Periodic spinodal decomposition in double–strengthened medium–entropy alloy
Achieving an optimal balance between strength and ductility in advanced engineering
materials has long been a challenge for researchers. In the field of material strengthening …
materials has long been a challenge for researchers. In the field of material strengthening …
Collective motion in hcp-Fe at Earth's inner core conditions
Earth's inner core is predominantly composed of solid iron (Fe) and displays intriguing
properties such as strong shear softening and an ultrahigh Poisson's ratio. Insofar, physical …
properties such as strong shear softening and an ultrahigh Poisson's ratio. Insofar, physical …
Thermoelastic properties of B2‐type FeSi under deep Earth conditions: Implications for the compositions of the ultralow‐velocity zones and the inner core
Abstract The CsCl‐type (B2) phase of FeSi (B2‐FeSi) has been proposed as a candidate
phase in the ultralow‐velocity zones (ULVZs) at the base of the lower mantle and in the …
phase in the ultralow‐velocity zones (ULVZs) at the base of the lower mantle and in the …
Sound velocity of hexagonal close-packed iron to the Earth's inner core pressure
Here we determine the compressional and shear wave velocities (vp and vs) of hexagonal
close-packed iron, a candidate for the main constituent of the Earth's inner core, to pressures …
close-packed iron, a candidate for the main constituent of the Earth's inner core, to pressures …