Coating the hydroxyapatite (HA) on the titanium alloy surface can obtain a bioactive implant with high mechanical properties.However,the bonding force between the titanium alloy and the HA was low due to their different coefficient of thermal expansion (CET).Preparing the multi-layer coating with alleviated thermal stress on titanium alloy substrate is few reported.Fabrication of a TiO2-bioactive glass (BG)-HA bioactive coating was proposed to solve this problem.A particular TiO2 surface was prepared on the titanium alloy substrate by micro-arc oxidation treatment.The BG and HA coating were coated onto the TiO2 surface in turn by using a sol-gel method.The microstructure,surface morphology and phase composition of the coatings were analyzed.The bonding force of coatings was investigated by the nick apparatus.In vitro dissolution was performed by soaking the TiO2-BG-HA coated samples into the simulated body fluid for various periods.Micro-structural observations indicated that no delamination and crack occurred at the interface of HA/BG and BG/TiO2.The bonding between the substrate and coating consists of the mechanical interaction and the chemical bonding.The bonding force could reach about 45 N.The TiO2-BG-HA coating displayed the excellent forming ability of bone-like apatite when it was soaked into the simulated body fluid.This work suggests an innovative way to reduce the internal stress among coatings through varying BG composition to adjust its CTE,so as to enhance the bonding force.
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机译:平成28年度论文赏受赏轮文:Effect of Si/Fe Composition, Substrate Temperature, and Substrate Orientation on the Structure and Magnetic Properties of Fe-Si Alloy Film
