Characterization of microarc oxidation coatings on pure titanium
来源期刊:Rare Metals2003年第1期
论文作者:XUE Wenbin, WANG Chao, Li Yongliang, and CHEN RuyiKey Laboratory for Beam Technology and Materials Modification, Institute of Low Energy Nuclear Physics, Beijing Normal University, Beijing , China
文章页码:42 - 48
摘 要:<正> The morphology, composition, and phase structure of the oxide coatings produced on the surface of pure titanium by alternating-current microarc discharge in aluminate solution were investigated by X-ray diffraction and scanning electron microscopy. The profiles of the hardness H and the elastic modulus E in the coatings were determined using a nanoindenta-tion method. The concentration distributions of Ti, Al, and O in the coating show that this coating over 30 μm thick contains two layers: an outer layer and an inner layer. The oxide coating is mainly composed of TiO2 rutile and Al2TiO5 compounds. During oxidation, the temperature in the microarc discharge channel was very high to make the local coating molten. From the surface to the interior of the coating, H and E increase gradually, and then reach maximum values of 9.78 GPa and 176 GPa respectively at a distance of 7μrn from the coating/titanium interface. They are also rather high near the interface.
摘要:<正> The morphology, composition, and phase structure of the oxide coatings produced on the surface of pure titanium by alternating-current microarc discharge in aluminate solution were investigated by X-ray diffraction and scanning electron microscopy. The profiles of the hardness H and the elastic modulus E in the coatings were determined using a nanoindenta-tion method. The concentration distributions of Ti, Al, and O in the coating show that this coating over 30 μm thick contains two layers: an outer layer and an inner layer. The oxide coating is mainly composed of TiO2 rutile and Al2TiO5 compounds. During oxidation, the temperature in the microarc discharge channel was very high to make the local coating molten. From the surface to the interior of the coating, H and E increase gradually, and then reach maximum values of 9.78 GPa and 176 GPa respectively at a distance of 7μrn from the coating/titanium interface. They are also rather high near the interface.
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