abstract
The microstructure and magnetic properties of randomly oriented BaFe12O19, SrFe12O19, Ba2CO2Fe12O22, Ba3Co2Fe24O41, Ba3Ca0.3Co2Fe24O41 and BaCo2Fe16O27 hexaferrite fibres were characterised. 2D and 3D AFM and MFM images were taken of a single BaM fibre. Magnetic properties of random ferrite fibres compared well to expected values for polycrystalline ceramics. The little-characterised Co2W ferrite was found to have M-s and H-c similar to that of Co(2)Z. Relatively small applied fields of <0.05 T were required to reverse the magnetisation of all the soft hexaplana ferrite fibres, and all had H-c<40 kA/m, becoming demagnetised in fields <0.025 T. Random Co2W fibres had a high M-r/M-s ratio of 0.56, (greater than M ferrites), despite being very magnetically soft (low coercivity), due to the unusual "lobed" shape of their hysteresis loop, which was attributed to their fibrous nature, and elongated growth of the grains along the fibre axis. Co2Z had the lowest H-c, of all the ferroxplana fibres. (C) 2011 Elsevier Ltd. All rights reserved.
keywords
SOL-GEL PROCESS; TOPOTACTICAL REACTIONS; FERRIMAGNETIC OXIDES; MICROWAVE PROPERTIES; CRYSTAL STRUCTURES; ALIGNED FIBERS; MANUFACTURE; BAFE12O19; TEMPERATURE; ANISOTROPY
subject category
Materials Science
authors
Pullar, RC; Bdikin, IK; Bhattacharya, AK
our authors
acknowledgements
R.C. Pullar and I.G. Bdikin would like to thank the FCT Ciencia 2008 programme for supporting this work.