Abstract
Various kinds of biodegradable Mg alloys have been developed in recent years due to their appropriate mechanical properties, biodegradation, and good biocompatibility. In this study, Mg-2.0Zn-xGd alloys (x = 0.5, 1.0, 1.5, and 2.0 wt %) were prepared. Hot extrusion was applied in order to refine the microstructure and improve the degradation resistance. The microstructure, mechanical properties, and in vitro degradation behavior of Mg-2.0Zn-xGd alloys were investigated first. The as-extruded Mg-2.0Zn-1.0Gd alloy exhibits excellent mechanical properties (UTS 338 MPa, YS 284 MPa, elongation 24%) and low in vitro degradation rate (0.24 mm/year) with uniform degradation morphology, and then, this alloy was selected for further assessments. The cytotoxicity of as-extruded Mg-2.0Zn-1.0Gd alloy to MC3T3-E1 cell is found to be grade 0-1, indicating good biocompatibility. The in vivo experiment shows that the in vivo degradation rate of this alloy is about 0.31 mm/y after 30 days implantation in cranial defect of Sprague-Dawley rats. All of these indicate a promising prospect of Mg-2.0Zn-1.0Gd alloy as biodegradable applications, especially as orthopedic implants.
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