Magnetic properties and crystallization kinetics of a Mn-doped FINEMET precursor amorphous alloy

The kinetics of nanocrystallization of Mn-doped FINEMET alloy from its amorphous precursor is reported. The alloy studied was of composition (Fe/sub 1-x/Mn/sub x/)/sub 73.5/Nb/sub 3/CuSi/sub 13.5/B/sub 9/ where x=0.05. X-ray diffraction (XRD) confirmed that /spl alpha/-FeSi is the product of primary...

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Bibliographic Details
Published in:IEEE transactions on magnetics 2001-07, Vol.37 (4), p.2236-2238
Main Authors: Hsiao, A.C., McHenry, M.E., Laughlin, D.E., Tamoria, M.R., Harris, V.G.
Format: Article
Language:English
Subjects:
Amorphous and nanocrystalline magnetic materials
quasicrystals
Amorphous and quasicrystalline magnetic materials
Amorphous materials
Applied sciences
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Crystallization
Differential scanning calorimetry
Exact sciences and technology
Ferrous alloys
Heating
Kinetic theory
Magnetic anisotropy
Magnetic materials
Magnetic properties
Magnetic properties and materials
Magnetism
Manganese alloys
Manganese base alloys
Mathematical analysis
Metallurgy
Metals. Metallurgy
Nanocrystals
Niobium alloys
Physics
Precursors
Studies of specific magnetic materials
Volume fraction
Volume measurement
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Summary:The kinetics of nanocrystallization of Mn-doped FINEMET alloy from its amorphous precursor is reported. The alloy studied was of composition (Fe/sub 1-x/Mn/sub x/)/sub 73.5/Nb/sub 3/CuSi/sub 13.5/B/sub 9/ where x=0.05. X-ray diffraction (XRD) confirmed that /spl alpha/-FeSi is the product of primary nanocrystallization. Crystallization kinetics were studied using time-dependent magnetization, M(t), as a measure of the volume fraction crystallized. This data was taken using vibrating sample magnetometry (VSM) and thermal analysis employing differential scanning calorimetry (DSC). Primary crystallization for the Mn-doped FINEMET alloy was found to occur at 505/spl deg/C, for DSC data taken at a heating rate of 10/spl deg/C/min. Fits to the Kissinger equation for constant heating transformations yield an activation energy for crystallization of 3.4 eV. VSM measurements of isothermal M(t) show that the maximum volume fraction transformed was reached at 20 min. Measurements of magnetic anisotropy as a function of time probe the structural evolution of the material upon nanocrystallization. Measurements show stress relaxation occurring at 20 minutes at 490/spl deg/C, coinciding with the maximum volume fraction crystallized.
ISSN:0018-9464
1941-0069
DOI:10.1109/20.951134