Flexible eddy current test probe
First Claim
1. A flexible eddy current sensor assembly for detecting flaws and anomalies in a conductive part, comprising:
- a first flexible membrane;
a drive coil formed on a first side of the first flexible membrane for inducing a magnetic field in the conductive part;
a receive coil formed on the first side of the first flexible membrane for sensing eddy currents produced by the magnetic field induced in the conductive part; and
a second flexible membrane layered on a second side of the first membrane, the second membrane being stiffer than the first membrane;
wherein the first and second flexible membranes adaptively contour to the conductive part.
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Accused Products
Abstract
An eddy current test probe having a flexible sensor assembly for non-destructive testing of conductive parts. The flexible eddy current sensor assembly includes a coil assembly having a drive coil and a receive coil positioned in close proximity to each other to maximize inductive coupling. The drive coil receives an alternating voltage from an alternating voltage source. The receive coil is coupled to a visual display which displays the eddy current signal strength in appropriate units. The coil assembly is formed on a flexible membrane. The flexible membrane allows the coil assembly to contour to the PUT surface. By doing so, surface coupling is not only maintained but maximized between the PUT and the coil assembly which, in turn, improves the induced electromagnetic field. A wear resistant film is formed around the outside of the compliance membrane enclosing the coil assembly. The wear resistant film prevents damage to the coils from the inevitable surface irregularities and abrasive particles found in PUTs. The flexible membrane is layered on a flexible compliance membrane. The compliance membrane provides a degree of stiffness to the flexible membrane for maintaining close surface coupling with the PUT. An electromagnetic shield is optionally formed on the flexible membrane on each side of the coil assembly and underneath the wear resistant film. The electromagnetic shield contains the energy exchange between the PUT and the coil assembly by preventing the electromagnetic field induced in the PUT from spreading out on the PUT. The electromagnetic shield is of particular importance when the sensor assembly approaches a PUT edge because the field tends to distort around PUT edges causing the test probe to saturate and miss a surface flaw or anomaly located near the PUT edge.
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Citations
16 Claims
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1. A flexible eddy current sensor assembly for detecting flaws and anomalies in a conductive part, comprising:
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a first flexible membrane; a drive coil formed on a first side of the first flexible membrane for inducing a magnetic field in the conductive part; a receive coil formed on the first side of the first flexible membrane for sensing eddy currents produced by the magnetic field induced in the conductive part; and a second flexible membrane layered on a second side of the first membrane, the second membrane being stiffer than the first membrane; wherein the first and second flexible membranes adaptively contour to the conductive part. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An eddy current test probe for non-destructive testing of a conductive part, comprising:
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a sensor assembly having an extended and a retracted position, the sensor assembly adaptively contouring to a part under test when in the extended position, the sensor assembly including; a first flexible membrane for adaptively contouring to the surface of the part; a drive coil formed on the flexible membrane for inducing a magnetic field in the part under test; a receive coil formed on the flexible membrane and positioned in close proximity to the drive coil for sensing eddy currents produced by the induced magnetic field in the part under test; and a second flexible membrane layered to the first flexible membrane for adaptively contouring to the surface of the part, the second membrane being stiffer than the first membrane; and a holder attached to the sensor assembly for retracting or extending the sensor assembly. - View Dependent Claims (9, 10, 11, 12)
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13. A method for non-destructively determining the presence of surface flaws in an electrically conductive object by means of an eddy current test probe having a holder and a flexible sensor assembly, the sensor assembly including a flexible drive coil and a flexible receive coil formed on a flexible membrane, the method comprising:
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positioning the eddy current test probe over the object with the sensor assembly in a retracted position; extending the sensor assembly so that the flexible membrane conforms to contours of the object thereby inducing surface coupling between the drive and receive coils and the object; inducing eddy currents into the object by providing an alternating voltage to the drive coil; and sensing the induced eddy currents in the receive coil as the test probe traverses the object. - View Dependent Claims (14, 15, 16)
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Specification