Two types of anisotropy have been introduced in the Marciniak model for the prediction of forming limit diagrams (FLDs) of sheet material. One type is due to crystallographic texture, the other is due to dislocation substructure. First, an anisotropic plastic potential is derived from a measured crystallographic texture using a multilevel model. The yield locus can be derived from this plastic potential. In addition to this, a model is used to simulate micro structure-induced work hardening and softening. This model can take effects of strain path changes into account. Both the texture-based and micro structure-based anisotropic model are then implemented in the Marciniak model and used for FLD calculation. Examples of application are given...
In this work we compare the predictions of the phenomenological anisotropic plane-stress plasticity ...
In this paper we present a Hierarchical Multi-Scale (HMS) model of coupled evolutions of crystallogr...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...
Strain-path changes strongly influence the forming limit:strains of sheet metals. The value of the l...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
An advanced sheet metal forming limit model is developed. Using the Marciniak-Kuczinsky analysis, th...
Consideration of plastic anisotropy is essential in accurate simulations of metal forming processes....
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
Finite element models for metal forming are used to design and optimise industrial forming processes...
Some metal sheet forming processes may induce an amount of plastic shear over the sheet thickness. T...
Forming limit curves have been simulated using a Marciniak-Kuczynski type initial defect theory cons...
Sheet metal formability is conventionally assessed in a two dimensional plot of principal strains or...
The study of the relationship between texture and the anisotropy of mechanical properties can lead t...
International audienceFormability of metal sheet has been widely studied for the past 40 years. This...
In the present work a study on the prediction of the Forming Limit Diagrams is developed, by using a...
In this work we compare the predictions of the phenomenological anisotropic plane-stress plasticity ...
In this paper we present a Hierarchical Multi-Scale (HMS) model of coupled evolutions of crystallogr...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...
Strain-path changes strongly influence the forming limit:strains of sheet metals. The value of the l...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
An advanced sheet metal forming limit model is developed. Using the Marciniak-Kuczinsky analysis, th...
Consideration of plastic anisotropy is essential in accurate simulations of metal forming processes....
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
Finite element models for metal forming are used to design and optimise industrial forming processes...
Some metal sheet forming processes may induce an amount of plastic shear over the sheet thickness. T...
Forming limit curves have been simulated using a Marciniak-Kuczynski type initial defect theory cons...
Sheet metal formability is conventionally assessed in a two dimensional plot of principal strains or...
The study of the relationship between texture and the anisotropy of mechanical properties can lead t...
International audienceFormability of metal sheet has been widely studied for the past 40 years. This...
In the present work a study on the prediction of the Forming Limit Diagrams is developed, by using a...
In this work we compare the predictions of the phenomenological anisotropic plane-stress plasticity ...
In this paper we present a Hierarchical Multi-Scale (HMS) model of coupled evolutions of crystallogr...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...