Magnesium (Mg) and Mg alloys are considered as potential candidates for biomedical
applications because of their high specific strength, low density, and elastic modulus …

With promising mechanical properties and biodegradability, magnesium (Mg) and its alloys
are considered as potential candidates in both industrial and biomedical fields. However …

The problem of using magnesium in medicine is biodegradation, which leads to the loss of
the implant mechanical integrity before the bone tissue formation. Doping and subsequent …

Many surface modification technologies have been developed on biomedical magnesium
(Mg) and its alloys to expand potential clinical applications. In this study, the bio-safe …

This study investigates the influence of phosphorous (P) ion implantation on the
morphological, microstructural, mechanical, and electrochemical properties of a novel …

Enhanced in vitro corrosion resistance, cytocompatibility, in vitro antibacterial activities, in
vivo antibacterial activities, in vivo corrosion resistance and in vivo stimulation of bone …

Surface attributes of pure Mg such as biocompatibility, mechanical strength and corrosion
are clinically important for artificial implants, but its fast degradation post-implantation has …

The effects of Zr+ C co-implantation on surface mechanical properties and corrosion
resistance of ZK60 Mg alloys were systematically investigated. The results illustrate that the …

In order to improve the surface properties and satisfy the controlled degradation of
biomedical magnesium, Zr ion implantation was conducted on ZK60 magnesium with …

Magnesium (Mg) and its alloys have gained significant attention in orthopedic applications
due to their biocompatibility, mechanical properties, and biodegradability. However, the …