A comprehensive mathematical model, including electrode kinetics, hydrolysis and complexation reactions, salt film precipitation and pit interface movement, was developed to investigate pit growth of 316L stainless steel under a salt film. The new mathematical framework incorporates activity coefficients into the hydrolysis and complexation reaction calculations for the first time, using experimental results to parametrize the electrode kinetics in a saturated pit solution. The model was validated by 1D pit experiments and results documented in the literature. It can successfully estimate the transition potentials, salt film thickness, pit stability product, saturated pit concentration, and the pH at the pit base during pit propagation under the presence of a salt film. Moreover, the model can predict the Cr enrichment and Fe depletion in the saturated solution at the pit base, attributed to the higher diffusion coefficient of Fe and the lower Cr diffusivity.
CITATION STYLE
Wang, K., Salasi, M., & Iannuzzi, M. (2021). A Comprehensive Numerical Model for One-Dimensional Pit Growth of 316L SS under a Salt Film. Journal of The Electrochemical Society, 168(12), 121504. https://doi.org/10.1149/1945-7111/ac3d01
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