Abstract
The relationships between the reversible AC susceptibility, chi /sub AC/, of ferromagnets with a random array of inhomogeneities and the effective bias field H are derived on the basis of the theory of strong and weak domain-wall pinning. When H<H/sub c/, the coercive field, chi /sub AC/ is proportional to H/sup -n/, where n=1 for weak pinning and n=3/7 (or 1/2 if the demagnetizing effect is neglected) for strong pinning. These relationships are used to investigate the pinning mechanisms of two iron-rich binary alloys, FeAu and FeCu. Specimens of both alloys in the alpha -phase solid-solution were thermally aged at 700 degrees C for different durations. In the as-quenched FeAu specimen and the FeCu specimens aged for less than 150 mins, it was found that the exponent n has a value approximately 1. A weak pinning regime is obviously active. For the FeAu and FeCu specimens which were aged for a prolonged period, the exponents drop to average values of 0.61+or-0.05 and 0.49+or-0.07, respectively, so that strong pinning in these specimens is expected.<<ETX>>
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