Add to ORKGA model of rapid solidification as a particular problem of nonequilibrium phase transitions is discussed. Analytical and numerical solutions of tasks for crystal pattern formation in metallic systems are summerized and reviewed. Predictions of the model are compared to experimental data of rapid solidification of metallic systems
Abstract: The paper presents the model of the solidification process of a binary ideal all...
A multiphase model for liquid-solid and solid-liquid phase transitions is developed using the framew...
We present the results of non-equilibrium molecular dynamics simulations for the growth of a solid b...
The phase-field model of Echebarria, Folch, Karma, and Plapp [Phys. Rev. E 70, 061604 (2004)] is ext...
The phase-field model of Echebarria, Folch, Karma, and Plapp [Phys. Rev. E 70 (2004) 061604] is ext...
A phase field model of rapid multi–grain growth is developed. Using a multi–phase model for polycrys...
The research program reported here is focused on critical issues that represent conspicuous gaps in ...
Rapid solidification gives rise to solute trapping, which decreases solute partitioning and alters e...
Motivated by the fast development of various additive manufacturing technologies, we consider a math...
Abstract: The paper presents the continual exothermical model of the first-order phase tra...
In this paper we focus on melting and solidification processes described by phase-field models and o...
A conceptual foundation for the study of local non-equilibrium solute diffusion under rapid solidifi...
During rapid solidification of intermetallic compounds, the atoms may not have time to find the lowe...
Deviations from local equilibrium occur at a rapidly moving solid-liquid interface. The fraction of ...
A simple numerical model which calculates the kinetics of crystallization involving randomly distrib...
Abstract: The paper presents the model of the solidification process of a binary ideal all...
A multiphase model for liquid-solid and solid-liquid phase transitions is developed using the framew...
We present the results of non-equilibrium molecular dynamics simulations for the growth of a solid b...
The phase-field model of Echebarria, Folch, Karma, and Plapp [Phys. Rev. E 70, 061604 (2004)] is ext...
The phase-field model of Echebarria, Folch, Karma, and Plapp [Phys. Rev. E 70 (2004) 061604] is ext...
A phase field model of rapid multi–grain growth is developed. Using a multi–phase model for polycrys...
The research program reported here is focused on critical issues that represent conspicuous gaps in ...
Rapid solidification gives rise to solute trapping, which decreases solute partitioning and alters e...
Motivated by the fast development of various additive manufacturing technologies, we consider a math...
Abstract: The paper presents the continual exothermical model of the first-order phase tra...
In this paper we focus on melting and solidification processes described by phase-field models and o...
A conceptual foundation for the study of local non-equilibrium solute diffusion under rapid solidifi...
During rapid solidification of intermetallic compounds, the atoms may not have time to find the lowe...
Deviations from local equilibrium occur at a rapidly moving solid-liquid interface. The fraction of ...
A simple numerical model which calculates the kinetics of crystallization involving randomly distrib...
Abstract: The paper presents the model of the solidification process of a binary ideal all...
A multiphase model for liquid-solid and solid-liquid phase transitions is developed using the framew...
We present the results of non-equilibrium molecular dynamics simulations for the growth of a solid b...