Mg and its alloys evince strong candidature for biodegradable bone implants,
cardiovascular stents, and wound closing devices. However, their rapid degradation rate …

Biodegradable materials offer many advantages over the conventionally used non-
biodegradable biomaterials. A number of biodegradable material-based (BMB) alloys have …

Magnesium alloys have been considered to be potential biocompatible metallic materials.
Further improvement on the anti-corrosion is expected to make this type of materials more …

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 …

The rapid degradation rate of Mg alloys limited clinical applications. Layered double
hydroxide (LDH) compounds are developed as surface coatings for biomedical magnesium …

A high-energy metal vapor vacuum arc (MEVVA) ion source was used to implant aluminum
(Al) ions into the WE43 alloy (Al-WE43) at a dose of 1× 10 16 ions· cm− 2, and the structural …

High current pulsed electron beam (HCPEB) was employed to irradiate cold spraying
aluminum coating. The microstructures, tribological and corrosion behaviors of the untreated …

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 …

Oxide films composed of mainly tin dioxide and a small amount of stannous oxide are
sputter-deposited onto the biomedical Mg-Y-RE (WE) alloy to enhance the anticorrosion …