AI Article Synopsis
- Recurrence plots (RPs) and recurrence quantification analysis (RQA) are applied to examine the dynamics of electrodissolution and passivation of iron in sulfuric acid solutions with varying chloride concentrations and potentials.
- The study identifies transitions in corrosion behavior, from periodic to chaotic states, and emphasizes the importance of understanding these transitions for predicting corrosion types and mechanisms.
- RQA results indicate that the predictability of the corrosion process is influenced by chloride concentration, showing specific patterns of complexity related to localized pitting corrosion and changes in iron's dissolution state.
Article Abstract
Recurrence plots (RPs) and recurrence quantification analysis (RQA) are used in this work to study different nonlinear dynamical regimes emerging in an electrochemical system, namely, the electrodissolution-passivation of iron in chloride-containing sulfuric acid solutions. Current oscillations at different applied potentials and chloride concentrations exhibit bifurcations from periodic to complex (bursting) periodic and aperiodic or chaotic behaviors, associated with different dissolution states of iron. The clarification of these transitions is essential to understand the type of corrosion (uniform or localized) taking place as well as the underlying mechanisms governing the stability of the metal. The RQA reveals that the predictability of the chloride-perturbed Fe|0.75M HSO system strongly depends on the chloride concentration and the applied potential. At relatively low chloride concentrations, RQA measures, based on vertical and diagonal structures in RPs, display a decrease upon the breakdown of the passivity on iron and the initiation of localized corrosion (pitting). Phases of pitting corrosion (propagation/growth and unstable pitting) that followed pit initiation are discerned by keen changes of complexity measures upon varying the applied potential. At higher chloride concentrations, the evolution of RQA measures with the potential signifies a transition from the passive-active state dissolution to the polishing state dissolution of iron inside pits. The increase of the applied potential at late stages of pitting corrosion increases the nonlinear correlations and thus the complexity of the system decreases, which corroborates the RQA.
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| http://dx.doi.org/10.1063/1.5025801 | DOI Listing |
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