Corrosion of nanocrystalline and coarse-grained nickel-iron (Ni-Fe) alloys in neutral and alkaline sulfate environments

Sabatini, Michael; Monaco, L. Lo; Erb, U.

doi:10.1016/j.corsci.2019.108233

Cited by 11 publications

(3 citation statements)

References 59 publications

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“…The above-mentioned unavoidable technical and physical issues encountered by experiments can be circumvented by the first-principles calculations based on density functional theory (DFT), which can yield the accurate Δ f G values for various transition-metal oxides and hydroxides if a precise enough electronic interaction potential (called as electronic density functional in DFT) is applied. ,,− The recently simulated transition-metal Poubaix diagrams not only can comprehensively explain a lot of electrochemical observations reported in previous decades but also have been widely used by many recent electrochemical experiments in the fields of, e.g., corrosion, catalysis, and clean energy to guide the design, synthesis, and characterization analysis of various transition-metal compounds. − Those new first-principles diagrams even have been used in the geological field to understand the rock weathering mechanisms in acid rains on both the ancient Earth and Mars, e.g., the dissolution of Ni oxides and the formation of magnetite (a Fe 3 O 4 -based mineral). ,, The first-principles electrochemical phase diagrams can be further used to study more complex transition-metal systems, e.g., conventional Ni–Cr alloys, multiprincipal element alloys, , complex compounds, and nanoscale passivating films, and have successfully helped precisely understand many passivation, corrosion, and precipitation behaviors, as well as their dependence on both material state and environmental condition. Such success in the thermodynamic and electrochemical calculations of transition-metal systems encourages the use of DFT to obtain reliable Δ f G data for all possible actinide oxides, which can bring the fundamental and historical contribution to the related nuclear fields.…”

Section: Introductionsupporting

confidence: 91%

Environmental Stability of Actinide Oxides Mapped by Integrated and Accurate First-Principles Calculations

Sun,

Ye,

Zhang

et al. 2024

J. Phys. Chem. C

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The synthesis, storage, application, and disposal of various actinide materials in the fields of nuclear-fuel-based clean energy and actinide-metal-based metallurgy always closely correlate with the stabilities of U and Pu oxides in many atmospheric and aqueous environments. It is technologically important to jointly evaluate both the thermodynamic and electrochemical stabilities of actinide oxides there, for which free energy of formation (Δf G) is the key physical quantity. Due to various unavoidable technical and physical challenges in experiments, the Δf G data for these polyvalent oxides have long-standing inaccurate and incomplete problems. Here, we design an integrated first-principles approach to carry out efficient structural screenings, accurate energetic calculations by considering both the exact electronic potential and phononic contribution, and reliable mappings of the thermodynamic and electrochemical phase diagrams for anhydrous and hydrous actinide oxides in different environments (e.g., dry air, humid air, and aqueous solution). Based on the accurate and complete stability-composition-environment relationships constructed here, the established thermodynamic and electrochemical understandings can successfully explain versatile experimental observations on the hydration, oxidation, and corrosion behaviors of actinide oxides. Finally, the isotope effects on Δf G values are quantitatively predicted, revealing that any oxide will have nearly the same stability in environments with light and heavy waters. The systematically accurate electronic structure, thermodynamic stability, and electrochemical stability of actinide oxides as obtained in this work can provide many related theoretical and experimental studies in the future with reliable and desirable numerical references, as well as the comprehensively revealed physical and chemical mechanisms.

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Section: Introductionsupporting

confidence: 91%

Environmental Stability of Actinide Oxides Mapped by Integrated and Accurate First-Principles Calculations

Sun,

Ye,

Zhang

et al. 2024

J. Phys. Chem. C

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show abstract

“…High-fidelity calculations using exact nonlocal exchange potentials can be used to obtain accurate Δ f G values, from which reliable Pourbaix diagrams for transition-metal systems can be constructed and validated 36,37,39,40 . The first-principles Poubaix diagrams for transition metals have also been widely referred to by many recent electrochemical experiments in the fields of, e.g., corrosion [41][42][43][44][45] , catalysis, and energy [46][47][48][49][50][51][52][53][54] , where these diagrams guide the design and characterization of many related materials, and even have been applied to understand geological processes (rock weathering in acid rains) on both the ancient Earth and Mars 55,56 .…”

Section: Introductionmentioning

confidence: 99%

Elemental partitioning and corrosion resistance of Ni–Cr alloys revealed by accurate ab-initio thermodynamic and electrochemical calculations

Huang,

Xie,

Sieradzki

et al. 2023

npj Mater Degrad

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Elemental partitioning during thermal processing can significantly affect the corrosion resistance of bulk alloys operating in aggressive electrochemical environments, for which, despite decades of experimental and theoretical studies, the thermodynamic and electrochemical mechanisms still lack accurate quantitative descriptions. Here, we formulate an ab initio thermodynamic model to obtain the composition- and temperature-dependent free energies of formation (ΔfG) for Ni–Cr alloys, a prototypical group of corrosion-resistant metals, and discover two equilibrium states that produce the driving forces for the elemental partitioning in Ni–Cr. The results are in quantitative agreement with the experimental studies on the thermodynamic stability of Ni–Cr. We further construct electrochemical (potential–pH) diagrams by obtaining the required ΔfG values of native oxides and (oxy)hydroxides using high-fidelity ab-initio calculations that include exact electronic exchange and phononic contributions. We then analyze the passivation and electrochemical trends of Ni–Cr alloys, which closely explain various oxide-film growth and corrosion behaviors observed on alloy surfaces. We finally determine the optimal Cr content range of 14–34 at%, which provides the Ni–Cr alloys with both the preferred heat-treatment stability and superior corrosion resistance. We conclude by discussing the consequences of these findings on other Ni–Cr alloys with more complex additives, which can guide the further optimization of industrial Ni–Cr-based alloys.

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“…Esta observação está em acordo com a literatura [152,153,104] que aborda do ponto de vista prático sobre o conceito da junção tripla ou múltipla ser uma região muito mais propensa a corrosão. É proposto por diversos autores os fatores que influenciam nessa região a corrosão, dentre eles; região de alta energia com elevados teores de impurezas [154], aspectos geométricos onde o ataque na superfície do metal poderia abrir um caminho unidimensional o qual poderia favorecer a corrosão por pites [155] e consequentemente uma reação autocatalítica e região empobrecida de elementos fundamentais para formação e estabilização do filme passivo [156].…”

Section: Simulação Termodinâmica Computacionalunclassified

Caracterização Por Ebsd De Aços Inoxidáveis Uns S32304 E Uns S32750 Submetidos a Diferentes Tratamentos Térmicos

RIBEIRO¹

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Corrosion of nanocrystalline and coarse-grained nickel-iron (Ni-Fe) alloys in neutral and alkaline sulfate environments

Cited by 11 publications

References 59 publications

Environmental Stability of Actinide Oxides Mapped by Integrated and Accurate First-Principles Calculations

Environmental Stability of Actinide Oxides Mapped by Integrated and Accurate First-Principles Calculations

Elemental partitioning and corrosion resistance of Ni–Cr alloys revealed by accurate ab-initio thermodynamic and electrochemical calculations

Caracterização Por Ebsd De Aços Inoxidáveis Uns S32304 E Uns S32750 Submetidos a Diferentes Tratamentos Térmicos

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