An improved method for magnetic identification and localization of cracks in conductors |
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Authors: | John P Wikswo Jr Nestor G Sepulveda Yu Pei Ma W Patrick Henry Daniel J Staton Duane Crum |
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Affiliation: | (1) Electromagnetics Laboratory, Department of Physics and Astronomy, Vanderbilt University, Station B, Box 1807, 37235 Nashville, Tennessee;(2) Island Hill Research, 10623 Roselle Street, 92121 San Diego, California |
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Abstract: | A SQUID magnetometer can be used to measure the magnetic field produced by flaws in a two-dimensional, conducting plate carrying a current. Identification of the flaw-induced magnetic field is difficult because of the large magnetic field associated with the edges of the plate and the current in the leads that connect the plate to the power supply. We have developed a technique by which the wire and edge fields can be cancelled prior to mapping the magnetic field. In this technique, a similar unflawed conducting sheet is placed adjacent to the flawed plate, with a connection between the sheet and the plate at one edge, and with the opposite edges of the sheet and of the plate connected to the two conductors of a coaxial cable. Thus, an applied current will flow along one conductor of the cable, across the cancelling sheet, cross into the flawed plate, return along the plate, and then return to the power supply along the other conductor of the coaxial cable. As a result of this geometry, there is no magnetic field from the lead-in wires because they are coaxial, and the magnetic field due to the edges of the plate is cancelled by the opposing magnetic field of the edges in the adjacent sheet. The extent of cancellation is determined primarily by the separation between the plate and the cancelling sheet, by the thickness of the plate, and by macroscopic inhomogeneities in their electrical conductivities. |
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Keywords: | Magnetic field perturbation circular and elliptical flaws SQUID magnetometers background cancellation plates and tubes |
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