Effect of Hydrogen on Formation of Fe-Al Nanoparticles by Mechanical Milling

• Published in: Journal of nano research Vol. 29; pp. 23 - 28
• Main Authors: Čížek, Jakub, Procházka, Ivan, Jirásková, Yvonna, Svec, Peter, Lukáč, František, Janičkovič, Dušan, Vlček, Marian
• Format: Journal Article
• Language: English
• Published: Zurich Trans Tech Publications Ltd 01.12.2014
• Subjects: Alloying elements; Aluminum; Atmospheres; Ball milling; Ferrous alloys; Formations; Intermetallic compounds; Iron; Mechanical alloying; Nanostructure; Mechanical Alloying; Defect; Hydrogen; Fe-Al Alloy
• ISSN: 1662-5250; 1661-9897; 1661-9897
• DOI: 10.4028/www.scientific.net/JNanoR.29.23

Nanocrystalline powders of iron aluminum alloy of the Fe82Al18 nominal composition were prepared under air, hydrogen and nitrogen atmospheres from the Fe and Al elemental powders by mechanical alloying and also from the conventionally cast Fe82Al18 alloy by the high-energy ball milling. The intensive plastic deformation during high-energy mechanical treatment has introduced high concentrations of open volume defects and contributed to a rapid decrease in the crystallite size down to a nanoscopic range.The hydrogen atmosphere was found to be the most efficient for the Fe-Al mechanical alloying since it has resulted into the fully alloyed Fe82Al18 after 30 h of milling. On the other hand, the nitrogen and air atmosphere have slightly prevented mechanical alloying and after the same milling time the pure iron particles were still detected in the powder mixtures. This partial suppression of the mechanical alloying process is explained by a formation of thin iron nitride and/or oxide layers on the surface of Fe particles preventing mutual inter-diffusion of Fe and Al atoms.