Fabrication, characterization and wear corrosion testing of bioactive hydroxyapatiteano-TiO_2 composite coatings on anodic Ti-6A1-4V substrate for biomedical applications

摘要

This study elucidated structure and mechanical properties of the electroplated hydroxyapatiteano-TiO_2 composite coatings on Ti-6A1-4V alloy. Their effect on the corrosion and wear corrosion resistance in Hanks' solution was examined as well. The anodizing process was performed on Ti-6AI-4V alloy surface to enhance the adhesion of these composite coatings on Ti alloy. Anodizing treatment was then conducted at 10V at room temperature with different times of 40, 50, 60, 120 and 180min. Experimental results indicate that the hardness of Ti-6A1-4V alloy was increased due to the anodizing treatment, capable of improving the adhesion of electroplated calcium phosphate coating in addition to the electroplated hydroxyapatiteano-TiO_2 composite coatings. Additionally, the coatings on anodic substrate exhibited a higher uniformity and Ca/P ratio and thickness than that on nonanodized substrate. The nano-TiO_2 particles could be co-deposited on the Ti-6A1-4V alloys and capable of reinforcing the hydroxyapatite coating, subsequently increasing the hardness and refining the structure. Moreover, the corrosion and wear corrosion resistance of the electroplated hydroxyapatiteano-TiO_2 composite coatings were also improved significantly when increasing the duration of anodizing alloy substrates.