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W2597145172 endingPage "146" @default.
W2597145172 startingPage "137" @default.
W2597145172 abstract "There have been extensive experimental observations of the anisotropic corrosion behavior of metals and alloys, and their mechanisms were assumed to be correlated with the so-called surface energy or the work function. However, to date, a specified mechanism or theory to interpret anisotropic corrosion behavior remains unclear. Here, we determine the anisotropic anodic dissolution of metals and alloys in corrosive environments by developing a formula to specify the relationship between the electrode potential (U) and the current density (I) by considering the basic parameters of our defined surface energy density (Esurf/ρ) and the work function (Φ). Therefore, we build an ab initio model to evaluate the anisotropic anodic dissolution behavior of metals and alloys using the inputs obtained within density functional theory. This theory is further validated in the case of variations in the crystallographic planes of Mg. Moreover, some selected alloying additions such as Ga, Cd, Hg, In, As, and Cr are theoretically elucidated to effectively reduce the anodic dissolution rates of the Mg matrix to some extent, in close agreement with available experimental observations. This model is capable of predicting the anisotropic anodic dissolution behavior, providing a promising perspective for designing better corrosion-resistant alloys." @default.
W2597145172 created "2017-03-23" @default.
W2597145172 creator A5001827370 @default.
W2597145172 creator A5002378444 @default.
W2597145172 creator A5023498466 @default.
W2597145172 creator A5079753361 @default.
W2597145172 creator A5080509514 @default.
W2597145172 creator A5085654199 @default.
W2597145172 date "2017-05-01" @default.
W2597145172 modified "2023-10-11" @default.
W2597145172 title "First-principles modeling of anisotropic anodic dissolution of metals and alloys in corrosive environments" @default.
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W2597145172 doi "https://doi.org/10.1016/j.actamat.2017.03.027" @default.
W2597145172 hasPublicationYear "2017" @default.
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