Porous TiO2 layer was fabricated on the titanium surface using an anodic spark oxidation technique for biomedical application. The microstructural and mechanical characterization of TiO2 layer was performed. Results show that the fabricated TiO2 layer exhibited a porous surface and poorly-crystallized structure, and an inner layer containing numerous cavities was observed near the oxide-sub-strate interface. The mechanical characteristics of TiO2 layer were greatly influenced by its microstructural features. The performed shear test showed that the shear fracture of oxide layer took place primarily within the cavity-containing layer. The performed tensile fatigue loading resulted in multiple cracking to occur in the oxide layer with distinctive inclined cracking driven by slip band in the titanium substrate, and localized spallation of oxide layer was also observed. Despite extensive fatigue damage in the oxide layer, the fatigue life of titanium was not significantly influenced by the present anodization treatment.
CITATION STYLE
Chen, Z. X., Wang, W. X., Takao, Y., Matsubara, T., & Ren, L. M. (2012). Microstructural and mechanical characterization of the porous anodic TiO2 layer on titanium. In Interface Oral Health Science 2011 (pp. 255–256). Springer Japan. https://doi.org/10.1007/978-4-431-54070-0_73
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