Add to ORKGWe apply the phase field crystal model to study the structure and energy of symmetric tilt grain boundaries of bcc iron in 3D. The parameters for the model are obtained by using a recently developed eight-order fitting scheme [A. Jaatinen et al., (2009)]. The grain boundary free energies we obtain from the model are in good agreement with previous results from molecular dynamics simulations and experiments
The phase field crystal (PFC) model is a novel approach for modeling phenomena on atomistic length a...
This chapter describes phase-field crystal (PFC) modeling for bridging length scales between electro...
The ability of the phase-field-crystal (PFC) model to quantitatively predict atomistic defect struct...
We examine the influence of different forms of the free-energy functionals used in the phase-field-c...
A two-mode phase field crystal (PFC) model is employed to investigate the equilibrium configurations...
A 3D phase-field model for grain growth combined with a grain boundary (GB) energy database is propo...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
The phase field crystal (PFC) model is a novel approach for modeling phenomena on atomistic length a...
Phase-field crystals (PFC) is an atomistic model on diffusive time scale with the capability to simu...
Phase-field crystals (PFC) is an atomistic model on diffusive time scale with the capability to simu...
In this paper, molecular dynamics (MD) simulations based on the modified-embedded atom method (MEAM)...
DoctorA multi-scale simulation for studying grain growth, which has a form of the meso-scale simulat...
The microstructure evolution process of metal material is of importance to their physical properties...
The phase field crystal (PFC) model is a novel approach for modeling phenomena on atomistic length a...
This chapter describes phase-field crystal (PFC) modeling for bridging length scales between electro...
The ability of the phase-field-crystal (PFC) model to quantitatively predict atomistic defect struct...
We examine the influence of different forms of the free-energy functionals used in the phase-field-c...
A two-mode phase field crystal (PFC) model is employed to investigate the equilibrium configurations...
A 3D phase-field model for grain growth combined with a grain boundary (GB) energy database is propo...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
A recently developed phase-field crystal (PFC) model incorporates elasticity and plasticity in the m...
The phase field crystal (PFC) model is a novel approach for modeling phenomena on atomistic length a...
Phase-field crystals (PFC) is an atomistic model on diffusive time scale with the capability to simu...
Phase-field crystals (PFC) is an atomistic model on diffusive time scale with the capability to simu...
In this paper, molecular dynamics (MD) simulations based on the modified-embedded atom method (MEAM)...
DoctorA multi-scale simulation for studying grain growth, which has a form of the meso-scale simulat...
The microstructure evolution process of metal material is of importance to their physical properties...
The phase field crystal (PFC) model is a novel approach for modeling phenomena on atomistic length a...
This chapter describes phase-field crystal (PFC) modeling for bridging length scales between electro...
The ability of the phase-field-crystal (PFC) model to quantitatively predict atomistic defect struct...