Abstract
Corrosion and passivation behavior of new, ternary titanium alloys Ti-10Mo-10Al and Ti-15Mo-5Al in nitric acid solutions of different concentrations (20% and 60%) and temperatures (25○, 50○, and 75○C) is presented in this paper. Electrochemical impedance spectroscopy (EIS) data were obtained at different potentials as Bode plots. The spectra show some deviations from the ideal behavior, which demonstrate the necessity to consider a complex equivalent circuit with two time constants. This equivalent circuit is composed of the uncompensated ohmic resistance of the solution (R Ω ), the double layer capacity (C dl ) in parallel with the polarization resistance (R p ) for a passive film, and a Warburg element (W) associated with a resistance (R 1 ) for the diffusion processes. The anodic polarization curves present the self-passivation of these alloys. Both titanium and its ternary alloys directly pass into a passive state, due to the fact that, in strong oxidizing nitric acid solutions, the titanium directly oxidizes to Ti 4+ ions and spontaneously forms titanium dioxide TiO 2 . The passivation of the titanium alloys is due to the compact and protective film containing titanium dioxide, TiO 2 , and some insoluble molybdenum oxide, MoO 3 .
Key Words:
- Acid solutions
- Bode spectra
- Compact passive TiO2 layers
- Corrosion rates
- Electrochemical impedence spectroscopy technique
- Electrochemical parameters
- Equivalent electric circuits
- Linear polarization
- Mechanical properties
- New ternary titanium alloys
- Passive layers
- Potentiostatic polarization
- Potentiodynamic polarization
- Self-passivation
- Titanium