The mechanical and physical properties of biodegradable magnesium (Mg) alloys make
them suitable for temporary orthopaedic implants. The success of these alloys depends on …

The biodegradability and mechanical properties of magnesium make it suitable for
temporary implant applications. However, its degradation rate in the physiological …

The mechanical and physical properties of Mg-Ca alloys make them suitable for temporary
orthopaedic implant applications. However, the rapid degradation of these alloys limits their …

Magnesium (Mg) and its alloys are promising biodegradable materials for orthopedic
applications. However, one of the major problems is their rapid degradation rate with quick …

Magnesium (Mg) and its alloys as a novel kind of biodegradable material have attracted
much fundamental research and valuable exploration to develop its clinical application. Mg …

Magnesium based alloys, especially Mg–Ca alloys, are biocompatible substrates with
mechanical properties similar to those of bones. The biodegradable alloys of Mg–Ca …

Biodegradable implant is an alternative to metallic implant and has the advantage of not
being necessary to remove once the fracture has healed. Magnesium is particularly …

Magnesium alloys have great potential to be used as biodegradable implant materials. In
this review, the biodegradation mechanism of magnesium alloys was illustrated and two …

Mg–Ca alloys have recently attracted great attention towards the research in the field of
orthopedic biodegradable implants. This study presents an in vitro degradation assessment …

Use of magnesium implants is a new trend in orthopedic research because it has several
important properties that recommend it as an excellent resorbable biomaterial for implants …