Abstract
Transport-limited dissolution of metals in corrosion pits is associated with the product of the metal ion diffusion coefficient and total concentration of metal ions (DM+·Ctot). In one dimensional (1D) pit dissolu-tion, the concentration of ionic species varies with location in the pit; at the dissolving pit bottom, the saturation of metal ion and supporting anion is ex-pected under transport control conditions, while the metal ion is nearly depleted at the pit mouth. To describe metal ion transport through pit solution with constantly-changing concentration, an effective diffusion coefficient (Deff) is proposed in this study with consideration of the combined effects of vis-cosity, temperature and electric field inside a grow-ing 1D pit. The modeled Deff·Ctot values were calcu-lated and compared with experimental DM+·Ctot val-ues for S13Cr 1D pit dissolution in different bulk chloride concentrations at 85°C. The modeled Deff·Ctot values were very close to the experimental values, validating the modeling approach suggested in this study.