For over three decades, the front-capturing level-set method has demonstrated its prowess
for the simulation, at the mesoscopic scale, of numerous mechanisms in the context of …

The current status of large-scale phase-field (PF) simulations for dendrite growth is reviewed
by focusing on the study conducted by our group. The discussion includes the competitive …

The role of inclination dependence of grain boundary energy on the microstructure evolution
and the orientation distribution of grain boundary planes during grain growth in …

Three-dimensional grain growth behaviors under anisotropic (misorientation-dependent)
grain boundary energy and mobility are investigated via phase-field simulations. Based on a …

In this paper, a new methodology is presented to inlude anisotropic grain boundary
properties in a phase-field model. The new approach is thermodynamically consistent and …

The formation process of equiaxed structures during alloy solidification is a complicated
multiphysics problem as it includes solid–liquid phase transformations, transport of solute …

Utilizing the data assimilation and multi-phase-field grain growth model, this study proposes
a novel framework of measuring anisotropic (nonuniform) grain boundary energy and …

The anisotropy interfacial energy changes the growth tendency of dendrites in different
directions during solidification, when the growth tendency in a specific direction appears or …

Monte Carlo (MC) simulation was used to predict the microstructural evolution and the
kinetics of grain growth during heating of Zn–22Al dual phase alloy. As the prediction of MC …

Due to their ability to encompass complex multi-phase problems, multiphase-field and multi-
order parameter methods are increasing in popularity. Multiple model formulations and …