EDDY CURRENT TESTING METHOD AND EDDY CURRENT TESTING APPARATUS
First Claim
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1. An eddy current testing method using an eddy current testing sensor comprising:
- a pair of excitation coils disposed such that each of their axial directions becomes approximately perpendicular to the inspection surface of a subject and such that the pair of excitation coils are spaced from each other in the coil radial direction, the pair of excitation coils adapted to induce an eddy current in the subject; and
a detection coil disposed between the pair of excitation coils so that its axial direction becomes approximately in parallel with the inspection surface of the subject and approximately perpendicular to a straight line connecting the centers of the excitation coils to detect a change of the eddy current induced in the subject;
wherein voltages having different amplitudes are applied to the pair of excitation coils so as to reduce detection noise of the detection coil.
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Abstract
The present invention provides an eddy current testing method and an eddy current testing apparatus that can reduce detection noise to increase the SN ratio thus improving the defect detection accuracy.
An eddy current testing sensor includes a pair of excitation coils and a detection coil disposed therebetween. For example, a voltage regulator applies voltages having different amplitudes to the pair of excitation coils so as to reduce detection noise caused by a deformed portion of a heat exchanger tube and a tube plate in a detection signal of the detection coil. Alternatively, for example, an eddy current testing detector applies a first excitation frequency f1, at which tube material noise is reduced to negligible an amplitude, and a second excitation frequency f2, which is higher than the first excitation frequency f1, to the eddy current testing sensor. The phase and gain of a measurement waveform with the second excitation frequency f2 are adjusted and then a differential waveform of the first and second excitation frequencies f1 and f2 is obtained based on an induction voltage detected by the detection coil so as to cancel out tube expansion noise.
12 Citations
7 Claims
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1. An eddy current testing method using an eddy current testing sensor comprising:
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a pair of excitation coils disposed such that each of their axial directions becomes approximately perpendicular to the inspection surface of a subject and such that the pair of excitation coils are spaced from each other in the coil radial direction, the pair of excitation coils adapted to induce an eddy current in the subject; and a detection coil disposed between the pair of excitation coils so that its axial direction becomes approximately in parallel with the inspection surface of the subject and approximately perpendicular to a straight line connecting the centers of the excitation coils to detect a change of the eddy current induced in the subject; wherein voltages having different amplitudes are applied to the pair of excitation coils so as to reduce detection noise of the detection coil.
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2. An eddy current testing apparatus including an eddy current testing sensor comprising:
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a pair of excitation coils disposed such that each of their axial directions becomes approximately perpendicular to the inspection surface of a subject and such that the pair of excitation coils are spaced from each other in the coil radial direction, the pair of excitation coils adapted to induce an eddy current in the subject; and a detection coil disposed between the pair of excitation coils so that its axial direction becomes approximately in parallel with the inspection surface of the subject and approximately perpendicular to a straight line connecting the centers of the excitation coils to detect a change of the eddy current induced in the subject; wherein the eddy current testing apparatus includes excitation voltage control means for differentiating amplitudes of voltages applied to the pair of excitation coils so as to reduce detection noise of the detection coil. - View Dependent Claims (3)
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4. An eddy current testing method comprising the steps of:
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inserting an eddy current testing sensor into a tube; applying excitation voltages to excitation coils of the eddy current testing sensor; and detecting a crack of the tube based on an induction voltage detected from a detection coil of the eddy current testing sensor; wherein there are noise sources on the near and far sides of the position of the eddy current testing sensor, and intermediate positions therebetween are subjected to inspection; wherein the eddy current testing sensor has a cylindrical shape, at least two excitation coils and one detection coil are disposed on its side surface, and the winding direction of the detection coil agrees with the circumferential direction of the eddy current testing sensor; wherein a first excitation frequency f1, at which the far-side noise source is reduced to a negligible amplitude, and a second excitation frequency f2, which is higher than the first excitation frequency f1, are applied to the eddy current testing sensor; and wherein the phase and gain of a measurement waveform with the second excitation frequency f2 are adjusted and then a differential waveform of the first and second excitation frequencies f1 and f2 is observed based on the induction voltage detected by the detection coil so as to cancel out the influence by the near-side noise source. - View Dependent Claims (5)
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6. An eddy current testing apparatus which performs the steps of:
- inserting an eddy current testing sensor into a tube;
applying excitation voltages to excitation coils of the eddy current testing sensor; and
detecting a crack of the tube based on an induction voltage detected from a detection coil of the eddy current testing sensor;wherein the eddy current testing sensor has a cylindrical shape, at least two excitation coils and one detection coil are disposed on its side surface, and the winding direction of the detection coil agrees with the circumferential direction of the eddy current testing sensor; and wherein the eddy current testing apparatus includes an eddy current testing detector which performs the steps of;
applying a first excitation frequency f1, at which the far-side noise source is reduced to a negligible amplitude, and a second excitation frequency f2, which is higher than the first excitation frequency f1, are applied to the eddy current testing sensor;
adjusting the phase and gain of a measurement waveform with the second excitation frequency f2 and calculating a difference between the first and second excitation frequencies f1 and f2 based on the induction voltage detected by the detection coil so as to cancel out the influence by the near-side noise source. - View Dependent Claims (7)
- inserting an eddy current testing sensor into a tube;
Specification
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Current AssigneeHitachi-Ge Nuclear Energy Limited (Hitachi, Ltd.)
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Original AssigneeHitachi-Ge Nuclear Energy Limited (Hitachi, Ltd.)
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InventorsAbe, Yoshiharu, Narumi, Yuichi, NARISHIGE, Soshi, Nishimizu, Akira, Koike, Masahiro
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Application NumberUS12/255,196Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current324/240CPC Class CodesG01N 27/90 using eddy currents
