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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

2026 Technical Division Student Poster Contest

Presentation Title

SPG-92: Phase-Field Modeling of the Transition From Protective External Oxides to Internal Oxidation in Ni-Cr Alloys

Author(s)

Ziming Zhong, Kumar Ankit

On-Site Speaker (Planned)

Ziming Zhong

Abstract Scope

In Ni–Cr alloys, the critical shift from protective external oxide scales to detrimental internal precipitation hinges on a competition between oxygen diffusion and reactive phase formation. This transition governs whether corrosion damage remains localized at the surface or penetrates the inner regions of Ni-Cr microstructure. To reduce costs of exhaustive high-temperature testing, we present a CALPHAD-informed phase-field model with experimentally measured Gibbs free energy and atomic mobility. The framework not only reproduces classical 1-D Wagner kinetics but extends to 2-D simulations, resolving the dynamic competition between external scale growth and internal oxide precipitation across industrially relevant Cr concentrations at 1000 °C. By mapping the internal-to-external oxidation transition boundary, our calculations quantify critical thresholds in alloy composition and environmental conditions, while tracking scale thickness and precipitate evolution over time. This approach replaces laborious experimental matrices with rapid, tunable simulations, enabling predictive screening of oxidation-resistant alloys and coatings.

Proceedings Inclusion?

Undecided

Keywords

High-Temperature Materials, Computational Materials Science & Engineering, Modeling and Simulation

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