The current medical implants are being developed using materials like Co-Cr, stainless
steel, and titanium alloys. These conventional implant materials induce a stress shield effect …

Recently, the topic of bioresorbable metals, with much focus on magnesium for bone implant
applications, has been an area of considerable investigation. Indeed, it could be argued that …

Background Use of degradable magnesium (Mg)-based metal implants in orthopaedic
surgeries can avoid drawbacks associated with subsequent removal of the non-degradable …

The influence of multiple passes during friction stir processing (FSP) on the evolution of
microstructure, hardness, compressive strength, and corrosion behavior of a Mg-based bio …

In the present study, an Mg-based biomedical composite is fabricated by addition of
Hydroxyapatite bioactive nanoparticles into a substrate of bioabsorbable WE43 Mg alloy …

In this work, the effects of hybrid (HA+ Ag) particles and triple-pass friction stir processing on
the microstructure, texture, hardness, and tensile behavior of magnesium matrix bio-nano …

In this work, the microstructure, crystallographic texture, hardness, and tensile behavior of
AZ91/HA bio-nano composite manufactured by multi-pass friction stir processing (FSP) were …

Magnesium and its composites as biodegradable materials offer especial capabilities to be
used as bio-absorbable implants. However, their poor corrosion and fatigue properties in the …

As one of the most promising fixators developed for anterior cruciate ligament (ACL)
reconstruction, biodegradable magnesium (Mg)-based interference screws have gained …

In this work, the corrosion behavior of Mg-SiO 2 nanocomposites, fabricated by powder
metallurgy coupled with hybrid microwave sintering and subsequent hot extrusion, was …