Possibility of obtaining refractory high-entropy AlTiZrVNb alloys from metal oxides

Possibility of obtaining refractory high-entropy AlTiZrVNb alloys from metal oxides

We consider a new method for the preparation of refractory high-entropy alloys (HEAs) AlTiZrVNb, which consists in the joint aluminothermic reduction of metals from their oxides. It was determined that V and Nb undergo reduction to a greater extent, and about 90% of their amounts transfer into the m...

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Veröffentlicht in:Russian chemical bulletin 2023-04, Vol.72 (4), p.895-901
Hauptverfasser: Zhilina, E. M., Russkih, A. S., Osinkina, T. V., Ignatieva, E. V., Petrova, S. A., Krasikov, S. A., Dolmatov, A. V., Rempel, A. A.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminothermic reduction
Aluminum oxide
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Full Articles
High entropy alloys
Inorganic Chemistry
Laves phase
Metal oxides
Microhardness
Nonmetallic inclusions
Organic Chemistry
Reduction (metal working)
Titanium
Zirconium
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Zusammenfassung:We consider a new method for the preparation of refractory high-entropy alloys (HEAs) AlTiZrVNb, which consists in the joint aluminothermic reduction of metals from their oxides. It was determined that V and Nb undergo reduction to a greater extent, and about 90% of their amounts transfer into the metal phase. Metals Ti and Zr undergo reduction to a lesser extent, with 76 and 50% of their amounts transitioning into the metal phase, respectively. The obtained alloy has a multiphase structure consisting of C14 Laves phases, Zr 5 Al 3 -type phases, and a B2-type ordered phase, which plays the role of a matrix. The microhardness of the alloy is 6.37 GPa, which is similar to the values of refractory HEAs. The structure of the obtained alloy has a similar structure throughout its bulk, namely, coarse-grained with a number of pores, partly filled with non-metallic inclusions of aluminum oxide.
ISSN:1066-5285
1573-9171
DOI:10.1007/s11172-023-3852-7