Demagnetization method of large-scale ferromagnetic pipe fitting and magnetic-sensitive sensor
A degaussing method and large-scale technology, applied in the field of magnetic sensors, can solve the problems of inability to demagnetize, strengthen the residual magnetic field, and pipe fittings
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[0036] for Figure 1a The large-scale ferromagnetic pipe fitting 1 shown is affected by the axial DC magnetic field, forming a residual magnetic field 3 in the pipe fitting body, especially forming an anisotropic residual magnetic field of 500Gs or more at both ends. Figure 4 In the degaussing method for large-scale pipe fittings shown, the residual magnetic field signals 12 such as the direction, pitch and intensity of the axial residual magnetic field of the pipe fittings are first detected by the magnetic sensor array 10. Since the pipe fitting 1 only has an axial DC residual magnetic field, the passing signal The processor 13 drives the controller 14 to feed the reverse degausser 2 to form a degaussing field that is opposite to the residual magnetic field, offset most of the residual magnetic field, and make the pipe end externally present a residual magnetism below 100Gs; finally, a densely wound coil with alternating current is used 11. Demagnetize the pipe fitting 1 so...
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