Mg-1.5Y-1.2Zn-0.44Zr alloys were newly developed as degradable metallic biomaterials. A comprehensive investigation of the microstructure, mechanical properties, in vitro degradation assessments and in vitro cytotoxicity evaluations of the as-cast state, as-heat treated state and as-extruded state alloys was done. The microstructure observations show that the Mg-1.5Y-1.2Zn-0.44Zr alloys are mainly composed of the matrix alpha-Mg phases and the Mg12ZnY secondary phases (LPS structure). The hot extrusion method significantly refined the grains and eliminated the defects of both as-cast and heat treated alloys and thereby contributed to the better mechanical properties and biodegradation resistance. The values of tensile strength and tensile y...
Zn-based biodegradable metallic materials have been regarded as new potential biomaterials for use a...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
In order to design a potential biodegradable implant, which combines with fine mechanical and antimi...
The feasibility of a Mg-Zn-Zr alloy for biomedical applications was studied through microstructure c...
The application of biodegradable alloys in orthopedic implants has gained widespread attention globa...
During the recent years, some Mg based alloys have extensively been considered as a new generation o...
As biodegradable biomaterials, magnesium alloys have favorable physical, chemical and mechanical pro...
Biodegradable Mg-based implants are widely used in clinical applications because they exhibit mechan...
Magnesium alloys have been widely explored as potential biomaterials, but several limitations to usi...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Being a biocompatible metal with similar mechanical properties as bones, magnesium bears both biodeg...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
Pure magnesium possesses similar mechanical properties compared to natural human bone, which helps t...
The microstructures, mechanical properties, corrosion behaviour and biocompatibility of the Mg-Zr-Ca...
Abstract Being a biocompatible metal with similar mechanical properties as bones, magnesium bears b...
Zn-based biodegradable metallic materials have been regarded as new potential biomaterials for use a...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
In order to design a potential biodegradable implant, which combines with fine mechanical and antimi...
The feasibility of a Mg-Zn-Zr alloy for biomedical applications was studied through microstructure c...
The application of biodegradable alloys in orthopedic implants has gained widespread attention globa...
During the recent years, some Mg based alloys have extensively been considered as a new generation o...
As biodegradable biomaterials, magnesium alloys have favorable physical, chemical and mechanical pro...
Biodegradable Mg-based implants are widely used in clinical applications because they exhibit mechan...
Magnesium alloys have been widely explored as potential biomaterials, but several limitations to usi...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Being a biocompatible metal with similar mechanical properties as bones, magnesium bears both biodeg...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
Pure magnesium possesses similar mechanical properties compared to natural human bone, which helps t...
The microstructures, mechanical properties, corrosion behaviour and biocompatibility of the Mg-Zr-Ca...
Abstract Being a biocompatible metal with similar mechanical properties as bones, magnesium bears b...
Zn-based biodegradable metallic materials have been regarded as new potential biomaterials for use a...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
In order to design a potential biodegradable implant, which combines with fine mechanical and antimi...