Reduction of the biodegradation rate of MgZnSrCa alloy by use of a biomimetic apatite coating
Abstract
Purpose
The purpose of this study is to develop new biodegradable magnesium alloy. Magnesium possesses similar mechanical properties to natural bone; it is a potential candidate for resorbable implant applications. However, in physiological conditions, the degradation rate of Mg is too high to be used as an implant material.
Design/methodology/approach
In this research, Zn, Sr and Ca were chosen as alloying elements; a coating was deposited on the MgZnSrCa alloy surface by means of a biomimetic technique. The corrosion rates of the uncoated and coated specimens were tested in simulated body fluid.
Findings
The hydroxyapatite coating formed on the MgZnSrCa alloy surface and the hydroxyapatite layer markedly decreased the corrosion rate of the MgZnSrCa alloy.
Originality/value
A homogenous hydroxyapatite coating was formed on the MgZnSrCa alloy surface by using a biomimetic coating technique. The biomimetic hydroxyapatite coating markedly reduced the corrosion rate of the MgZnSrCa alloy, and the largest decrease in wastage rate was 44 per cent.
Keywords
Acknowledgements
Financial support from both Liaoning Province Science Foundation (201403798) and Shenyang Science Foundation (F14-231-1-03 and F15-139-9-42) is gratefully acknowledged.
Citation
Zhang, Y., Shi, G., Liu, Y., Wu, Q., Yang, W. and Zhao, L. (2016), "Reduction of the biodegradation rate of MgZnSrCa alloy by use of a biomimetic apatite coating", Anti-Corrosion Methods and Materials, Vol. 63 No. 3, pp. 226-230. https://doi.org/10.1108/ACMM-11-2015-1614
Publisher
:Emerald Group Publishing Limited
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