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Novel Biodegradable Zn Alloy with Exceptional Mechanical and In Vitro Corrosion Properties for Biomedical Applications

Ehsan Farabi, Julie A. Sharp, Alireza Vahid, Jiangting Wang, Daniel Fabijanic, Matthew Barnett, Santiago Corujeira Gallo

2021ACS Biomaterials Science & Engineering18 citationsDOIOpen Access PDF

Abstract

A series of quaternary Zn-Al-Cu-Li alloys with different weight fractions of Cu, Al, and Li were developed and investigated for potential application in high load bearing bioresorbable implants. The developed alloys provided various fractions of binary and ternary intermetallic structures, which resulted in formation of multiphase microstructures containing a zinc-rich η-phase and LiZn4 and CuZn4 phases. The intermetallic phases promoted grain refinement and a good combination of mechanical properties. The developed Zn-2Al-4Cu-0.6Li alloy showed strength and ductility close to commercially pure Ti alloys with a UTS value of ∼535 MPa and elongation of 37%. The examination of in vitro corrosion behavior of the developed alloys in the modified Hanks’ solution revealed suitable corrosion rates (∼38.5 μm/year). The moderate corrosion rate was controlled by the formation of a homogeneous layer of stable corrosion products that protected the alloys from the corrosive environment, particularly in the late stages of immersion. The developed alloys with the most promising mechanical and corrosion properties appeared to be biocompatible to mouse fibroblast cells and human umbilical mesenchymal stem cells, making them suitable candidates for implant applications.

Topics & Concepts

CorrosionMaterials scienceIntermetallicAlloyMetallurgyMicrostructureGrain boundaryDuctility (Earth science)Ternary operationElongationUltimate tensile strengthCreepComputer scienceProgramming languageMagnesium Alloys: Properties and ApplicationsOrthopaedic implants and arthroplastyAluminum Alloys Composites Properties