in the vicinity of LPSO phase because of recrystallization. In the present study, a multiscale and multiphysics computation for the dynamic recrystallization in α-Mg phase is carried out by coupling the dislocation-based crystal plasticity model for HCP crystals proposed previously by the authors with the multi-phase-field model through dislocation density. In the present model, not only the environmental temperature-dependences of nucleation and nucleus growth but also a pinning effect of boundary migration of recrystallized grain boundary owing to existence and influence of additive elements are newly taken into account. Furthermore, grain size behaviors of recrystallized nuclei are investigated for various volume fractions of additive element and ratios of grain boundary segregation.",

keywords = "Crystal Plasticity, Dislocation, Dynamic Recrystallization, Mg/LPSO Alloy, Phase-field",

author = "Yuichi Kimura and Sho Kujirai and Ryo Ueta and Kazuyuki Shizawa",

note = "Publisher Copyright: {\textcopyright} 2017 Trans Tech Publications, Switzerland. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; 13th Asia-Pacific Symposium on Engineering Plasticity and its Applications, AEPA 2016 ; Conference date: 04-12-2016 Through 08-12-2016",

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AU - Kimura, Yuichi

AU - Kujirai, Sho

AU - Ueta, Ryo

AU - Shizawa, Kazuyuki

PY - 2017

Y1 - 2017

N2 - Magnesium alloy with Long-Period Stacking Ordered Structure (LPSO) and α-Mg (ordinary HCP structure) phase is expected for a new structural material due to its excellent mechanical properties. Its materials strengthening arises from the kink band formation in LPSO phase and the grain refinement of α-Mg phase in the vicinity of LPSO phase because of recrystallization. In the present study, a multiscale and multiphysics computation for the dynamic recrystallization in α-Mg phase is carried out by coupling the dislocation-based crystal plasticity model for HCP crystals proposed previously by the authors with the multi-phase-field model through dislocation density. In the present model, not only the environmental temperature-dependences of nucleation and nucleus growth but also a pinning effect of boundary migration of recrystallized grain boundary owing to existence and influence of additive elements are newly taken into account. Furthermore, grain size behaviors of recrystallized nuclei are investigated for various volume fractions of additive element and ratios of grain boundary segregation.

AB - Magnesium alloy with Long-Period Stacking Ordered Structure (LPSO) and α-Mg (ordinary HCP structure) phase is expected for a new structural material due to its excellent mechanical properties. Its materials strengthening arises from the kink band formation in LPSO phase and the grain refinement of α-Mg phase in the vicinity of LPSO phase because of recrystallization. In the present study, a multiscale and multiphysics computation for the dynamic recrystallization in α-Mg phase is carried out by coupling the dislocation-based crystal plasticity model for HCP crystals proposed previously by the authors with the multi-phase-field model through dislocation density. In the present model, not only the environmental temperature-dependences of nucleation and nucleus growth but also a pinning effect of boundary migration of recrystallized grain boundary owing to existence and influence of additive elements are newly taken into account. Furthermore, grain size behaviors of recrystallized nuclei are investigated for various volume fractions of additive element and ratios of grain boundary segregation.

KW - Crystal Plasticity

KW - Dislocation

KW - Dynamic Recrystallization

KW - Mg/LPSO Alloy

KW - Phase-field

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Multiscale simulation of dynamic recrystallization for α-Mg phase in Mg/LPSO alloys based on multi-phase-field and dislocation-based crystal plasticity model

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