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Rod-like Eutectic Structure in Biodegradable Zn–Al–Sn Alloy Exhibiting Enhanced Mechanical Strength

Cijun Shuai, Lianfeng Xue, Chengde Gao, Shuping Peng, Zhenyu Zhao

2020ACS Biomaterials Science & Engineering20 citationsDOI

Abstract

Zn alloy is recognized as a promising biodegradable metal for bone implant applications because of its good biocompatibility and moderate degradation rate. Nevertheless, the insufficient strength limits its applications. In this study, a rod-like eutectic structure was fabricated in Zn-Al-Sn alloy with the addition of Sn via selective laser melting. It was found that the Al-enriched phase nucleated primarily during cooling and caused the rapid precipitation of Zn. This inevitably consumed the liquid Zn and increased the ratio of Sn to Zn in the liquid phase, resulting in the formation of the eutectic, which was composed of the Sn-enriched phase and the Zn-enriched phase. More importantly, the coupled growth of the Sn-enriched and Zn-enriched phases and their volume differences together led to a rod-like morphology of the eutectic according to the volume fraction theory. Consequently, the yield and ultimate compressive strengths were enhanced to 180 ± 18.8 and 325 ± 29.6 MPa for the Zn-Al-2Sn alloy, respectively. This could be attributed to the pinning effect of the rod-like eutectic, which could block dislocation motion and result in dislocation pile-up, thereby conducing to the mechanical reinforcement. In addition, the Zn-Al-Sn alloy also exhibited good biocompatibility and increased degradation rate because of the enhanced galvanic corrosion. This study showed the potential of rod-like eutectic for the mechanical enhancement of the biodegradable Zn alloy.

Topics & Concepts

Eutectic systemMaterials scienceAlloyVolume fractionBiocompatibilityMetallurgyPhase (matter)PrecipitationComposite materialChemistryOrganic chemistryMeteorologyPhysicsMagnesium Alloys: Properties and ApplicationsAluminum Alloys Composites PropertiesMicrostructure and mechanical properties