## Computational material modeling: presented at 1994 International Mechanical Engineering Congress and Exposition, Chicago, Illinois, November 6-11, 1994 |

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### Contents

MECHANICS AND PHYSICS OF INELASTICITY | 1 |

MATERIAL INSTABILITIES AND SENSITIVITY ANALYSIS | 71 |

DUCTILITY FRACTURE AND DAMAGE | 145 |

Copyright | |

2 other sections not shown

### Common terms and phrases

Aifantis algorithm alloy analysis approximately ASME atoms average shear strain axial behavior bicrystals binder force boundary conditions Burgers vector calculations cluster coalescence compression Computational constant constitutive model continuum continuum mechanics creep rate curvature denotes diffusion displacement distribution Ductile dynamic elastic energy equations Eulerian evolution experimental Figure finite element finite element method flow stress formulation fracture function Galerkin Methods grain boundary hardening immobile dislocation densities increments initial Instabilities interface internal Lagrangian lattice linear loading Material Modeling matrix Mech Mechanics mesh method microstructure mobile dislocation Needleman nodal nodes nominal strains nonlinear normal stress numerical obtained oxide parameters Phys plane strain polycrystal predicted problems quench radius residual stress sensitivity coefficients shear band shear strain shear stress shell shown in Fig simple shear simulations slip plane slip systems Solids solution specimen strain gradient strain rate stress resultants structure surface temperature tensor texture theory thermal tube variables vector velocity void