Add to ORKGControlling degradation of magnesium or its alloys in physiological saline solutions is essential for their potential applications in clinically viable implants. Rapid degradation of magnesium-based materials reduces the mechanical properties of implants prematurely and severely increases alkalinity of the local environment. Therefore, the objective of this study is to investigate the effects of three interactive factors on magnesium degradation, specifically, the addition of yttrium to form a magnesium-yttrium alloy versus pure magnesium, the metallic versus oxide surfaces, and the presence versus absence of physiological salt ions in the immersion solution. In the immersion solution of phosphate buffered saline (PBS), the magnesium-yttriu...
Biodegradable Mg alloys have generated great interest for biomedical applications. Accurate predicti...
As a new generation of medical degradable biomaterials, magnesium alloys were known as "revolutionar...
With all the versatility in structural performance and recent progress in developing magnesium alloy...
Controlling degradation of magnesium or its alloys in physiological saline solutions is essential fo...
Background. Pure magnesium and its alloys are promising biodegradable biomaterials for cardiovascula...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium and its alloys are increasingly interesting materials for biodegradable implant applicatio...
Magnesium is an attractive metallic material for temporary implant applications. Magnesium readily d...
The world is facing an aging population and also there is an increase in war, and sports related inj...
In recent years, there has been a growing interest in the development of biodegradable implants for ...
The corrosion behavior of pure magnesium that has different content ratio of impurities (such as Fe/...
The biggest challenge with magnesium alloy biodegradable implants is the rapid corrosion at the earl...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
Magnesium (Mg) and its alloys have been widely explored as a potential biodegradable implant materia...
Biodegradable Mg alloys have generated great interest for biomedical applications. Accurate predicti...
As a new generation of medical degradable biomaterials, magnesium alloys were known as "revolutionar...
With all the versatility in structural performance and recent progress in developing magnesium alloy...
Controlling degradation of magnesium or its alloys in physiological saline solutions is essential fo...
Background. Pure magnesium and its alloys are promising biodegradable biomaterials for cardiovascula...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium and its alloys are increasingly interesting materials for biodegradable implant applicatio...
Magnesium is an attractive metallic material for temporary implant applications. Magnesium readily d...
The world is facing an aging population and also there is an increase in war, and sports related inj...
In recent years, there has been a growing interest in the development of biodegradable implants for ...
The corrosion behavior of pure magnesium that has different content ratio of impurities (such as Fe/...
The biggest challenge with magnesium alloy biodegradable implants is the rapid corrosion at the earl...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
Magnesium (Mg) and its alloys have been widely explored as a potential biodegradable implant materia...
Biodegradable Mg alloys have generated great interest for biomedical applications. Accurate predicti...
As a new generation of medical degradable biomaterials, magnesium alloys were known as "revolutionar...
With all the versatility in structural performance and recent progress in developing magnesium alloy...