METHOD AND APPARATUS GENERATING AND DETECTING TORSIONAL WAVE INSPECTION OF PIPES OR TUBES
First Claim
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1. A method for nondestructive inspection of a pipe or tube for anomalies therein, which anomalies can indicate defects such as notches, cuts, cracks, wear or corrosion, using magnetostrictive techniques, said method comprising the following steps:
- inducing residual magnetization in at least one thin ferromagnetic strip;
circumferentially pressing said thin ferromagnetic strip against said pipe or tube;
first locating a transmitter coil adjacent said thin ferromagnetic strip;
second locating a receiver coil adjacent said thin ferromagnetic strip;
generating a pulse signal in a transmitter control circuit and delivering said pulse signal to said transmitter coil, said transmitter coil creating magnetostrictively a guided wave in said thin ferromagnetic strip, said thin ferromagnetic strip being coupled to said pipe or tube so that said guided wave propagates along the length of said pipe or tube;
magnetostrictively detecting by said receiver coil said guided wave and any reflected signals in said pipe or tube through said coupled thin ferromagnetic strip, said reflected signals including any caused by said anomalies in said pipe or tube; and
determining if said reflected signals were due to said anomalies that should not exist in said pipe or tube.
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Abstract
A method and apparatus is shown for implementing magnetostrictive sensor techniques for the nondestructive evaluation of pipes or tubes. A magnetostrictive sensor generates guided waves in a pipe or tube, which waves travel therethrough in a direction parallel to the longitudinal axis of the pipe or tube. This is achieved by using a magnetized ferromagnetic strip being pressed circumferentially against the pipe or tube. The guided waves are generated in the strip and coupled to the pipe or tube and propagate along the length of said pipe or tube. For detection, the guided waves in said pipe or tube are coupled to the thin ferromagnetic strip and are detected by receiving MsS coils. Reflected guided waves may represent defects in the pipe or tube.
15 Citations
18 Claims
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1. A method for nondestructive inspection of a pipe or tube for anomalies therein, which anomalies can indicate defects such as notches, cuts, cracks, wear or corrosion, using magnetostrictive techniques, said method comprising the following steps:
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inducing residual magnetization in at least one thin ferromagnetic strip;
circumferentially pressing said thin ferromagnetic strip against said pipe or tube;
first locating a transmitter coil adjacent said thin ferromagnetic strip;
second locating a receiver coil adjacent said thin ferromagnetic strip;
generating a pulse signal in a transmitter control circuit and delivering said pulse signal to said transmitter coil, said transmitter coil creating magnetostrictively a guided wave in said thin ferromagnetic strip, said thin ferromagnetic strip being coupled to said pipe or tube so that said guided wave propagates along the length of said pipe or tube;
magnetostrictively detecting by said receiver coil said guided wave and any reflected signals in said pipe or tube through said coupled thin ferromagnetic strip, said reflected signals including any caused by said anomalies in said pipe or tube; and
determining if said reflected signals were due to said anomalies that should not exist in said pipe or tube. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An apparatus for the nondestructive inspection of a pipe or tube for anomalies therein, which anomalies indicate defects such as notches, cuts, cracks, wear or corrosion, using magnetostrictive techniques, said apparatus comprising:
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at least one thin ferromagnetic strip that has residual magnetization therein, said thin ferromagnetic strip being circumferentially pressed against said pipe or tube;
a transmitter coil located adjacent said thin ferromagnetic strip;
a receiver coil located adjacent said thin ferromagnetic strip;
a transmitter control circuit connected to said transmitter coil for generating a pulse signal and delivering said pulse signal to said transmitter coil, said transmitter coil creating magnetostrictively a guided wave that is coupled from said thin ferromagnetic strip to said pipe or tube to propagate along the length of said pipe or tube;
said receiver magnetostrictively detecting said guided wave and any reflected signals, including any caused by said anomalies in said pipe or tube;
said transmitter coil and said receiver coil being wound adjacent said thin ferromagnetic strip so that said guided wave moves perpendicular thereto. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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Specification
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Current AssigneeSouthwest Research Institute
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Original AssigneeSouthwest Research Institute
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InventorsKwun, Hegeon, Kim, Sang-Young, Crane, James F.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current324/240
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CPC Class CodesG01N 2291/0421 Longitudinal wavesG01N 2291/0422 Shear waves, transverse wav...G01N 2291/044 Internal reflections (echoe...G01N 2291/2623 Rails; RailroadsG01N 2291/2632 flatG01N 2291/2634 cylindrical from outsideG01N 29/11 by measuring attenuation of...G01N 29/2412 using the magnetostrictive ...
