In this paper, potentials that analytically describe the plastic behavior of orthotropic metals are reviewed. These potentials, yield functions or strain rate potentials were expressed in six-dimensional stress or strain rate spaces, respectively. Some of the recently developed potentials that are consistent with polycrystal plasticity models are briefly discussed and applied to computational analysis and design of sheet metal forming processes
A Taylor-like polycrystal model is adopted here to investigate the plastic behavior of body centered...
This work describes a sheet forming process simulation, cup drawing and redrawing, using a new plane...
AbstractThis paper reviews a class of anisotropic plastic strain-rate potentials, based on linear tr...
For numerical simulation of sheet metal forming, more and more advanced phenomenological functions a...
In the work presented in this paper, several strain rate potentials are examined in order to analyze...
Two new yield functions for orthotropic sheet metals are proposed. The first one, called Yld2011-18p...
Theoretical description of plastic anisotropy requires the definition of either stress potentials or...
After a concise review of the classical theory of plasticity, the main isotropic and anisotropic yie...
An accurate prediction of plastic anisotropy induced by initial texture in sheet metal forming opera...
In this paper, yield functions describing the anisotropic behavior of textured metals are proposed. ...
An elasto-plastic constitutive model with the plastic strain rate potential was developed for finite...
This paper reviews a class of anisotropic plastic strain-rate potentials, based on linear transforma...
In the work presented in this paper, several strain rate potentials are examined in order to analyze...
An accurate prediction of plastic anisotropy induced by initial texture in sheet metal forming opera...
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
A Taylor-like polycrystal model is adopted here to investigate the plastic behavior of body centered...
This work describes a sheet forming process simulation, cup drawing and redrawing, using a new plane...
AbstractThis paper reviews a class of anisotropic plastic strain-rate potentials, based on linear tr...
For numerical simulation of sheet metal forming, more and more advanced phenomenological functions a...
In the work presented in this paper, several strain rate potentials are examined in order to analyze...
Two new yield functions for orthotropic sheet metals are proposed. The first one, called Yld2011-18p...
Theoretical description of plastic anisotropy requires the definition of either stress potentials or...
After a concise review of the classical theory of plasticity, the main isotropic and anisotropic yie...
An accurate prediction of plastic anisotropy induced by initial texture in sheet metal forming opera...
In this paper, yield functions describing the anisotropic behavior of textured metals are proposed. ...
An elasto-plastic constitutive model with the plastic strain rate potential was developed for finite...
This paper reviews a class of anisotropic plastic strain-rate potentials, based on linear transforma...
In the work presented in this paper, several strain rate potentials are examined in order to analyze...
An accurate prediction of plastic anisotropy induced by initial texture in sheet metal forming opera...
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
A Taylor-like polycrystal model is adopted here to investigate the plastic behavior of body centered...
This work describes a sheet forming process simulation, cup drawing and redrawing, using a new plane...
AbstractThis paper reviews a class of anisotropic plastic strain-rate potentials, based on linear tr...