Method and apparatus for non-destructively testing electrically conductive elongate cylindrical components using an eddy current producing coil with a rotor to concentrate the magnetic field in a selected area
First Claim
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1. Apparatus for non-destructively testing electrically conductive elongate cylindrical components with eddy currents, comprising:
- (a) an eddy current inducing coil for generating a magnetic field which induces eddy currents in the cylindrical component being tested, said coil being generally cylindrical, hollow, and sized for insertion into the component;
(b) an independently rotatable rotor located inside of and coaxial with the inducing coil, said rotor includes a first member having high electrical conductivity for dissipating in selected areas the magnetic field energy generated by the coil and a second member having high magnetic permeability and located adjacent to the coil for enhancing the magnetic field coupling between the coil and the component being tested, thereby permitting eddy currents to be induced in a selected volume of the component, said first and second members have a generally integral cylindrical shape, said first and second members shape the magnetic field generated by the coil and concentrate the induced eddy currents into a predetermined inspection volume of the component; and
(c) means for rotating the rotor with respect to the component being tested in a predetermined manner so that the component is non-destructively tested by scanning with concentrated eddy currents.
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Abstract
Method and apparatus for non-destructively testing fabricated metal components with eddy currents. The apparatus includes a coil for generating a magnetic field and means for concentrating the magnetic field into a small inspection volume in the component being tested. The magnetic field induces eddy currents in the component. The coil and the field concentrating means are moved in a manner to scan the component in a predetermined manner with the concentrated eddy currents.
30 Citations
8 Claims
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1. Apparatus for non-destructively testing electrically conductive elongate cylindrical components with eddy currents, comprising:
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(a) an eddy current inducing coil for generating a magnetic field which induces eddy currents in the cylindrical component being tested, said coil being generally cylindrical, hollow, and sized for insertion into the component; (b) an independently rotatable rotor located inside of and coaxial with the inducing coil, said rotor includes a first member having high electrical conductivity for dissipating in selected areas the magnetic field energy generated by the coil and a second member having high magnetic permeability and located adjacent to the coil for enhancing the magnetic field coupling between the coil and the component being tested, thereby permitting eddy currents to be induced in a selected volume of the component, said first and second members have a generally integral cylindrical shape, said first and second members shape the magnetic field generated by the coil and concentrate the induced eddy currents into a predetermined inspection volume of the component; and (c) means for rotating the rotor with respect to the component being tested in a predetermined manner so that the component is non-destructively tested by scanning with concentrated eddy currents.
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2. Apparatus for non-destructively testing electrically conductive tubes with eddy currents, comprising:
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(a) an eddy current inducing coil for generating a magnetic field which induces eddy currents in the tube being tested, said coil being generally cylindrical and hollow and having a diameter sized for insertion into the tube being tested; (b) an independently rotatable rotor having a solid body, a generally cylindrical shape with a circular cross section and located inside of and coaxial with the inducing coil, said cylindrical rotor having an elongate axial solid member in the side wall thereof and adjacent to the inducing coil, said solid member extends axially along the entire sidewall of the rotor and permits eddy currents to be induced in a selected volume of the tube being tested, said rotor excluding the axial member has high electrical conductivity for dissipating in selected areas the magnetic field energy generated by the coil, said rotor with the axial member thereby shapes the magnetic field generated by the coil and concentrates the induced eddy currents into a predetermined inspection volume of the tube, said rotor being adapted for insertion into the coil and into the tube being tested; and (c) means for axially translating the coil and the rotor and for rotating the rotor with respect to the tube being tested in a predetermined manner so that the tube is non-destructively tested by scanning with concentrated eddy currents in a generally helical pattern. - View Dependent Claims (3, 4)
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5. Method for non-destructively testing electrically conductive cylindrical components with eddy currents, comprising the steps of:
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(a) inserting an eddy current inducing coil into the component being tested, said coil being generally cylindrical and hollow; (b) rotating a cylindrical rotor having a cylindrical axis about said axis, and inside of said coil, and with respect to said component, said coil and rotor being co-axial, said rotor includes first means having a solid body with high electrical conductivity for dissipating induced eddy currents and second means in the sidewall of the solid body for permitting eddy currents to be induced in a selected volume of the cylindrical component; (c) generating a time varying magnetic field and inducing eddy currents in the component being tested and in the rotor by exciting the eddy current inducing coil; (d) concentrating the eddy currents induced in the component in a selected inspection volume with the first and second means of the rotor, said second means permits localized coupling of the time varying magnetic field from the inducing coil into the inspection volume in the component being tested by directing the eddy currents induced in the rotor inward toward the cylindrical axis of the rotor and away from the inducing coil so that the rotor eddy currents adjacent to the second means in the side wall of the rotor do not dissipate said magnetic field at that location and said first means dissipates the remainder of the time varying magnetic field generated by the inducing coil by circulating the rotor eddy currents in the side wall of the rotor adjacent to the inducing coil, said first and second means thereby shape the magnetic field generated by the inducing coil; scanning the component with the concentrated eddy currents by moving the rotor with respect to the component; and (f) detecting variations in the eddy currents induced in the component. - View Dependent Claims (6)
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7. Apparatus for non-destructively testing electrically conductive elongate cylindrical components with eddy currents, comprising:
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(a) an eddy current inducing coil for generating a magnetic field which induces eddy currents in the cylindrical component being tested, said coil being generally cylindrical, hollow, and sized for insertion into the component; (b) an independently rotatable rotor having a solid body, a generally cylindrical shape and a generally circular cross section and located inside of and coaxial with the inducing coil, said rotor having a high electrical conductivity for dissipating the magnetic field energy generated by the coil and thereby reducing the induction of eddy currents in selected volumes of the component, said rotor body having an air gap formed by an axial elongate slot in the side wall of the rotor body, said slot extending axially along the entire side wall of the rotor and extending inwardly a predetermined limited distance into the solid rotor body for permitting eddy currents to be induced in a selected volume of the component, said rotor and air gap thereby shape the magnetic field generated by the coil so that the induced eddy currents are concentrated into a predetermined inspection volume of the component; and (c) means for rotating the rotor with respect to the component being tested in a predetermined manner so that the component is non-destructively tested by scanning with concentrated eddy currents. - View Dependent Claims (8)
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Specification