Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/49028
Título: Anodic passivity of some titanium base alloys in aggressive environments
Autores/as: Popa, M. V.
Vasilescu, E.
Drob, P.
Anghel, M.
Vasilescu, C.
Mirza-Rosca, I. 
Lopez, A. Santana
Palabras clave: Oxide-Film
Hydrochloric-Acid
Raman-Spectra
Growth
Impedance, et al.
Fecha de publicación: 2002
Editor/a: 0947-5117
Publicación seriada: Materials and Corrosion - Werkstoffe und Korrosion 
Resumen: The passivity of titanium, binary Ti-15Mo and ternary Ti-15Mo5Al alloys in hydrochloric acid solutions was studied by potentiostatic, potentiodynamic, linear polarization and electrochemical impedance spectroscopy (EIS) techniques. The anodic passivity of binary Ti-15Mo and ternary Ti-15Mo-5Al titanium alloys differs from that of the base metal in hydrochloric acid solutions. The corrosion potentials of both alloys are nobler than of the titanium because the beneficial effect of molybdenum. The critical passivation current density for binary Ti-15Mc, alloy is higher than of titanium; this fact can be explained by the instability of the constituent phases in hydrochloric acid solutions. Ternary Ti-15Mo-5Al alloy exhibits two critical passivation current densities (i(cr1) and i(cr2)) with higher values than of the base metal and two critical passivation potentials (E-cr1 and E-cr2); at the first critical passivation potential (E-cr1) the porous titanium trioxide (Ti3O5) is formed and at the second critical passivation potential (E(c)r2) this oxide is converted to a still higher valence oxide, the compact and protective titanium dioxide (TiO2). The dissolution current densities in the passive range of alloys are higher than of the base metal due the dissolution of the alloying elements in this potential range. The alloys are more resistant than titanium presenting lower corrosion rates. A three time constants equivalent circuit was fitted: one time constant is for the double layer capacity (C-dl) and for the passive film (R-p); another time constant is for the charge transfer reactions visualised by a constant phase element (CPE) and a resistance (R-1); the third time constant is for diffusion processes through the passive film represented by a resistance (R-2) and a Warburg element (W).
URI: http://hdl.handle.net/10553/49028
ISSN: 0947-5117
DOI: 10.1002/1521-4176(200201)53:1<51::AID-MACO51>3.0.CO;2-6
Fuente: Materials and Corrosion[ISSN 0947-5117],v. 53, p. 51-55
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