FINITE ELEMENT IMPLEMENTATION OF AN ORTHOTROPIC PLASTICITY MODEL FOR SHEET METAL FORMING SIMULATIONS
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Abstract
IN THIS WORK, THE IMPLEMENTATION PROCEDURES FOR THE USER FORTRAN SUBROUTINES OF THE COMMERCIAL FINITE ELEMENT CODE ABAQUS ARE DESCRIBED FOR THE PARTICULAR CASE OF LINEAR ELASTICITY AND A PLASTICITY MODEL PROPOSED WITHIN THE CONTEXT OF THE PLASTIC FLOW THEORY ALONG WITH THE ISOTROPIC WORK-HARDENING ASSUMPTION. THE GENERAL 3D CASE IS FIRSTLY PRESENTED AND DETAILED FOR THE IMPLICIT AND EXPLICIT INTEGRATION TECHNIQUES AVAILABLE IN THE ABAQUS CODE. AFTERWARDS, THE EQUATIONS FOR THE PARTICULAR PLANE-STRESS STATE ARE OUTLINED. THE CORRESPONDING PROCEDURES ARE APPLIED TO A PLANE-STRESS ORTHOTROPIC PLASTICITY MODEL. FINALLY, THE IMPLEMENTED USER SUBROUTINES ARE VALIDATED BY MEANS OF NUMERICAL SIMULATIONS OF SHEET METAL FORMING EXPERIMENTS, NAMELY, THE HEMISPHERICAL PUNCH STRETCHING AND CUP-DRAWING. THE COMPARISONS OF THE PREDICTED EITHER RADIAL STRAINS OR EARING FORMATION WITH THE MEASURED DATA OBTAINED FOR AN IF STEEL AND A TINPLATE FOOD-CAN SHOWS THE PERTINENT CONDITIONING OF THE USER SUBROUTINES AS WELL AS THE IMPORTANCE OF AN ACCURATE DESCRIPTION OF THE RANGE OF STRESSES STATES INVOLVED IN SHEET METAL FORMING PROCESSES.Downloads
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2007-06-01
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