The aim of this research is to investigate the electrochemical behavior of TiO2 which was obtained from different pickling methods of ￡\-Ti and then oxidized at 350 as well as 750￠J. The RCE electrode was made from pure titanium and titanium oxide was used in all experiments. Anodic polarization and AC impedance test of the RCE were carried out in 1 M H2SO4 solution; furthermore, SEM, EDS, and XRD were used to observe and analyze the interfacial microstructure of pure titanium and titanium oxide. From the results, the anodic passive current decreased with increasing the oxidation temperature of ￡\-Ti. The similar results were also achieved with AC impedance test polarized in the passive potential, the higher oxidation temperature and the lower the charge-transfer resistance (Rct).The width of the surface crack enlarged as the oxidation temperature was raised, but the passive dissolution rate increased with increasing the surface-crack width. The XRD results show that TiO2 structure could be unstable anatase or stable rutile at different oxidation temperatures. Besides, the oxides may have different color when TiO2 was constructed in different valence bond.