Kinetics of the zinc anodic dissolution reaction in near neutral EDTA solutions

Polarization curves of the anodic dissolution reaction of zinc were determined in EDTA solutions of different total molar concentrations (0.05 0.10, 0.15 and 0.20 mol dm-3), the pH values of which were systematically varied (pH 3.0 – 10.0). The Tafel slopes of the anodic polarization curves are close to 40 mV dec-1 at lower current densities (10-5 – 5x10-4 A cm-2) while at higher current densities (5x10-4 – 10-2 A cm-2) the slopes are in the range of 60 – 120 mV dec-1. The order of the anodic reaction determined from the anodic polarization curves at lower current densities are: z+(H+) ≈– 1/2 for pH < 8 and z+(H+) ≈1 for pH > 8, while z+(H4Y) ≈1 for all pH values of the examined EDTA solutions. On the basis of these results, two mechanisms of the zinc anodic dissolution reaction are proposed: at pH < 8 and at pH > 8. In both cases the relevant EDTA species directly participate as reactants in the anodic reaction. The dependences of the corrosion potential on pH and on total molar EDTA concentration indicate that the relevant EDTA species take part as reactants in both the cathodic (hydrogen evolution) and anodic (zinc dissolution) reactions of the zinc corrosion process.