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Heat-treatment influence on the microstructure and magnetic properties of rare-earth substituted SrFe12O19

Rare‐earth substituted strontium ferrite nanopowders SrFe12‐xRxO19 (R = La, Gd and Er; x = 0.2, 0.5 and 1) were prepared by sol‐gel‐autocombustion method and subsequent heat treatments. Structural and magnetic properties of SrFe12‐xRxO19 powders heat treated at 800, 900 and 10000C, for various times...

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Published in:Crystal research and technology (1979) 2006-11, Vol.41 (11), p.1112-1119
Main Authors: Doroftei, C., Rezlescu, E., Dorin Popa, P., Rezlescu, N.
Format: Article
Language:English
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Summary:Rare‐earth substituted strontium ferrite nanopowders SrFe12‐xRxO19 (R = La, Gd and Er; x = 0.2, 0.5 and 1) were prepared by sol‐gel‐autocombustion method and subsequent heat treatments. Structural and magnetic properties of SrFe12‐xRxO19 powders heat treated at 800, 900 and 10000C, for various times, were characterized with an X‐ray diffractometer, a vibrating sample magnetometer and a scanning electron microscope. The results of X‐ray diffraction measurements showed the M‐type hexagonal structure formation by heat treatments. Magnetic properties, such as specific saturation magnetization σs, specific remanent magnetization σr and coercivity Hc, as well as microstructure depend on the heat treatment conditions (temperature and time). The coercivity Hc exhibits a great increase after a critical heat treatment time. When the heat treatment time increases, one obtains an increase in Hc after a shorter heat treatment time. This jump of Hc was explained by a transition from the superparamagnetic state to normal state of the single domain nanoparticles. The occurrence of an agglomerated structure composed of magnetically interacting ultrafine crystallites also contributes to the increase of Hc.The heat treatment determines a reduced grain growth due to the internal stress generated by R ions. With increasing R content the σs and σr decrease due to the dissolution of R ions into the hexaferrite lattice. We believe that by selecting the time and temperature of the heat treatment, microstructure and magnetic properties suitable for magnetic recording media application can be obtained. (© 2006 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
ISSN:0232-1300
1521-4079
DOI:10.1002/crat.200610731