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MM: Fachverband Metall- und Materialphysik

MM 28: Computational Materials Modelling - Hydrogen in metals

MM 28.3: Vortrag

Dienstag, 17. März 2020, 14:45–15:00, IFW B

A grand canonical approach for modelling hydrogen trapping at vacancies in α-Fe — •Michael W. Finnis¹, Erlend R. M. Davidson¹, Thomas Daff², and Gábor Csanyi² — ¹Thomas Young Centre, Imperial College London, UK — ²Engineering Laboratory, University of Cambridge, UK

Vacancies in iron are a potential trap for hydrogen, of importance in the understanding of hydrogen embrittlement of steel. We present a grand canonical approach to computing the trap occupancy, which deals with the entire range of hydrogen concentration, from practically zero to super-saturation. Our method is demonstrated here for hydrogen in α-Fe as a function of both temperature and bulk concentration, using a machine-learned H-Fe potential that we develop for the purpose, which enables rapid sampling with near density-functional theory accuracy. The statistical mechanical calculation of the trap occupancy is enabled by the technique of nested sampling. The almost universally used conventional assumption based on Oriani theory is that at industrially relevant concentrations and ambient conditions vacancy traps are fully occupied. In contrast we find that vacancy traps are less than fully occupied under these conditions, necessitating a reevaluation of how we think about *mobile hydrogen* in iron and steel.