Molten salt shielded synthesis of the nanolaminated transition metal boride Fe2AlB2

Fe 2 AlB 2 is one of many ternary transition metal borides called MAB phases, which attracted interest owing to its magnetocaloric effect and magnetic properties. Herein, the molten salt-shielded synthesis (MS 3 ) of Fe 2 AlB 2 powder is studied using potassium bromide “KBr” in an open-air atmospher...

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Veröffentlicht in:International journal of advanced manufacturing technology 2023-04, Vol.125 (11-12), p.5211-5219
Hauptverfasser: Benamor, Hiba, Benamor, Abdessabour, Chiker, Nabil, Hakem, Maamar, Krea, Mohamed, Bouras, Omar, Sahraoui, Tahar, Hadji, Mohamed
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Sprache:eng
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Zusammenfassung:Fe 2 AlB 2 is one of many ternary transition metal borides called MAB phases, which attracted interest owing to its magnetocaloric effect and magnetic properties. Herein, the molten salt-shielded synthesis (MS 3 ) of Fe 2 AlB 2 powder is studied using potassium bromide “KBr” in an open-air atmosphere. The synthesis process of the MAB phase, from Fe, Al, and B elemental powders, was studied with and without Sn additive in the temperature range of 900–1200 °C. The obtained powders were analyzed using XRD, TDA, GTA, and SEM analysis. The corresponding results revealed a successful synthesis of nearly pure Fe 2 AlB 2 phase at 1000 °C for only one hour of holding time, beyond which FeB impurities form. These results show the efficiency of KBr (with Sn as a synthesis aid “additive”) in increasing the reactivity of this MAB phase in terms of the lowest synthesis temperature and time reported to date.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-023-11086-w