This book chapter deals with the fundamental aspects of corrosion of magnesium based alloys in bodily fluids and reviews the various techniques that can be used to tune their degradation rate. The time-dependent evolution of their mechanical properties during the biodegradation process is also outlined
The market for orthopedic implant alloys has seen significant growth in recent years, and efforts to...
In fracture management with open reduction and internal fixation with metallic implant, secondary pr...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Magnesium has the potential to be used as degradable metallic biomaterial. For magnesium and its al...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium and magnesium based alloys are lightweight metallic materials that are extremely biocompat...
The world is facing an aging population and also there is an increase in war, and sports related inj...
Magnesium and its alloys are possible to develop new type of biodegradable medical magnesium alloys ...
Amorphous and crystalline magnesium alloys, developed for medical applications – especially implanto...
Non-degradable steel and titanium implants used to replace defects of the locomotor system or fabric...
In the analytical review of the literature the main stages of development of biodegradable magnesium...
Inert but biocompatible metals and biodegradable polymers are currently used as orthopedic fixations...
Magnesium (Mg) alloys possess comparable physical and mechanical properties to bone, making them an ...
2014-2015 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
In the last six decades, it has been made a great advancement in the field of engineering material e...
The market for orthopedic implant alloys has seen significant growth in recent years, and efforts to...
In fracture management with open reduction and internal fixation with metallic implant, secondary pr...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Magnesium has the potential to be used as degradable metallic biomaterial. For magnesium and its al...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium and magnesium based alloys are lightweight metallic materials that are extremely biocompat...
The world is facing an aging population and also there is an increase in war, and sports related inj...
Magnesium and its alloys are possible to develop new type of biodegradable medical magnesium alloys ...
Amorphous and crystalline magnesium alloys, developed for medical applications – especially implanto...
Non-degradable steel and titanium implants used to replace defects of the locomotor system or fabric...
In the analytical review of the literature the main stages of development of biodegradable magnesium...
Inert but biocompatible metals and biodegradable polymers are currently used as orthopedic fixations...
Magnesium (Mg) alloys possess comparable physical and mechanical properties to bone, making them an ...
2014-2015 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
In the last six decades, it has been made a great advancement in the field of engineering material e...
The market for orthopedic implant alloys has seen significant growth in recent years, and efforts to...
In fracture management with open reduction and internal fixation with metallic implant, secondary pr...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
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