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A Multiphysics Thermoelastoviscoplastic Damage Internal State Variable Constitutive Model including Magnetism.

M Malki1, M F Horstemeyer2, H E Cho2

  • 1Aerospace and Automotive Department, International University of Rabat, Rabat 11103, Morocco.

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Summary
This summary is machine-generated.

This study introduces a new macroscale model coupling magnetism with thermal, elastic, plastic, and damage effects using Internal State Variable (ISV) theory. The model captures magnetic field forces and thermomechanical deformations, validated with iron, nickel, and cobalt data.

Keywords:
ferromagnetsmagnetismmagneto-mechanical effectmagnetostrictive strain

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Area of Science:

  • Multiphysics modeling
  • Continuum mechanics
  • Materials science

Background:

  • Existing constitutive models lack interdependence between magnetic and mechanical fields.
  • Previous models primarily focused on nanoscale structure-property relations for magnetic-induced deformations.

Purpose of the Study:

  • To present a fully coupled multiphysics macroscale Internal State Variable (ISV) model.
  • To integrate magnetic effects with thermal, elastic, plastic, and damage phenomena.
  • To incorporate lower length scale information into a macroscale framework.

Main Methods:

  • Developed a macroscale constitutive model using ISV theory.
  • Employed multiplicative decomposition of the deformation gradient, including a magnetization term.
  • Utilized the first and second laws of thermodynamics and the Clausius-Duhem inequality.
  • Implemented a kinetic framework with a coupled stress-strain relationship and flow rule.

Main Results:

  • The model captures magnetic field forces with isotropic and anisotropic magnetization terms.
  • It accounts for thermomechanical deformations by integrating magnetic effects.
  • ISV modeling framework coheres kinematic, thermodynamic, and kinetic relationships.
  • Demonstrated good correlations between model predictions and experimental data for iron, nickel, and cobalt.

Conclusions:

  • The presented ISV modeling framework offers a novel approach to couple magnetism with mechanical and thermal effects.
  • This macroscale model successfully integrates nanoscale and microscale physics.
  • The model provides a robust tool for understanding and predicting the behavior of magnetic materials under complex loading conditions.