Structure and tensile/wear properties of microarc oxidation ceramic coatings on aluminium alloy

摘要

Thick and hard ceramic coatings were prepared on the Al-Cu-Mg alloy by microarc oxidation in alkali-silicate electrolytic solution. The thickness and microhardness of the oxide coatings were measured. The influence of current density on the growth rate of the coating was examined. The microstructure and phase composition of the coatings were investigated by means of scanning electron microscopy, energy dispersive spectroscopy, and X-ray diffraction. Moreover, the tensile strength of the Al alloy before and after microarc oxidation treatment were tested, and the fractography and morphology of the oxide coatings were observed using scanning electron microscope. It is found that the current density considerably influences the growth rate of the microarc oxidation coatings. The oxide coating is mainly composed of a-Al_2 O_3 and 7-Al_2 O_3, while high content of Si is observed in the superficial layer of the coating. The cross-section microhardness of 120 m thick coating reaches the maximum at distance of 35 f-m from the substrate/coating interface. The tensile strength and elongation of the coated Al alloy significantly decrease with increasing coating thickness. The microarc oxidation coatings greatly improve the wear resistance of Al alloy, but have high friction coefficient which changes in the range of 0. 7 - 0. 8. Under grease lubricating, friction coefficient is only 0. 15 and wear loss is less than 1/10 of the loss under dry friction.