Mechanism of microarc oxidation on AZ91D Mg alloy induced by β-Mg17Al12 phase

This work proposed a strategy of indirectly inducing uniform microarc discharge by controlling the content and distribution ofβ-Mg17Al12phase in AZ91D Mg alloy. Two kinds of nano-particles(ZrO2and TiO2) were designed to be added into the substrate of Mg alloy by friction stir processing(FSP). Then, Mg alloy sample designed with different precipitated morphology of β-Mg17Al12phase was treated by microarc oxidation(MAO) in Na3PO4/Na2SiO3electrolyte. The characteristics and performance of the MAO coating was analyzed using scanning electron microscopy(SEM), energy dispersive spectrometer(EDS), X-ray diffraction(XRD), X-ray photoelectron spectroscopy(XPS), contact angle meter, and potentiodynamic polarization. It was found that the coarse α-Mg grains in extruded AZ91D Mg alloy were refined by FSP, and the β-Mg17Al12phase with reticular structure was broken and dispersed. The nano-ZrO2particles were pinned at the grain boundary by FSP, which refined the α-Mg grain and promoted the precipitation of β-Mg17Al12phase in grains. It effectively inhibited the “cascade” phenomenon of microarcs, which induced the uniform distribution of discharge pores. The MAO coating on Zr-FSP sample had good wettability and corrosion resistance. However, TiO2particles were hardly detected in the coating on TiFSP sample.