Biodegradable magnesium implants possess excellent mechanical properties and
biocompatibility, which make them suitable candidates to be employed as temporary …

AZ91D, a die‐casted alloy, offers several benefits (better saltwater corrosion resistance,
suitable castability, and good atmospheric stability) over other grades of magnesium alloy …

Magnesium (Mg) alloys are generally used in light-weight structural applications due to their
higher specific strength. However, the usage of these Mg alloys is limited due to their poor …

Employing ceramic particles like hydroxyapatite to fabricate magnesium-based bio-
composite has received incredible attention in orthopedic applications due to their bioactivity …

The hydroxyapatite particles as reinforcement materials have been widely considered to
produce magnesium biocomposites used in biodegradable implants. However, Mg/HA …

Magnesium alloys are lightweight materials which exhibit high specific strength and is
broadly used in aerospace, automotive, electronics, and biomedical. Dry cutting is a …

The effects of Sr additions, heat treatment (T4 and T6), and multi-directional forging on the
microstructural evolution, mechanical properties and biodegradability of Mg–4Zn–xSr alloys …

The development of high-performance biodegradable alloys with controllable corrosion
rates to be used for manufacturing advanced implants is a hot topic of modern materials …

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 …

The attractive properties of Mg-bcc nanocomposites have gained increasing interest, but
fabrication to bulk scales failed so far as strain immediately localizes within the Mg-phase …