Add to ORKGSummary. A new crystal plasticity phase-field model is developed to simulate microstructure evolution with elastoplastic deformation. In this paper, three-dimensional simulation of the growth of precipitates during solid phase transformation is performed. And, it is demonstrated that the distribution of stress and dislocation density around the growing precipitates can be predicted by the developed phase-field model.
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
A finite element-based phase-field model was developed to simulate crystal growth in semi-crystallin...
ABSTRACT A phase-field model and computational procedure for primary static recrystallization are de...
International audienceContinuum crystal plasticity models are extended to incorporate the effect of ...
A numerical model and computational procedure for static recrystallization are developed using a pha...
The phase-field method has emerged as the method of choice for simulation of microstructure evolutio...
The microstructure evolution process of metal material is of importance to their physical properties...
One ambitious objective of Integrated Computational Materials Engineering (ICME) is to shorten the m...
A fast Fourier transform (FFT) based computational approach integrating phase-field method (PFM) and...
Summary Stress evolution during grain growth in microstructure formation process are simulated by us...
We have proposed a simulation model for static recrystallization using the phase-field method couple...
A phase-field model for a general class of multi-phase metallic alloys is now proposed which describ...
MasterA method to compute crystal growth during materials deformation has been developed. This is do...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
A finite element-based phase-field model was developed to simulate crystal growth in semi-crystallin...
ABSTRACT A phase-field model and computational procedure for primary static recrystallization are de...
International audienceContinuum crystal plasticity models are extended to incorporate the effect of ...
A numerical model and computational procedure for static recrystallization are developed using a pha...
The phase-field method has emerged as the method of choice for simulation of microstructure evolutio...
The microstructure evolution process of metal material is of importance to their physical properties...
One ambitious objective of Integrated Computational Materials Engineering (ICME) is to shorten the m...
A fast Fourier transform (FFT) based computational approach integrating phase-field method (PFM) and...
Summary Stress evolution during grain growth in microstructure formation process are simulated by us...
We have proposed a simulation model for static recrystallization using the phase-field method couple...
A phase-field model for a general class of multi-phase metallic alloys is now proposed which describ...
MasterA method to compute crystal growth during materials deformation has been developed. This is do...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
Advances in the orientation-field-based phase-field (PF) models made in the past are reviewed. The m...
A finite element-based phase-field model was developed to simulate crystal growth in semi-crystallin...