Add to ORKGThe strain localization phenomenon that may occur during sheet metal forming represents a major cause of defective parts produced in the industry. Several instability criteria have been developed in the literature to predict the occurrence of these instabilities. The proposed work aims to couple a Gurson-type model to the Rice’s localization criterion. The implementation of the modeling is achieved via a user subroutine (Umat) in Abaqus/std using a Runge-Kutta explicit integration scheme. Finally, we show the effectiveness of the proposed coupling for the prediction of the formability of stretched metal sheets
In this work, ductility limits of metallic materials, associated with the occurrence of strain loca...
Because the localization of deformation into narrow planar bands is often precursor to material fail...
Sheet metal forming is undoubtedly a manufacturing process that has massive applications in numerous...
The strain localization phenomenon that may occur during sheet metal forming represents a major caus...
In this work, we propose to couple the Gurson-Tvergaard-Needleman (GTN) model, known for ...
This work aims to study the strain localization in different sheet metal forming processesby the fin...
The aim of this work is to study the strain localization during the plastic deformation of sheets me...
Sheet metal forming processes generally involve large deformations together with complex loading seq...
In this work, an elastic–plastic model with Hill’48 anisotropic yield surface is coupled with the co...
International audienceIn this paper, four plastic instability criteria, which are based on the bifur...
ABSTRACT: The aim of this paper is to give an overview of the theoretical basis of the most signific...
International audienceIn modern sheet metal forming processes, such as hydroforming and single point...
In this work, ductility limits of metallic materials, associated with the occurrence of strain local...
The current paper deals with the prediction of strain localization in metal sheets. Especially the e...
Because prevention of forming defects has become one of the major industrial challenges, various exp...
In this work, ductility limits of metallic materials, associated with the occurrence of strain loca...
Because the localization of deformation into narrow planar bands is often precursor to material fail...
Sheet metal forming is undoubtedly a manufacturing process that has massive applications in numerous...
The strain localization phenomenon that may occur during sheet metal forming represents a major caus...
In this work, we propose to couple the Gurson-Tvergaard-Needleman (GTN) model, known for ...
This work aims to study the strain localization in different sheet metal forming processesby the fin...
The aim of this work is to study the strain localization during the plastic deformation of sheets me...
Sheet metal forming processes generally involve large deformations together with complex loading seq...
In this work, an elastic–plastic model with Hill’48 anisotropic yield surface is coupled with the co...
International audienceIn this paper, four plastic instability criteria, which are based on the bifur...
ABSTRACT: The aim of this paper is to give an overview of the theoretical basis of the most signific...
International audienceIn modern sheet metal forming processes, such as hydroforming and single point...
In this work, ductility limits of metallic materials, associated with the occurrence of strain local...
The current paper deals with the prediction of strain localization in metal sheets. Especially the e...
Because prevention of forming defects has become one of the major industrial challenges, various exp...
In this work, ductility limits of metallic materials, associated with the occurrence of strain loca...
Because the localization of deformation into narrow planar bands is often precursor to material fail...
Sheet metal forming is undoubtedly a manufacturing process that has massive applications in numerous...