The bifunctional role played by thiocyanate anions on the active dissolution and the passive film of titanium in hydrochloric acid
Ibrahim H. Elshamy; Sayed S. Abd El Rehim; Magdy A.M. Ibrahim; Nobl F. El Boraei;
Abstract
The electrochemical behaviour of titanium dissolution and passivation in HCl was examined with and
without the SCN− anions using potentiodynamic polarisation, electrochemical impedance
spectroscopy, and current transients techniques. The nature of the Ti oxide film was characterised
by utilising XPS and SEM tools. The corrosion current icorr, the critical passivation current icc, and
the passive current ipass values increased significantly when the HCl concentration, scan rate, and
temperature were raised. On the contrary, the addition of SCN− anions decreases the icorr value,
indicating that the Ti dissolution was inhibited as a result of SCN− adsorption on the Ti surface.
The inhibition efficiency increased with increasing the concentration of SCN−. However, SCN−
anions lead to destabilised passivity in the passive zone. The formation of the Ti oxide film is a
diffusion-controlled operation, as shown by the i–t curves. According to the XPS measurements,
the passive oxide coating consists mainly of TiO2 and less of Ti2O3.
without the SCN− anions using potentiodynamic polarisation, electrochemical impedance
spectroscopy, and current transients techniques. The nature of the Ti oxide film was characterised
by utilising XPS and SEM tools. The corrosion current icorr, the critical passivation current icc, and
the passive current ipass values increased significantly when the HCl concentration, scan rate, and
temperature were raised. On the contrary, the addition of SCN− anions decreases the icorr value,
indicating that the Ti dissolution was inhibited as a result of SCN− adsorption on the Ti surface.
The inhibition efficiency increased with increasing the concentration of SCN−. However, SCN−
anions lead to destabilised passivity in the passive zone. The formation of the Ti oxide film is a
diffusion-controlled operation, as shown by the i–t curves. According to the XPS measurements,
the passive oxide coating consists mainly of TiO2 and less of Ti2O3.
Other data
| Title | The bifunctional role played by thiocyanate anions on the active dissolution and the passive film of titanium in hydrochloric acid | Authors | Ibrahim H. Elshamy; Sayed S. Abd El Rehim; Magdy A.M. Ibrahim; Nobl F. El Boraei | Keywords | Titanium;HCl;thiocyanate;SEM;XPS | Issue Date | Jul-2022 | Publisher | Tylor & Francis | Journal | Corrosion Engineering Science and Technology | Volume | 57 | Issue | 1478-422X | Start page | 542 | End page | 552 | DOI | https://doi.org/10.1080/1478422X.2022.2099334 |
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