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MM: Fachverband Metall- und Materialphysik

MM 44: Topical Session: Interface-dominated phenomena - Solutes at Interfaces II

MM 44.2: Vortrag

Mittwoch, 18. März 2020, 17:30–17:45, IFW A

A quantum-mechanical study of clean and Cr-segregated antiphase boundaries in Fe₃Al — •Martin Friák, Monika Všianská, and Mojmír Šob — Institute of Physics of Materials, Czech Academy of Sciences, Brno, Czech Republic

We present a quantum-mechanical study of thermodynamic, structural, elastic, and magnetic properties of selected antiphase boundaries (APBs) in Fe₃Al with the D0₃ crystal structure with and without Cr atoms. The computed APBs are sharp (not thermal), and they have {001} crystallographic orientation. They are characterized by a mutual shift of grains by 1/2⟨100⟩, i.e., they affect the next nearest neighbors (APB-NNN type, also called APB-D0₃). Regarding clean APBs in Fe₃Al, the studied ones have only a very minor impact on the structural and magnetic properties, including local magnetic moments, and the APB energy is rather low, about 80 mJ/m². Interestingly, the studied APBs play a crucial role in the anisotropic (tensorial) elastic properties. The Cr atoms have a strong impact on magnetic properties and a complex influence on the energetics of APBs. The Cr atoms in Fe₃Al exhibit clustering tendencies even in the presence of APBs and cause a transition from a ferromagnetic into a ferrimagnetic state. The impact of Cr atoms on APB energies in Fe₃Al is found to be ambiguous, including reduction, having a negligible influence or increasing APB energies depending on the local atomic configuration of Cr atoms. As similarly contradicting trends were found in experiments, our results can shed a new light on these experimental data (see M. Friák, M. Všianská, M. Šob, Materials 12 (2019) 3954).