Objective: To explore the effect of changes of processing time on the surface properties of titanium coating formed by micro-arc oxidation (MAO).
Methods: Forty-four disc-shaped pure titanium specimens with 10 mm diameter and 1 mm thickness were equally divided into 4 groups and processed by MAO technique in electrolytes containing 0.2 mol/L calcium acetate (CA) and 0.02 mol/L β-glycerol phosphate disodium salt pentahydrate (β-GP). The processing time were set at 1 min, 5 min, 10 min and 15 min respectively. The topograph of the MAO film surface and the film-substrate interface was observed by a scanning electron microscopy (SEM), and the composition was analyzed by an energy dispersive spectroscope (EDS) incorporated in the SEM. The phase and the microstructure of the film were analyzed by X-ray diffraction (XRD). The roughness of the film was measured using a roughness tester. The surface static contact angle was detected by a contact angle measurement instrument and the surface energy was calculated accordingly.
Results: With the increase of processing time from 1 min to 15 min, the pore size increased from (1.30 ± 0.07) µm to (1.55 ± 0.09) µm, and film thickness increased from (10.2 ± 1.1) µm to (20.9 ± 2.9) µm. The content of the Ca in the film increased accordingly, and Ca/P increased from 1.99 to 2.45, and the surface energy increased from 24.62 mJ/m(2) to 39.49 mJ/m(2). Meanwhile, the XRD pattern indicated that rutile increased but anatase and titanium decreased gradually. At the time of 15 min, part of the MAO film peeled off.
Conclusions: Processing time has impact on the thickness, surface topography, crystal component and surface energy of titanium MAO coating. MAO film treated for 5 - 10 min demonstrated favorable surface properties.