There has been a great interest in evaluating the potential of severe plastic deformation
(SPD) to improve the performance of magnesium for biological applications. However …

Severe plastic deformation by high pressure torsion (HPT) is used to process and refine the
grain structure of commercial purity magnesium and AZ31, AZ91, and ZK60 magnesium …

Ultra-fine grained and even nanostructured magnesium alloys obtained by processing with
methods of severe plastic deformation (SPD) are promising biomaterials for absorbable …

The use of magnesium in orthopedic and cardiovascular applications has been widely
attracted by diminishing the risk of abnormal interaction of the implant with the body tissue …

The magnesium alloys are considered as biodegradable implant materials due to its
biocompatibility and mechanical properties. The light weight structure also made it more …

It is well established that magnesium has a considerable potential for use as a
biodegradable material. This report describes the effect of processing by severe plastic …

Reports in the literature show that severe plastic deformation can improve mechanical
strength, ductility, and corrosion resistance of pure magnesium, which suggests good …

The effect of high pressure torsion processing on mechanical properties and corrosion
behavior of pure magnesium and Mg-Zn, Mg-Zn-Ca, Mg-Li-Y and Mg-Y-RE alloys is …

Magnesium is a biocompatible and biodegradable metal, which has attracted much interest
in biomedical engineering. Pure magnesium shows the low strength and plasticity at …

Magnesium alloys are of considerable current interest for use as degradable implants due to
their unique properties including biodegradability, biocompatibility, low density and …