Plasma electrolytic oxidation (PEO) is a novel surface treatment process to produce thick,
dense metal oxide coatings, especially on light metals, primarily to improve their wear and …

The review describes recent progress on understanding and quantification of the various
phenomena that take place during plasma electrolytic oxidation, which is in increasing …

Recently, developing bioactive and biocompatible materials based on Mg and Mg-alloys for
implant applications has drawn attention among researchers owing to their suitable body …

A new method of the formation of composite coatings with the function of active corrosion
protection of magnesium alloys was developed using the plasma electrolytic oxidation …

Corrosion testing of bioabsorbable metallic materials is important at material selection stage
and for understanding their degradation mechanisms. A large variety of different corrosive …

Magnesium has been known as an appropriate biological material on account of its good
biocompatibility and biodegradability properties in addition to advantageous mechanical …

In this study, the biocompatible protective coating was formed using plasma electrolytic
oxidation (PEO) on bioresorbable Mg-0.8 Ca alloy. The composition of the formed coating …

Abstract In this research, Mg-Ca binary alloys are evaluated as anode material candidates
for primary Mg-air batteries. The effect of Ca content on self-corrosion and discharge …

Mg and its alloys are suitable choices for implant materials due to their biodegradability and
biocompatibility features. However, the high electrochemical activity of this family of …

The electrochemical behaviour of biodegradable magnesium alloy Mg-0.8 Ca was
evaluated in a mammalian cell culture medium (MEM) and NaCl solutions (0.9 wt.%, 0.3 …