Grain growth of nanocrystalline Fe–Al alloys produced by cryomilling in liquid argon and nitrogen

Cryomilling of Fe–10 wt.%Al powders in liquid argon as well as in liquid nitrogen resulted in nanocrystalline structures which were thermally stable at least up to 1223 K, or 67% of the melting temperature of Fe. In contrast, cryomilling of elemental Fe resulted in a nanocrystalline structure which...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 1998-10, Vol.255 (1), p.124-132
Main Authors: Huang, B., Perez, R.J., Lavernia, E.J.
Format: Article
Language:English
Subjects:
Applied sciences
Cryomilling
Exact sciences and technology
Fe–Al alloys
Metal powders
Metals. Metallurgy
Powder metallurgy. Composite materials
Production techniques
Thermal stability
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Summary:Cryomilling of Fe–10 wt.%Al powders in liquid argon as well as in liquid nitrogen resulted in nanocrystalline structures which were thermally stable at least up to 1223 K, or 67% of the melting temperature of Fe. In contrast, cryomilling of elemental Fe resulted in a nanocrystalline structure which grew to a sub-micron scale following annealing at 1223 K. The enhanced thermal stability of the cryomilled Fe–10 wt.%Al powders in liquid argon was attributed to the formation of γ-Al 2O 3 due to the moisture condensation. The thermal stability of the Fe–10 wt.%Al powders milled in liquid nitrogen was attributed to the formation of oxynitrides, or γ-Al 2O 3 and AlN particles during cryomilling in liquid nitrogen. The formation of Fe 3O 4 particles did not result in enhanced thermal stability. The presence of Al is essential in achieving thermal stability of nanocrystalline structures in cryomilled Fe powders.
ISSN:0921-5093
1873-4936
DOI:10.1016/S0921-5093(98)00765-5