Add to ORKGThe vast majority of metallic engineering materials are solidified from the liquid phase. Understanding the solidification process is essential to control microstructure, which in turn, determines the properties of materials. The genesis of solidification is nucleation, where the first stable solid forms from the liquid phase. Nucleation kinetics determine the degree of undercooling and phase selection. As such, it is important to understand nucleation phenomena in order to control solidification or glass formation in metals and alloys
The investigation focused on the control of microstructural evolution in Mn-Al, Fe-Ni, Ni-V, and Au-...
Despite the continuous and remarkable development of experimental techniques for the investigation o...
Despite the continuous and remarkable development of experimental techniques for the investigation o...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The development of microstructure during phase transformations is often best understood by considera...
Containerless processing experiments in space and in ground-based facilities such as the Drop Tube F...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The Interdependence model [1] predicted that nucleation would occur in waves of events with regions ...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
Homogeneous nucleation from aluminum (Al) melt was investigated by million-atom molecular dynamics s...
Crystal nucleation in the one-component metals Ni and Au is investigated using a combination of diff...
The investigation focused on the control of microstructural evolution in Mn-Al, Fe-Ni, Ni-V, and Au-...
Despite the continuous and remarkable development of experimental techniques for the investigation o...
Despite the continuous and remarkable development of experimental techniques for the investigation o...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The vast majority of metallic engineering materials are solidified from the liquid phase. Understand...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The development of microstructure during phase transformations is often best understood by considera...
Containerless processing experiments in space and in ground-based facilities such as the Drop Tube F...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The Interdependence model [1] predicted that nucleation would occur in waves of events with regions ...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
The effect of fluid flow on crystal nucleation in supercooled liquids is not well understood. The va...
Homogeneous nucleation from aluminum (Al) melt was investigated by million-atom molecular dynamics s...
Crystal nucleation in the one-component metals Ni and Au is investigated using a combination of diff...
The investigation focused on the control of microstructural evolution in Mn-Al, Fe-Ni, Ni-V, and Au-...
Despite the continuous and remarkable development of experimental techniques for the investigation o...
Despite the continuous and remarkable development of experimental techniques for the investigation o...