Rapid Finite Element Analysis of Bulk Metal Forming Process Based on Deformation Theory

In this paper damage propagation during metal forming process is investigated with the concept of continuum damage mechanics, An isotropic damage model based on the theory of materials of type N is adopted to describe the damage process of a ductile material with large elasto-viscoplastic deformatio

For the finite element analysis of metal forming processes, a method based on the equilibrium of nodal forces is proposed by assuming the deforming metal to be a slightly compressible rigid-plastic material. As an extension of the method, a formulation for finite deformation is derived on the basis

A computational method based on the membrane theory for the analysis of axisymmetric sheet metal forming processes such as punch stretching, deep drawing and hydroforming is presented. The elastic-plastic finite element approach is based on the flow rule associated with Hill's quadratic yield criter

The present paper is concerned with an ecient framework for a nonlinear ®nite element procedure for the numerical analysis of ®nite deformation elastic±plastic problems, based on a deformation theory of plasticity. Stress measures are related to Green's strains via a hyperelastic constitutive law ba