2. Macroscale Continuum Internal State Variable (ISV) Plasticity–Damage Theory and Multistage Fatigue (MSF)

  1. Mark F. Horstemeyer

Published Online: 11 JUN 2012

DOI: 10.1002/9781118342664.ch2

Integrated Computational Materials Engineering (ICME) for Metals: Using Multiscale Modeling to Invigorate Engineering Design with Science

Integrated Computational Materials Engineering (ICME) for Metals: Using Multiscale Modeling to Invigorate Engineering Design with Science

How to Cite

Horstemeyer, M. F. (2012) Macroscale Continuum Internal State Variable (ISV) Plasticity–Damage Theory and Multistage Fatigue (MSF), in Integrated Computational Materials Engineering (ICME) for Metals: Using Multiscale Modeling to Invigorate Engineering Design with Science, John Wiley & Sons, Inc., Hoboken, NJ, USA. doi: 10.1002/9781118342664.ch2

Publication History

  1. Published Online: 11 JUN 2012
  2. Published Print: 13 JUL 2012

ISBN Information

Print ISBN: 9781118022528

Online ISBN: 9781118342664

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Keywords:

  • macroscale continuum ISV plasticity–damage theory, and MSF;
  • deformation and strain kinematics;
  • multiscale modeling, constitutive equation, inner “value” system;
  • multiscale bridging, thermodynamically constrained ISVs, top-down approach;
  • plasticity-damage and fatigue models, bridges in downscaling

Summary

This chapter contains sections titled:

  • Introduction

  • Stress

  • Kinematics of Deformation and Strain

  • Continuum Theory Constitutive Equations

  • Multistage Fatigue (MSF) Modeling

  • Bridging Strategies for the Macroscale and the Mesoscale

  • Experimental Exploration, Calibration, and Validation at the Macroscale

  • Summary

  • References