Magnesium-based metallic glasses (MMGs) show intriguing potentials for application as implantable biomaterials owing to their disordered atomic structure, good biodegradability, low elastic modulus, high strength, and large elasticity. However, despite of all these advantages, their brittleness is their Achilles' heel, which severely limits their application as biomedical materials. In the current study, a significantly improved ductility of MMGs under bending and tensile loading through minor alloying with rare-earth element ytterbium (Yb) at an atomic concentration of 2 and 4% is reported. The enhanced ductility is attributed to the increased density of shear bands close to fracture end and larger plastic zones on the fracture surface. In...
\u3cp\u3eThe importance of Mg in the human body, its key role in bone tissue development, in additio...
Metallic glasses have attracted more and more interests since they were produced a few decades ago. ...
Abstract: The biodegradable magnesium and its alloys are a focus of degradable biomaterials researc...
Magnesium-based metal glasses (MMGs) have broad application potential as bio-implant materials becau...
Amorphous Mg-based bulk metallic glasses (BMGs) are relatively new materials for various engineering...
The global world is facing aging population and this ignites the interest for medical advances to ke...
Magnesium and its alloys are light weight, biodegradable materials. They can be used as metal implan...
Mg and its alloys have attracted much attention recently as a biomaterial due to their excellent bio...
Mg‒Zn‒Ca metallic glasses are regarded as promising biodegradable materials. Previous studies on thi...
With a continuously increasing aging population and the improvement of living standards, large deman...
A drive toward biodegradable implant design has emerged in recent decades. Magnesium and its alloys ...
The future of biomaterial design will rely on development of bioresorbable implant materials that co...
In the last six decades, it has been made a great advancement in the field of engineering material e...
Metallic glasses, since its discovery in 1960s have drawn much attention to researchers and scientis...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
\u3cp\u3eThe importance of Mg in the human body, its key role in bone tissue development, in additio...
Metallic glasses have attracted more and more interests since they were produced a few decades ago. ...
Abstract: The biodegradable magnesium and its alloys are a focus of degradable biomaterials researc...
Magnesium-based metal glasses (MMGs) have broad application potential as bio-implant materials becau...
Amorphous Mg-based bulk metallic glasses (BMGs) are relatively new materials for various engineering...
The global world is facing aging population and this ignites the interest for medical advances to ke...
Magnesium and its alloys are light weight, biodegradable materials. They can be used as metal implan...
Mg and its alloys have attracted much attention recently as a biomaterial due to their excellent bio...
Mg‒Zn‒Ca metallic glasses are regarded as promising biodegradable materials. Previous studies on thi...
With a continuously increasing aging population and the improvement of living standards, large deman...
A drive toward biodegradable implant design has emerged in recent decades. Magnesium and its alloys ...
The future of biomaterial design will rely on development of bioresorbable implant materials that co...
In the last six decades, it has been made a great advancement in the field of engineering material e...
Metallic glasses, since its discovery in 1960s have drawn much attention to researchers and scientis...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
\u3cp\u3eThe importance of Mg in the human body, its key role in bone tissue development, in additio...
Metallic glasses have attracted more and more interests since they were produced a few decades ago. ...
Abstract: The biodegradable magnesium and its alloys are a focus of degradable biomaterials researc...