Add to ORKGAnisotropic slip-line fields have been developed in the flanges of drawn cups and used to predict the location of the ears and hollows at the onset of the drawing operation. The analysis is based on Hill's plane-strain theory of anisotropic metals. The material anisotropy is characterized by a lumped anisotropic parameter c. Deepdrawing tests were performed on circular blanks cut from anisotropic sheet and the actual deformation mode of particles in the flange was compared with the theoretical predictions. The correlation was found to be favourable.
A multi-scale model that allows to predict the evolution of the crystallographic texture and the cor...
Yield stresses and r-values were measured as a function of inclination with respect to the rolling d...
In this paper the sheet forming process of cylindrical drawpieces was sim-ulated based on the finite...
The earing behaviour during a cup drawing test was studied for a wide range of low carbon steel shee...
In this work, the recently proposed anisotropic yield function, Yld2004-18p [Barlat, F., Aretz, H., ...
Anisotropy is closely related to the formability of sheet metal and should be considered carefully f...
Metallic alloy sheets develop crystallographic texture and plastic anisotropy during rolling. Deep d...
Sheet metals generally exhibit a considerable anisotropy due to their crystallographic structure and...
In deep drawing process planar anisotropy is found to be a major problem. A high planar anisotropy c...
Commercial canmaking processes include drawing, redrawing and several ironing operations. It is expe...
Consideration of plastic anisotropy is essential in accurate simulations of metal forming processes....
Prediction of more than four ears in a cup drawing process can be successfully achieved by consideri...
During deep draw cupping, the phenomenon known as earing may occur as the cup wall is formed, result...
International audienceThis paper deals with the identification and modelling of the deformation beha...
Abstract. The paper deals with constitutive modelling of highly anisotropic sheet metals. It present...
A multi-scale model that allows to predict the evolution of the crystallographic texture and the cor...
Yield stresses and r-values were measured as a function of inclination with respect to the rolling d...
In this paper the sheet forming process of cylindrical drawpieces was sim-ulated based on the finite...
The earing behaviour during a cup drawing test was studied for a wide range of low carbon steel shee...
In this work, the recently proposed anisotropic yield function, Yld2004-18p [Barlat, F., Aretz, H., ...
Anisotropy is closely related to the formability of sheet metal and should be considered carefully f...
Metallic alloy sheets develop crystallographic texture and plastic anisotropy during rolling. Deep d...
Sheet metals generally exhibit a considerable anisotropy due to their crystallographic structure and...
In deep drawing process planar anisotropy is found to be a major problem. A high planar anisotropy c...
Commercial canmaking processes include drawing, redrawing and several ironing operations. It is expe...
Consideration of plastic anisotropy is essential in accurate simulations of metal forming processes....
Prediction of more than four ears in a cup drawing process can be successfully achieved by consideri...
During deep draw cupping, the phenomenon known as earing may occur as the cup wall is formed, result...
International audienceThis paper deals with the identification and modelling of the deformation beha...
Abstract. The paper deals with constitutive modelling of highly anisotropic sheet metals. It present...
A multi-scale model that allows to predict the evolution of the crystallographic texture and the cor...
Yield stresses and r-values were measured as a function of inclination with respect to the rolling d...
In this paper the sheet forming process of cylindrical drawpieces was sim-ulated based on the finite...