Title :
Magnetic particles derived from iron nitride
Author :
Matar, S.F. ; Demazeau, G. ; Siberchicot, R.
Author_Institution :
Lab. de Chimie du Solide du CNRS, Bordeaux I Univ., Talence, France
fDate :
1/1/1990 12:00:00 AM
Abstract :
Due to its high saturation magnetization (σs(0K)≈208 emu/g) and to the ease of obtaining it as a particulate material, Fe4N could be a suitable magnetic material for replacing highly reactive metallic iron pigments (σ s(0K)≈218 emu/g) in high-density recording. Throughout a nitriding process of properly selected precursors Fe4N can be obtained in either of two morphologies: acicular or isotropic. Further protection of the magnetic particles can be ensured through coating of the precursor particles prior to thermal decomposition in NH3/H2 atmosphere or through substitutions with selected elements. The obtained passivated nitrides are characterized by high magnetic properties (Hc≈600 Oe; σs≈150 emu/g) and chemical stability well adapted for use as magnetic pigments for high-density recording
Keywords :
ferromagnetic properties of substances; iron compounds; magnetic properties of fine particles; magnetic recording; magnetisation; passivation; powder technology; surface treatment; Fe4N particulates; acicular; chemical stability; high magnetic properties; high saturation magnetization; high-density recording; isotropic; magnetic particles; magnetic pigments; nitriding process; passivated nitrides; Coatings; Inorganic materials; Iron; Magnetic materials; Magnetic particles; Magnetic recording; Morphology; Pigments; Protection; Saturation magnetization;
Journal_Title :
Magnetics, IEEE Transactions on
