Development and Corrosion Characterization of Ultra-High-Strength Steels

Potentiodynamic polarization and electrochemical impedance spectroscopy measurements were used to investigate the corrosion behavior and mechanical properties of three different quenched and quenched/tempered ultra-high-strength steel alloys in contact with alkaline and acid aqueous solutions. The results are analyzed on the basis of the corrosion potential Ec on and the corrosion current density I-corr. Continuous anodic dissolution is the main type of corrosion driven by a charge-transfer mechanism in all of the investigated steel conditions irrespective of the phases present. The observed solubilities of iron and its oxides and hydroxides respectively agreed with the reactions Fe2O3 + H2O -> Fe(OH)(2) + and 2Fe(3+) + 3H(2)O -> Fe2O3 + 6H(+). In addition, the Mo and V content played important roles in determining the corrosion levels, as did redox reactions and microconstituents present in the various steel phases. The quenched/tempered steel exhibited the best corrosion and mechanical properties.