2016
DOI: 10.1149/2.0151614jes
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Ab Initio Monte Carlo Simulations of the Acidic Dissolution of Stainless Steels: Influence of the Alloying Elements

Abstract: International audienceAcidic dissolution of ferritic stainless steels is simulated using the ab initio based Monte Carlo technique. This approach aims to reach a better understanding of the effect of alloying elements on the acidic dissolution of SS at the microscopic scale. The dissolution probability of a surface atom is shown to depend drastically on the number and chemical nature of its nearest neighbors in dense emerging crystallographic planes. A "critical coordination number" (CCN) is defined, above whi… Show more

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Cited by 7 publications
(23 citation statements)
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“…We speculate that anodic dissolution kinetics of alloys are governed by their chemical composition, reflected in atomic bonding [48]. The enhanced Cu release on Cu-Sn may be understood by considering atomic bonding of Cu and Sn in solid solution.…”
Section: Effect Of Sn: Enhanced Dissolution and Passivitymentioning
confidence: 95%
See 1 more Smart Citation
“…We speculate that anodic dissolution kinetics of alloys are governed by their chemical composition, reflected in atomic bonding [48]. The enhanced Cu release on Cu-Sn may be understood by considering atomic bonding of Cu and Sn in solid solution.…”
Section: Effect Of Sn: Enhanced Dissolution and Passivitymentioning
confidence: 95%
“…Cu atoms surrounding the Sn solute consequently have increased anodic activity resulting in greater dissolution rates. Indeed, solute elements such as Cr are also dissolution promoters in Fe solvents (stainless steels) [48,50], though the stable passive Cr 2 O 3 film typically conceals this effect at higher Cr alloying contents (e.g., 13 wt% Cr). Sn-enhanced cuprous ion release was observed for both Cu-Sn alloys, but was functionally different for the two alloys.…”
Section: Effect Of Sn: Enhanced Dissolution and Passivitymentioning
confidence: 99%
“…In a recent paper, we developed a numerical approach (the details of which are published elsewhere) 1 that describes the dissolution process of a metallic alloy by means of the Ab initio based Monte Carlo simulation techniques (AbMC) method. We succeeded in formulating a general expression of the dissolution probability of any given SS grade as a function of its chemical composition, crystallographic microstructure and the environmental variables (pH and applied potential).…”
mentioning
confidence: 99%
“…According to the literature, the activation energy of chemical dissolution is usually estimated using empirical models of physical properties, 53 such as bond energy 54,55 and surface energy. 56 Taylor 57 simulated the dissociation of Cu atoms from nanoparticles under vacuum and in the presence of water molecules, showing that the presence of solvent molecules softens the dissociation of Cu atoms from the surface compared to a similar process occurring in a vacuum.…”
Section: Resultsmentioning
confidence: 99%