Abstract: (30352 Views)
Abstract: In chloride salt solutions, titanium alloys exhibit reasonably high pitting potentials as
high as +10 V (vs. Ag/AgCl) at room temperatures. On the other hand, anodic pitting potentials
are significantly lower in bromide solutions. In this study, pitting corrosion of commercially pure
titanium in aqueous NaBr solution of 0.1 M concentration at room temperature was studied and
the effect of an external magnetic field oriented both parallel and perpendicular to electrode
surface was investigated. Cyclic potentiodynamic and potentiostatic polarization tests were
carried out. Anodic breakdown potential of +1.45 V (vs. Ag/AgCl) obtained in the absence of
magnetic field, decreasing to +1.11 V in the presence of a 0.05 T parallel magnetic field. The
perpendicular magnetic field actually did not affect the breakdown potential. Applying of an
external magnetic field, independent of its orientation, shifted the repassivation potential
approximately 150 mV in the positive direction. SEM microscopy observations of sample surfaces
indicated that applying of magnetic field results in some variations in the pit shapes and their
sizes.
Type of Study:
Research Paper |