The electrical discharge machining (EDM) process is an excellent method to machine with
the high geometrical accuracy required for bio-medical implants. In implant fabrication, a …

The biocompatibility and biodegradability of magnesium (Mg), along with its lightness, make
magnesium-based materials promising for use in the biomedical industry. In this work …

In spite of the immense potential of biodegradable magnesium alloys, the fast degradation
rates of Mg-based biomedical implants in the physiological environment impose severe …

Rapid corrosion restricts the wide application of Mg and Mg-based alloys. In this work, a
combined surface strategy was employed to modify the surface of AZ31 Mg Alloy. An atomic …

It is a challenge to improve the corrosion rate and blood compatibility of biomedical
magnesium alloy implants in human body. Scanning electron microscope (SEM), energy …

The successful applications of magnesium-based alloys as degradable orthopaedic
implants are mainly inhibited due to their high degradation rates in physiological …

Orthopedic implants, such as those made of stainless steel, cobalt (Co)-based alloys and
titanium (Ti) alloys, are commonly used to stabilize, protect, improve, replace or regenerate …

Due to the combination of many unique properties, magnesium alloys have been widely
recognized as suitable metallic materials for fabricating degradable biomedical implants …

Magnesium-based alloys are frequently reported as potential biodegradable orthopedic
implant materials. Controlling the degradation rate and mechanical integrity of magnesium …

AZ31 magnesium alloy is a promising implant metallic material for the process of healing
hard tissue in the human body. However, it is susceptible to degradation when exposed to …