Fabrication of TiO₂/SiO₂ Composite Coating via a High-Temperature Self-Organizing Microporous TiO₂ Layer on Ti

Abstract

We studied the fabrication of a TiO₂/SiO₂ composite coating on Ti. At a temperature above 1100 K with oxygen partial pressure, a self-organized coating of rutile phase TiO₂ is formed on a Ti substrate. The thick TiO₂ coating (> 10 μm) had a “piecrust-like” multilayer structure, which comprise TiO₂ monolayers and gaps. A composite coating containing SiO₂ was fabricated via a sol-gel method in vacuum to improve the exfoliation strength of the brittle, porous TiO₂ coating. Cross-sectional SEM images revealed sufficient amounts of SiO₂ in the gaps between the TiO₂ monolayers in the TiO₂/SiO₂ composite coating, even at the interface between the oxide coating and the substrate. Exfoliation stress of the composite coating was up to 10–15 times higher than for the self-organized TiO₂ coating alone, and the composite coating's failure mode was interfacial compared with cohesive for the self-organized TiO₂ coating.

Fig. 1 Basic concept of SiO₂/TiO₂ composite coating fabrication using a vacuum sol-gel method. Top: piecrust-like TiO₂ coating made via high-temperature oxidation on Ti; middle: after implantation of SiO₂ gel; bottom: TiO₂/SiO₂ composite coating after sintering.