A Machine Learning-based surrogate modeling framework for predicting the history-dependent deformation of dual phase microstructures-Reference-Cited by-同舟云学术

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A Machine Learning-based surrogate modeling framework for predicting the history-dependent deformation of dual phase microstructures

Published:2021-12 Issue: Volume:29 Page:102914
ISSN:2352-4928
Container-title:Materials Today Communications
language:en
Short-container-title:Materials Today Communications

Author:

Khandelwal Sarthak,Basu Soudip^ORCID,Patra Anirban^ORCID

Funder

Industrial Research and Consultancy Centre

Indian Institute of Technology Bombay

Publisher

Elsevier BV

Subject

Materials Chemistry,Mechanics of Materials,General Materials Science

Reference70 articles.

1. Anisotropic modeling of structural components using embedded crystal plasticity constructive laws within finite elements;Knezevic;Int. J. Mech. Sci.,2016

2. Finite element simulation of gap opening between cladding tube and spacer grid in a fuel rod assembly using crystallographic models of irradiation growth and creep;Patra;Nucl. Eng. Des.,2017

3. Overview of constitutive laws, kinematics, homogenization and multiscale methods in crystal plasticity finite-element modeling: Theory, experiments, applications;Roters;Acta Mater.,2010

4. The role of crystallographic orientations on heterogeneous deformation in a zirconium alloy: A combined experimental and modeling study;Thool;Int. J. Plast.,2020

5. Anisotropy, size, and aspect ratio effects on micropillar compression of AlSiC nanolaminate composites;Mayer;Acta Mater.,2016

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