2015
DOI: 10.1149/2.0721603jes
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Mass and Charge Balance (MCB) Model Simulations of Current, Oxide Growth and Dissolution during Corrosion of Co-Cr Alloy Stellite-6

Abstract: A mass and charge balance (MCB) model that can simulate oxide growth and dissolution kinetics simultaneously during corrosion of an alloy has been recently developed. In this study, the MCB model was applied to the corrosion of the Co-Cr alloy Stellite-6. The construction of the model and the assignment of values to the rate parameters for the model are presented. The model simulation results are then compared with experimental corrosion data collected as a function of pH, temperature and polarization potentia… Show more

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Cited by 10 publications
(11 citation statements)
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“…For parallel reactions, the yields of their products are proportional to their relative rates. 42,46,47,58,59 For CS corrosion the oxidation of iron to progressively higher oxidation state cations (Fe II to Fe II /Fe III and to Fe III ) occurs in sequence, while each oxidized iron species can follow two parallel reaction pathways, dissolution into solution or solid oxide formation. Thus, the rates of dissolution and oxide formation of each metal cation (R Diss# and R MO# , respectively) formed from metal oxidation are not independent of each other and are related to the oxidation rate that produces the metal cation (R OX# ):…”
Section: Proposed Mechanism For Evolution Of Cs Corrosionmentioning
confidence: 99%
“…For parallel reactions, the yields of their products are proportional to their relative rates. 42,46,47,58,59 For CS corrosion the oxidation of iron to progressively higher oxidation state cations (Fe II to Fe II /Fe III and to Fe III ) occurs in sequence, while each oxidized iron species can follow two parallel reaction pathways, dissolution into solution or solid oxide formation. Thus, the rates of dissolution and oxide formation of each metal cation (R Diss# and R MO# , respectively) formed from metal oxidation are not independent of each other and are related to the oxidation rate that produces the metal cation (R OX# ):…”
Section: Proposed Mechanism For Evolution Of Cs Corrosionmentioning
confidence: 99%
“…3. More details on this quantitative AES depth profile analysis method can be found in references [25,45].…”
Section: Aes Depth Profilesmentioning
confidence: 99%
“…In the presence of oxide on a corroding surface a net flux of positive charge flows from the metal to the solution phase through the oxide layer. To account for the net cation transfer through a solid oxide lattice, many mechanisms, such as transport of cation and anion vacancies, transport through interstitials and electron hopping (or ion exchanges), have been proposed and incorporated in corrosion kinetic models [12,[25][26][27][28][29][30][31].…”
Section: Oxide Growth and Dissolution Mechanism During Corrosion Of Imentioning
confidence: 99%
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