Double core giant magneto-impedance sensors for the inspection of magnetic flux leakage from metal surface cracks

► We introduce a double-core GMI sensor for magnetic imaging of small surface cracks. ► We compare measured magnetic leakage field with theoretical dipole model of cracks. ► Size and position of cracks and the sensor signals are highly correlated. ► Increasing crack dimensions will increase sensor s...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. 2011-11, Vol.170 (1), p.55-61
Main Authors: Tehranchi, M.M., Ranjbaran, M., Eftekhari, H.
Format: Article
Language:English
Subjects:
Crack detection
Cracks
Flaw detection
Giant magneto-impedance sensor
Imaging
Inspection
Leakage
Magnetic flux
Magnetic flux leakage
Magnetoimpedance
Sensors
Theoretical dipole model
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Summary:► We introduce a double-core GMI sensor for magnetic imaging of small surface cracks. ► We compare measured magnetic leakage field with theoretical dipole model of cracks. ► Size and position of cracks and the sensor signals are highly correlated. ► Increasing crack dimensions will increase sensor signal even at high sensor lift-off. Magnetic flux leakage inspection is one of the most common nondestructive techniques used to detect crack-like defects in ferromagnetic materials. In order to improve the accuracy and reliability of crack detection, sensors based on the giant magneto-impedance (GMI) effect are suitable candidates for the magnetic sensors used in MFL detection systems. In this paper, we have introduced a double-core GMI sensor based on Co-based amorphous wires for the detection of rectangular shaped surface cracks. A theoretical method compared with experimental measurements indicates that an increase in the crack dimension is observed via an increase in the sensor signal amplitude. Magnetic imaging of different cracks shows that there is a good correlation between the size and position of cracks and the sensor signals; which can lead to improvement of the MFL test industry.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2011.05.031