We briefly review the state-of-the-art in phase-field modeling of microstructure evolution. The
focus is placed on recent applications of phase-field simulations of solid-state microstructure …

The synchrotron radiation technology has recently emerged as a powerful tool to
characterize the real-time microstructure evolution during solidification of alloys. Compared …

WE43, a magnesium alloy containing yttrium and neodymium as main alloying elements,
has become a well-established bioresorbable implant material. Implants made of WE43 are …

The crystallization of solidifying Al-Cu alloys over a wide range of conditions was studied in
situ by synchrotron x-ray radiography, and the data were analyzed using a computer vision …

Abstract The three-dimensional (3D) growth pattern, preferred growth directions and the
underlying growth mechanism of magnesium alloy dendrite are investigated via 3D …

We report on a dendrite orientation transition (DOT) discovered in the Alsingle bondGe
system by conducting isothermal solidification experiments in thin samples under slow …

Dendritic microstructural evolution during the solidification of Mg-Zn alloys was investigated
as a function of Zn concentration using in situ synchrotron X-ray tomography. We reveal that …

The crack formation mechanisms of Ti–48Al–2Cr–2Nb single tracks processed by laser
powder bed fusion were extensively investigated in a wide range of laser powers and scan …

The effect of low cooling rate with a fixed temperature gradient during directional
solidification of Mg–Gd alloys is investigated by coupling in situ X-ray synchrotron …

A quantitative study on the kinetics of nucleation of primary Si particles (PSPs), especially
under the effect of P inoculation, during isothermal melt solidification of hypereutectic Al–Si …