A theoretical failure model is presented for the numerical prediction of the forming limit strains of automotive sheets. The model uses the Swift's diffuse necking and Hill's localized necking concepts in describing tearing-type sheet metal failures and a computational scheme is proposed in which the failure conditions are expressed in incremental forms. The Bauschinger effect is included properly in the deformation modeling using an additive backstress form of the nonlinear-kinematic hardening rule. The necking conditions and plasticity model are transformed into a set of algebraic equations that may be applied both for proportional and non-proportional strain-controlled loadings. An iterative approach is employed in the incremental soluti...
In automotive manufacturing, high strength materials, and aluminum alloys are widely used to address...
An accurate modeling of the sheet metal deformations including the springback is one of the key fact...
Prediction of failure in metal sheets is an important topic for the sheet forming community, as well...
A numerical technique is presented in order to assess formability conditions for tearing type sheet ...
An accurate prediction of sheet metal deformation including springback is one of the main issues in ...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
International audienceA number of parts and components involved in the automotive industry are made ...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
The goal of this research is to investigate, develop and validate analytical and numerical tools tha...
ABSTRACT: The automotive industry has increased significantly the use of advanced high strength stee...
The current report presents some results from a study on the prediction of necking failure in ductil...
In this work, three numerical necking criteria based on finite element (FE) simulations are proposed...
The automotive industry has increased significantly the use of advanced high strength steels (AHSS...
International audienceFor sheet metal forming, the determination of the onset of localized necking d...
International audienceSheet metal formability is usually limited by the occurrence of damages evolut...
In automotive manufacturing, high strength materials, and aluminum alloys are widely used to address...
An accurate modeling of the sheet metal deformations including the springback is one of the key fact...
Prediction of failure in metal sheets is an important topic for the sheet forming community, as well...
A numerical technique is presented in order to assess formability conditions for tearing type sheet ...
An accurate prediction of sheet metal deformation including springback is one of the main issues in ...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
International audienceA number of parts and components involved in the automotive industry are made ...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
The goal of this research is to investigate, develop and validate analytical and numerical tools tha...
ABSTRACT: The automotive industry has increased significantly the use of advanced high strength stee...
The current report presents some results from a study on the prediction of necking failure in ductil...
In this work, three numerical necking criteria based on finite element (FE) simulations are proposed...
The automotive industry has increased significantly the use of advanced high strength steels (AHSS...
International audienceFor sheet metal forming, the determination of the onset of localized necking d...
International audienceSheet metal formability is usually limited by the occurrence of damages evolut...
In automotive manufacturing, high strength materials, and aluminum alloys are widely used to address...
An accurate modeling of the sheet metal deformations including the springback is one of the key fact...
Prediction of failure in metal sheets is an important topic for the sheet forming community, as well...