The superplastic behavior of medical magnesium alloys is reviewed in this overview article.
Firstly, the basics of superplasticity and superplastic forming via grain boundary sliding …

Magnesium (Mg) alloys have been extensively used in various fields, such as aerospace,
automobile, electronics, and biomedical industries, due to their high specific strength and …

Magnesium alloys have many unique properties, mostly benefitting from the low density of
magnesium. However, they are not competitive, when compared with other lightweight …

ABSTRACT Friction Stir Processing (FSP) has become a leading technique to produce
surface composite on the surface of various materials such as aluminum, magnesium …

Friction stir processing has been employed to produce metal matrix composites by
incorporating reinforcement particles in an Al 5059 matrix. The fabrication method involved …

The tensile elongation behavior and deformation mechanisms of superplastic Mg alloys and
Mg composites were examined by extensively reviewing the literature published from the …

Friction stir processing (FSP), an adaption of the solid-state joining process friction stir
welding (FSW), is now a widely recognized severe plastic deformation (SPD) technique. It …

Owing to its excellent properties, Metal Matrix Composites (MMC) has gained popularity and
finds application in aerospace, aircraft, shipbuilding, biomedical, biodegradable implant …

In the present research, a composite with a magnesium alloy (WE43) as the matrix and
Akermanite as the bioactive and reinforcing agent was fabricated by friction stir processing …

The objective of this article is to provide a review of friction stir processing (FSP) technology
and its application for microstructure modification of particle reinforced composite materials …