Abstract
This work investigates the microstructure and corrosion resistance of the oxide layer on Mg 95Zn 4.3Y 0.7 alloy powder consolidates prepared by plasma electrolytic oxidation (PEO). The oxide layers on the Mg 95Zn 4.3Y 0.7 alloy samples exhibited surface morphology typical of bulk Mg and Mg alloys treated using the PEO process, regardless of the thickness of the layer. The polarization resistance of the oxide layer increased as the thickness of the layer increased. The best corrosion resistance was obtained for the sample with a 30 μm oxide layer. All samples were produced using an electrolyte containing K 4P 2O 7. A reasonable equivalent circuit to analyze the corrosion behavior of Mg 95Zn 4.3Y 0.7 alloy was established, and the fitting results were consistent with the results of electrochemical impedance spectroscopy (EIS) testing. These results explain the relationship of enhanced corrosion resistance to the thickness of oxide layer in environments containing Cl − ions.
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