Return mapping with a line search method for integrating stress of the distortional hardening law with differential softening

•Stress-update algorithms are provided for the anisotropic hardening model.•Comparative study of the N–R and the line search methods is performed.•The numerical instability problem is solved using the newly reformulated algorithm.•The accuracy and the speed of convergence are evaluated.•Significant...

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Published inComputers & structures Vol. 257; p. 106652
Main Authors Lee, Jinwoo, Bong, Hyuk Jong, Lee, Myoung-Gyu
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.12.2021
Elsevier BV
Subjects
Accuracy
Algorithms
Bauschinger effect
Control methods
Control stability
Convergence
Deep drawing
Finite element
Finite element method
Hardening
Line search
Mapping
Metal sheets
Newton–Raphson
Search algorithms
Search methods
Softening
Strain-path change
Stress-update algorithm
Yield strength
Line search
Strain-path change
Stress-update algorithm
Newton–Raphson
Finite element
Online AccessGet full text
ISSN0045-7949
1879-2243
DOI10.1016/j.compstruc.2021.106652

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Abstract •Stress-update algorithms are provided for the anisotropic hardening model.•Comparative study of the N–R and the line search methods is performed.•The numerical instability problem is solved using the newly reformulated algorithm.•The accuracy and the speed of convergence are evaluated.•Significant improvement in the accuracy and the convergent speed is attained. A stress-update algorithm for the recently proposed distortional anisotropic hardening law is developed based on the Newton–Raphson (N–R) algorithm and line search method. The investigated yield function enables the modeling of complex path-dependent flow stress evolutions, particularly the Bauschinger effect, latent hardening/softening, and differential permanent softening. Computationally, the continuous distortion of the yield function under strain-path changes leads to numerical instability, which is overcome by a newly reformulated step-size control method in the line search algorithm. The developed algorithms were implemented in ABAQUS using the closest-point projection method and validated for extra-deep drawing quality and DP780 steel sheets in terms of numerical accuracy and stability under reverse- and cross-loading path changes. The results show that the return-mapping algorithm significantly improves the accuracy and speed of convergence when the proposed line search method is incorporated. In contrast, the conventional N–R based algorithm fails to obtain converged stresses under abrupt loading path changes owing to the sharp corners introduced by the distorted yield surface.
AbstractList A stress-update algorithm for the recently proposed distortional anisotropic hardening law is developed based on the Newton–Raphson (N–R) algorithm and line search method. The investigated yield function enables the modeling of complex path-dependent flow stress evolutions, particularly the Bauschinger effect, latent hardening/softening, and differential permanent softening. Computationally, the continuous distortion of the yield function under strain-path changes leads to numerical instability, which is overcome by a newly reformulated step-size control method in the line search algorithm. The developed algorithms were implemented in ABAQUS using the closest-point projection method and validated for extra-deep drawing quality and DP780 steel sheets in terms of numerical accuracy and stability under reverse- and cross-loading path changes. The results show that the return-mapping algorithm significantly improves the accuracy and speed of convergence when the proposed line search method is incorporated. In contrast, the conventional N–R based algorithm fails to obtain converged stresses under abrupt loading path changes owing to the sharp corners introduced by the distorted yield surface.
•Stress-update algorithms are provided for the anisotropic hardening model.•Comparative study of the N–R and the line search methods is performed.•The numerical instability problem is solved using the newly reformulated algorithm.•The accuracy and the speed of convergence are evaluated.•Significant improvement in the accuracy and the convergent speed is attained. A stress-update algorithm for the recently proposed distortional anisotropic hardening law is developed based on the Newton–Raphson (N–R) algorithm and line search method. The investigated yield function enables the modeling of complex path-dependent flow stress evolutions, particularly the Bauschinger effect, latent hardening/softening, and differential permanent softening. Computationally, the continuous distortion of the yield function under strain-path changes leads to numerical instability, which is overcome by a newly reformulated step-size control method in the line search algorithm. The developed algorithms were implemented in ABAQUS using the closest-point projection method and validated for extra-deep drawing quality and DP780 steel sheets in terms of numerical accuracy and stability under reverse- and cross-loading path changes. The results show that the return-mapping algorithm significantly improves the accuracy and speed of convergence when the proposed line search method is incorporated. In contrast, the conventional N–R based algorithm fails to obtain converged stresses under abrupt loading path changes owing to the sharp corners introduced by the distorted yield surface.
ArticleNumber 106652
Author Lee, Myoung-Gyu
Lee, Jinwoo
Bong, Hyuk Jong
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  surname: Lee
  fullname: Lee, Jinwoo
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– sequence: 2
  givenname: Hyuk Jong
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  fullname: Bong, Hyuk Jong
  organization: Department of Materials Processing, Korea Institute of Materials Science, Changwon 51508, Republic of Korea
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  givenname: Myoung-Gyu
  surname: Lee
  fullname: Lee, Myoung-Gyu
  email: myounglee@snu.ac.kr
  organization: Department of Materials Science and Engineering and RIAM, Seoul National University, Seoul 08826, Republic of Korea
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Snippet •Stress-update algorithms are provided for the anisotropic hardening model.•Comparative study of the N–R and the line search methods is performed.•The...
A stress-update algorithm for the recently proposed distortional anisotropic hardening law is developed based on the Newton–Raphson (N–R) algorithm and line...
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StartPage 106652
SubjectTerms Accuracy
Algorithms
Bauschinger effect
Control methods
Control stability
Convergence
Deep drawing
Finite element
Finite element method
Hardening
Line search
Mapping
Metal sheets
Newton–Raphson
Search algorithms
Search methods
Softening
Strain-path change
Stress-update algorithm
Yield strength
Title Return mapping with a line search method for integrating stress of the distortional hardening law with differential softening
URI https://dx.doi.org/10.1016/j.compstruc.2021.106652
https://www.proquest.com/docview/2595657629
Volume 257
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