Add to ORKGAbstract. We present a phase field theory for binary crystal nucleation. Using the physical interface thickness, we achieve quantitative agreement with computer simulations and experiments for unary and binary substances. Large-scale numer-ical simulations are performed for multi-particle freezing in alloys. We deduce the Kolmogorov exponents for dendritic solidification and for the “soft-impingement” of crystallites interacting via diffusion fields.
Numerical simulations of crystals with multiple crystal orientations have become the subject of inte...
We extend the phase field model of heterogeneous crystal nucleation developed recently [L. Gránásy, ...
In this paper, we extend the multi-phase-field concept, recently developed to model pure systems inv...
Nucleation and growth in unary and binary systems is investigated in the framework of the phase-fiel...
For metallic glasses, it is of vital importance to understand the glass formation properties and to ...
We apply a simple dynamical density functional theory, the phase-field crystal (PFC) model of overda...
A vector order parameter phase field model derived from a grand potential functional is presented as...
A vector order parameter phase field model derived from a grand potential functional is presented as...
In this paper we present a phase-field model to describe isothermal phase transitions between ideal ...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
Two-dimensional simulations of the evolution of dendrite microstructure during isothermal and non-is...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
The normal vector of migration direction in the solid-liquid interface of dendrites was used to desc...
We discuss the formation of polycrystalline microstructures within the framework of phase field theo...
Numerical simulations of crystals with multiple crystal orientations have become the subject of inte...
We extend the phase field model of heterogeneous crystal nucleation developed recently [L. Gránásy, ...
In this paper, we extend the multi-phase-field concept, recently developed to model pure systems inv...
Nucleation and growth in unary and binary systems is investigated in the framework of the phase-fiel...
For metallic glasses, it is of vital importance to understand the glass formation properties and to ...
We apply a simple dynamical density functional theory, the phase-field crystal (PFC) model of overda...
A vector order parameter phase field model derived from a grand potential functional is presented as...
A vector order parameter phase field model derived from a grand potential functional is presented as...
In this paper we present a phase-field model to describe isothermal phase transitions between ideal ...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
Two-dimensional simulations of the evolution of dendrite microstructure during isothermal and non-is...
We review how phase-field models contributed to the understanding of various aspects of crystal nucl...
The normal vector of migration direction in the solid-liquid interface of dendrites was used to desc...
We discuss the formation of polycrystalline microstructures within the framework of phase field theo...
Numerical simulations of crystals with multiple crystal orientations have become the subject of inte...
We extend the phase field model of heterogeneous crystal nucleation developed recently [L. Gránásy, ...
In this paper, we extend the multi-phase-field concept, recently developed to model pure systems inv...