This is the first account of the history of modelling dendritic and cellular solidification. While
Part I reviewed the progress up to the year 2000 [Kurz W, Fisher DJ, Trivedi R. Progress in …

Melting and solidification of pure metals and alloys are important research areas due to their
practical applications, where the study of dynamic evolution of the interface offers a …

Abstract Characterization of the morphology, identification of patterns and quantification of
order encountered in colloidal assemblies is essential for several reasons. First of all, it is …

Grain growth, a competitive growth of crystal grains accompanied by curvature-driven
boundary migration, is one of the most fundamental phenomena in the context of metallurgy …

The primary spacing is intrinsically linked with the mechanical behavior of directionally
solidified materials. Because of this relationship, a significant amount of solidification work is …

Nowadays, the urgency for the high-quality interdiffusion coefficients and atomic mobilities
with quantified uncertainties in multicomponent/multi-principal element alloys, which are …

In the formation of a typical equiaxed structure during the solidification of metals and alloys,
multiple equiaxed dendrites typically grow with motion, collision, and coalescence and …

Simulations of dendritic solidification involving melt convection and solid motion usually
require a considerably higher computational domain than the dendrite size, whose …

The segregation and morphology of liquid channels at the last stage of solidification are
closely related to hot cracking formation. We use Phase-Field (PF) simulations to investigate …

In the phase-field simulation of dendrite growth during the solidification of an alloy, the
computational cost becomes extremely high when the diffusion length is significantly larger …