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http://dx.doi.org/10.3365/KJMM.2010.48.04.357

Fabrication of Ferromagnetic Mn-AI Alloy N anoparticles using a Plasma Arc-discharge Process  

Lee, Jung-Goo (Functional Materials Division, Korea Institute of Materials Science)
Li, Pu (Functional Materials Division, Korea Institute of Materials Science,School of Materical Science and Engineering, Dalian Univeristy of Technology(DUT))
Dong, Xing Long (School of Materical Science and Engineering, Dalian Univeristy of Technology(DUT))
Choi, Chul-Jin (Functional Materials Division, Korea Institute of Materials Science)
Publication Information
Korean Journal of Metals and Materials / v.48, no.4, 2010 , pp. 357-362 More about this Journal
Abstract
Ferromagnetic Mn-Al nanoparticles were prepared using a plasma arc discharge method. The influence of the process parameters on the vaporization rate, composition, particle size, and magnetic properties of the as-produced nanoparticles was investigated. The Mn content was found to be higher in the nanoparticles than in the corresponding mother materials, although the difference diminished with the reaction time. As the $H_2$ content in the reaction gas increased, both the vaporization rate and the particle size increased. With 30 at.% Mn, the average particle diameter was 35.2 nm under a pure Ar gas condition, whereas it was 95.4 nm at a Ar:$H_2$ ratio of 60:40. With the addition of a small amount of carbon, ${\varepsilon}$-phase nanoparticles were successfully synthesized. After a heat treatment in a vacuum for 30 min at $500^{\circ}C$, the nonmagnetic ${\varepsilon}$-phase was transformed into the ferromagnetic ${\tau}$-phase, and a very high coercivity of nearly 5.6 kOe was achieved.
Keywords
plasma arc-discharge; ferromagnetic materials; phase transformation; annealing; nanoparticles;
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