Modelling recrystallization textures driven by intragranular fluctuations implemented in the viscoplastic self-consistent formulation

This paper presents a recrystallization model driven by intragranular orientation gradients and strain energy fields calculated by means of the viscoplastic self-consistent (VPSC) formulation. The VPSC model is extended for calculation of the coupling between intragranular stress fluctuations with c...

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Published in:Acta materialia Vol. 164; pp. 530 - 546
Main Authors: Zecevic, Miroslav, Lebensohn, Ricardo A., McCabe, Rodney J., Knezevic, Marko
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2019
Subjects:
Crystal plasticity
Microstructures
Numerical algorithms
Recrystallization
Texture
Crystal plasticity
Microstructures
Texture
Recrystallization
Numerical algorithms
ISSN:1359-6454, 1873-2453
Online Access:Get full text
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Abstract This paper presents a recrystallization model driven by intragranular orientation gradients and strain energy fields calculated by means of the viscoplastic self-consistent (VPSC) formulation. The VPSC model is extended for calculation of the coupling between intragranular stress fluctuations with corresponding second moments of lattice spin and misorientation fields in the grains. Access to these quantities allows modelling of transition bands and nucleation kinetics. In the proposed recrystallization model, grain growth is assumed to be proportional to the difference between the stored energy of each grain and that of the effective medium. Recrystallization textures for several cubic metals are simulated, showing good agreement with corresponding experiments. The model reveals the importance of considering appropriate, microstructurally-based and orientation-dependent recrystallization nucleation mechanisms. The recrystallization texture of heavily rolled copper with a strong cube texture component is found to be a consequence of nucleation at transition bands, which is also the cause of the recrystallization textures in compressed iron and drawn copper wire. In contrast, the recrystallization texture of rolled interstitial-free steel is found to be caused by grain boundary nucleation occurring in grains with the highest strain energy. [Display omitted]
AbstractList This paper presents a recrystallization model driven by intragranular orientation gradients and strain energy fields calculated by means of the viscoplastic self-consistent (VPSC) formulation. The VPSC model is extended for calculation of the coupling between intragranular stress fluctuations with corresponding second moments of lattice spin and misorientation fields in the grains. Access to these quantities allows modelling of transition bands and nucleation kinetics. In the proposed recrystallization model, grain growth is assumed to be proportional to the difference between the stored energy of each grain and that of the effective medium. Recrystallization textures for several cubic metals are simulated, showing good agreement with corresponding experiments. The model reveals the importance of considering appropriate, microstructurally-based and orientation-dependent recrystallization nucleation mechanisms. The recrystallization texture of heavily rolled copper with a strong cube texture component is found to be a consequence of nucleation at transition bands, which is also the cause of the recrystallization textures in compressed iron and drawn copper wire. In contrast, the recrystallization texture of rolled interstitial-free steel is found to be caused by grain boundary nucleation occurring in grains with the highest strain energy. [Display omitted]
Author Knezevic, Marko
Zecevic, Miroslav
McCabe, Rodney J.
Lebensohn, Ricardo A.
Author_xml – sequence: 1
  givenname: Miroslav
  surname: Zecevic
  fullname: Zecevic, Miroslav
  organization: Department of Mechanical Engineering, University of New Hampshire, Durham, NH, 03824, USA
– sequence: 2
  givenname: Ricardo A.
  orcidid: 0000-0002-3152-9105
  surname: Lebensohn
  fullname: Lebensohn, Ricardo A.
  organization: Theoretical Division, Los Alamos National Laboratory, Los Alamos, NM, 87544, USA
– sequence: 3
  givenname: Rodney J.
  surname: McCabe
  fullname: McCabe, Rodney J.
  organization: Materials Science and Technology Division, Los Alamos National Laboratory, Los Alamos, NM, 87544, USA
– sequence: 4
  givenname: Marko
  surname: Knezevic
  fullname: Knezevic, Marko
  email: marko.knezevic@unh.edu
  organization: Department of Mechanical Engineering, University of New Hampshire, Durham, NH, 03824, USA
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Keywords Crystal plasticity
Microstructures
Texture
Recrystallization
Numerical algorithms
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Snippet This paper presents a recrystallization model driven by intragranular orientation gradients and strain energy fields calculated by means of the viscoplastic...
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SubjectTerms Crystal plasticity
Microstructures
Numerical algorithms
Recrystallization
Texture
Title Modelling recrystallization textures driven by intragranular fluctuations implemented in the viscoplastic self-consistent formulation
URI https://dx.doi.org/10.1016/j.actamat.2018.11.002
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