A Mössbauer Spectral Study of Some Iron Nitride-based Nanocomposites Prepared by Ball Milling
Powder mixtures of (FeyN)x and (Al2O 3)1-x or (SiO2)1- x with x=0.2 and 0.6 and y=3.8 have been ball milled for 4, 8, 16, 32, 64, and 128 h and their magnetic properties and Mössbauer spectra have been measured. The 5 and 295 K saturation magnetizations decrease with increasing milling time as a result of decreasing particle sizes. Fits with the Langevin function of the field dependence of the magnetization yield particle sizes that are slightly smaller than those determined from a Scherrer analysis of the broadening of the X-ray diffraction peaks. The Mössbauer spectra have been fit with a distribution of hyperfine fields between 0 and 40 T and the peaks in the distribution assigned to the different iron nitride phases present in the nanocomposites. This analysis of the Mössbauer spectra indicates that the γ'-Fe4N phase present in FeyN is transformed into ε-Fe3+xN and α-iron by the milling process. The weighted average field decreases and the weighted average isomer shift increases with milling time, as expected for the simultaneous effects of size reduction, the above phase transformation, and mixing with the oxides. A peak in the hyperfine field distribution at 4 T indicates the presence of small superparamagnetic particles, a presence which is also confirmed by the temperature dependence of the Mössbauer spectra and the failure of the magnetization to saturate even at applied fields of 5.5 T.
F. Grandjean et al., "A Mössbauer Spectral Study of Some Iron Nitride-based Nanocomposites Prepared by Ball Milling," Journal of Magnetism and Magnetic Materials, vol. 292, pp. 215-226, Elsevier, Apr 2005.
The definitive version is available at https://doi.org/10.1016/j.jmmm.2004.10.114
Keywords and Phrases
Ball Milling; Magnetic Properties; Magnetization; Mixtures; Mössbauer Spectroscopy; Nanostructured Materials; Particle Size Analysis; Phase Transitions; Powders; Temperature Distribution; X Ray Diffraction Analysis; Alloy Particles; Iron Nitrides; Magnetic Nanocomposites; Magnetic Nanoparticles; Iron Compounds; Magnetic Nanocomposites
International Standard Serial Number (ISSN)
Article - Journal
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