Thermal and structural characterization of nanocomposite iron nitride - Alumina and iron nitride - Silica particles

Abstract

Nanocomposite iron nitride based powders are known to have enhanced magnetic and other physical properties. To further explore their potential for application in various fields, we have performed a systematic study of the iron nitride - alumina and iron nitride - silica systems. Iron nitride powder of composition FexN (2 < × < 4), containing both Fe3N phases, was mechanically milled with Al2O3 or SiO2 or SiO2 powder for 4, 8, 16, 32 and 64 hours at the following compositions; (FexN)0.2 (Al2O3)0.8, (FexN)0.6(Al2O3) 0.4, (FexN)0.2 (SiO2)0.8, and (FexN)0.6(SiO2)0.4. Differential thermal analysis and X-ray diffraction were performed to investigate thermal and structural transitions as a function of milling time. As the milling time is increased, the thermal peak corresponding to Fe4N is diminished, while the one corresponding to Fe3N is enhanced. These transitions are correlated with X-ray diffraction patterns. All XRD peaks broaden as a function of milling time, corresponding to smaller particle size. Transmission electron microscopy also reveals a decrease in particle size as the milling time in increased.

Publication Title

Materials Research Society Symposium - Proceedings

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