The paper presents a generalized mixed isotropic-kinematic hardening plastic model coupled with anisotropic damage for sheet metal forming. A nonlinear anisotropic kinematic hardening is developed. For the predication of limit strains at localized necking in stamping under complex strain history, the model and its associated damage criterion for localized necking are established and implemented into LS-DYNA3D by compiling it as a user subroutine. The finite element simulation of LS-DYNA3D based on the present model is carried out. The location of localized necking for sheet metal forming has been successfully identified.

Volume Subject Area:
Applied Mechanics
Keywords:
damage, isotropic hardening, anisotropic kinematic hardening, anisotropic plasticity, LS-DYNA3D, sheet metal forming
Topics:
Anisotropy, Damage, Hardening, Kinematics, Sheet metal work
This content is only available via PDF.
Copyright © 2002
 by ASME
You do not currently have access to this content.