| 1. | Guzik M.N.♦, Golasiński K.M.♦, Pedrosa F.J.♦, Jenuš P.♦, Bollero A.♦, Hauback B.C.♦, Deledda S.♦, Influence of ultra-short cryomilling on the microstructural andmagnetic properties of cobalt ferrite, JOURNAL OF ALLOYS AND COMPOUNDS, ISSN: 0925-8388, DOI: 10.1016/j.jallcom.2017.05.290, Vol.721, pp.440-448, 2017 Abstract:The impact of ultra-short milling at liquid nitrogen temperatures on structural and magnetic properties of cobalt ferrite (CoFe2O4) powders has been explored for the first time. Cryomilling for only up to 9 min increases the coercivity of the isotropic powder from 139 to 306 kA/m (1.74–3.85 kOe) and results in its modifications comparable with milling for hours at room temperature. A thermal treatment of processed CoFe2O4 enables further optimization of powder magnetic properties and leads to a high value of energy product (13.5 kJ/m3) for the sample treated at 600 °C. Systematic studies, comprising analysis of structural and microstructural properties, based on synchrotron powder X-ray diffraction, scanning and transmission electron microscopy demonstrate the high efficiency of cryomilling in reduction of crystallite sizes and formation of lattice strain in the processed cobalt ferrite samples. Keywords:Cryomilling, Cobalt ferrite, Magnetic properties Affiliations:| Guzik M.N. | - | Institute for Energy Technology (NO) | | Golasiński K.M. | - | other affiliation | | Pedrosa F.J. | - | IMDEA Nanoscience (ES) | | Jenuš P. | - | Jožef Stefan Institute (SI) | | Bollero A. | - | IMDEA Nanoscience (ES) | | Hauback B.C. | - | Institute for Energy Technology (NO) | | Deledda S. | - | Institute for Energy Technology (NO) |
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