Microstructural, mechanical and anticorrosion characterisation of new CoCrNbMoZr alloy

Abstract

In this paper, the microstructure, mechanical and anticorrosive properties of the new CoCrNbMoZr alloy were studied in comparison with those of the commercial CoCrMo, Heraenium CE alloy. SEM and XRD techniques were used to evince the microstructure, and the morphology of the two alloys. Electrochemical linear and potentiodynamic polarisation and electrochemical impedance spectroscopy methods showed the electrochemical and corrosion behaviour of the alloys in artificial Carter‐Brugirard saliva of different composition (doped with NaF, pH = 8.21 and undoped) and pH values (3.83; 7.84; 9.11) simulating the various functional conditions from the oral cavity. The new CoCrNbMoZr alloy showed self‐passivation, more favourable values of the corrosion, passivation and transpassive potentials and tendency to passivation than those of the commercial Heraenium CE alloy and lower values of the passive current density; the values of the corrosion current densities and corrosion rates are lower and polarisation resistances are higher comparing with those of the reference alloy. EIS spectra revealed a passive film, a compact, resistant layer formed especially by the chromium, cobalt, niobium and zirconium oxides. Taking into consideration the microstructural features, electrochemical behaviour, corrosion resistance, and mechanical characteristics, it results that the new CoCrNbMoZr alloy is recommended for the dental applications.