Nowadays, magnesium (Mg) alloys are promising lightweight structural materials, especially
in transportation and aerospace fields, due to their inherent low density and high specific …

Poor room temperature (RT) ductility is an inherent disadvantage of magnesium (Mg) alloys,
which limits their wide application. Grain refinement is an accepted method to improve …

Poor formability at room temperature is a key problem that limits the application of Mg alloys.
Formability is closely dependent on both large work-hardening capacity and high tensile …

In this work, the compressive creep behaviors of hot-rolled pure Mg (0Y alloy) and various
hot-rolled Mg-Y binary alloys (0.15 Y, 1.5 Y, 4.5 Y, 7.5 Y, and 10.5 Y alloys) at 523 K were …

This work reports an exceptional reversed yield strength asymmetry at room temperature for
a rare-earth free magnesium alloy containing a mass of fine dispersed quasicrystal (I-phase) …

Hard second-phase particles in Mg matrix composites deliver effective strengthening effect
but in most cases accompanied by the loss of ductility. In this study, a series of Al 3 Fe …

Zinc (Zn) alloys are a promising biodegradable material for vascular stent applications. This
study aimed to fabricate biodegradable Zn-2.0 Cu-0.5 Mn alloy micro-tubes and vascular …

Constructing bimodal grain structure is a promising approach to achieve the high strength-
ductility synergy in Mg alloy. Formation of bimodal grain is closely related to the dynamic …

I 1 stacking faults (SFs) in Mg alloys are regarded as the nucleation sites of< c+ a>
dislocations that are critical for these alloys to achieve high ductility. Previously it was …

Abstract In this work, Mg/Al laminated metal composites with different thickness ratios were
prepared by a two-pass rolling process combining asymmetrical rolling with differential …