Influence of applied magnetic field strength and frequency response of pick-up coil on the magnetic barkhausen noise profile

The influence of applied magnetic field strength and frequency response of the pick-up coil on the shape of Magnetic Barkhausen Noise (MBN) profile have been studied. The low frequency MBN measurements have been carried out using 5 different MBN pick-up coils at two different ranges of applied magne...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2013-11, Vol.345, p.208-214
Main Authors: VASHISTA, M, MOORTHY, V
Format: Article
Language:English
Subjects:
Coiling
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Domain effects, magnetization curves, and hysteresis
Exact sciences and technology
Fe and its alloys
Frequency response
Low frequencies
Magnetic fields
Magnetic properties and materials
Magnetization curves, magnetization reversal, hysteresis, barkhausen and related effects
Peak frequency
Physics
Reduction
Steels
Strength
Studies of specific magnetic materials
Yield strength
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Summary:The influence of applied magnetic field strength and frequency response of the pick-up coil on the shape of Magnetic Barkhausen Noise (MBN) profile have been studied. The low frequency MBN measurements have been carried out using 5 different MBN pick-up coils at two different ranges of applied magnetic field strengths on quenched and tempered (QT) and case-carburised and tempered (CT) 18CrNiMo7 steel bar samples. The MBN pick-up coils have been designed to obtain different frequency response such that the peak frequency response varies from -4 kHz to -32 kHz and the amplitude of low frequency signals decreases gradually. At lower applied magnetic field strength of plus or minus 14,000 A/m, all the pick-up coils produced a single peak MBN profile for both QT and CT sample. However, at higher applied magnetic field strength of 22,000 A/m, the MBN profile showed two peaks for both QT and CT samples for pickup coils with peak frequency response up to -17 kHz. Also, there is systematic reduction in peak 2 for QT sample and asymmetric reduction in the heights of peak 1 and peak 2 for CT sample with increase in peak frequency response of the pick-up coils. The decreasing sensitivity of pick-up coils with increasing peak frequency response to MBN signal generation is indicated by the gradual reduction in width of MBN profile and height of peak 2 in the QT sample. The drastic reduction in peak 1 as compared to peak 2 in the CT sample shows the effect of decreasing low frequency response of the pick-up coils on lowering skin-depth of MBN signal detection. This study clearly suggests that it is essential to optimise both maximum applied magnetic field strength and frequency response of the MBN pick-up coil for maximising the shape of the MBN profile for appropriate correlation with the magnetisation process and hence the material properties.
ISSN:0304-8853
DOI:10.1016/j.jmmm.2013.06.038