Induced magnetic anisotropy in Co-doped Finemet-type nanocrystalline materials

Abstract

Transverse magnetic anisotropy has been induced in the Fe 14.7Co 58.8Cu 1Nb 3Si 13.5B 9 and Fe 13.8Co 65Cu 0.6Nb 2.6Si 9B 9 amorphous ribbons by annealing under an external magnetic field. This anisotropy plays a predominant role, compared to magneto-crystalline and magneto-elastic anisotropies, in forming the magnetic properties and shaping the hysteresis loop. The effect of temperature and time of annealing on the induced magnetic anisotropy and magnetic properties (magnetic permeability, coercivity and power losses) in both alloys was investigated. Under this work, measurements of frequency dependence of the real and imaginary parts of magnetic permeability were made within a frequency range up to 110 MHz. It was found that as a result of magnetic field annealing the Snoek limit increases in both alloys compared to the Co-free Finemet.