https://doi.org/10.1051/epjap:2007019
Structures and magnetic properties in nano-crystalline Fe-rich Fe-Ni and Fe-Co alloys
1
Department of Mathematics and Physics, Shanghai University of Electric Power, Shanghai 200090, P.R. China
2
Department of Physics, Shanghai University, Shanghai 200444, P.R. China
Corresponding author: lysly99313@sohu.com
Received:
24
March
2006
Revised:
24
July
2006
Accepted:
23
October
2006
Published online:
24
January
2007
Nano-crystalline magnetic alloys of Fe-Ni and Fe-Co are fabricated by high-energy milling. The coexistence of bcc and fcc lattice structures is observed in some of Fe-Ni alloys, as opposed to Fe-Co ones which exhibit the bcc phase only. The grain sizes increase linearly with the lattice strains for Fe-Co, and exponentially so for Fe-Ni. The cut-off frequency decreases with increasing nickel content in Fe-Ni alloys, but increases with increasing cobalt content in Fe-Co alloys. The larger the cut-off frequency is, the smaller the initial permeability. Resonant behaviour is observed in the pure Fe and Fe-Ni samples, which is replaced by relaxant behaviour in Fe-Co, implying that the Co plays an important role in hindering the resonance. The initial permeability at 10 kHz varies inverse proportionally with the coercivity Hc. It reaches a maximum while Hc goes to a minimum at 7.69 at.% Ni or Co. It is interesting that average atomic moments of nanocrystalline alloys are inconsistent with the Slater-Pauling relation.
PACS: 75.30.-m – Intrinsic properties of magnetically ordered materials / 75.25.+z – Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source X-ray scattering, etc.) / 75.30.Kz – Magnetic phase boundaries (including magnetic transitions, metamagnetism, etc.)
© EDP Sciences, 2007
