Method and apparatus for nondestructive inspection of plate type ferromagnetic structures using magnetostrictive techniques
First Claim
1. A method for nondestructive inspection of a plate type ferromagnetic structure, whether flat or curved, 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:
- first locating a transmitter adjacent to said plate type ferromagnetic structure;
providing a first DC bias magnetic field in said plate type ferromagnetic structure near said transmitter;
second locating a receiver adjacent to said plate type ferromagnetic structure;
providing a second DC bias magnetic field in said plate type ferromagnetic structure near said receiver;
generating a pulse signal in a transmitter control circuit and delivering said pulse signal to said transmitter, said pulse signal causing a fluctuation in said first DC bias magnetic field sufficient to generate guided waves through said plate type ferromagnetic structure as a result of the magnetostrictive effect;
detecting fluctuations in said second DC bias magnetic field as a result of the passage of said guided waves and reflected waves through said plate type ferromagnetic structure, said fluctuations in said second DC bias magnetic field caused by an inversed magnetostrictive effect resulting from said passage of said guided waves or said reflected waves from anomalies within said plate type ferromagnetic structure; and
determining if said reflected waves were due to anomalies that should not exist in said plate type ferromagnetic structure;
said transmitter and said receiver having a core with an elongated axis and a coil wound lengthwise therearound so that said guided wave front is parallel to said elongated axis and moves perpendicular thereto.
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Abstract
A method and apparatus is shown for implementing magnetostrictive sensor techniques for the nondestructive evaluation of plate type structures such as walls, vessels, enclosures, and the like. The system includes magnetostrictive sensors specifically designed for application in conjunction with plate type structures or pipes that generate guided waves in the plates or pipes which travel threrethrough in a direction parallel to the surface of the plate or pipe. Similarly structured sensors are positioned to detect the guided waves (both incident and reflected) and generate signals representative of the characteristics of the guided waves detected that are reflected from anomalies in the structure such as corrosion pits and cracks. The sensor structure is longitudinal in nature and generates a guided wave having a wavefront parallel to the longitudinal axis of the sensor, and which propagates in a direction perpendicular to the longitudinal axis of the sensor. The generated guided waves propagate in the plate within the path of the propagating wave. The reflected waves from these abnormalities are detected using a magnetostrictive sensor. Shear horizontal waves may also be created by rotating the magnetic bias 90° and used for similar inspection techniques. Pipes, which act as curved plates, may also be inspected as well as electric resistance welds therein.
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Citations
17 Claims
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1. A method for nondestructive inspection of a plate type ferromagnetic structure, whether flat or curved, 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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first locating a transmitter adjacent to said plate type ferromagnetic structure;
providing a first DC bias magnetic field in said plate type ferromagnetic structure near said transmitter;
second locating a receiver adjacent to said plate type ferromagnetic structure;
providing a second DC bias magnetic field in said plate type ferromagnetic structure near said receiver;
generating a pulse signal in a transmitter control circuit and delivering said pulse signal to said transmitter, said pulse signal causing a fluctuation in said first DC bias magnetic field sufficient to generate guided waves through said plate type ferromagnetic structure as a result of the magnetostrictive effect;
detecting fluctuations in said second DC bias magnetic field as a result of the passage of said guided waves and reflected waves through said plate type ferromagnetic structure, said fluctuations in said second DC bias magnetic field caused by an inversed magnetostrictive effect resulting from said passage of said guided waves or said reflected waves from anomalies within said plate type ferromagnetic structure; and
determining if said reflected waves were due to anomalies that should not exist in said plate type ferromagnetic structure;
said transmitter and said receiver having a core with an elongated axis and a coil wound lengthwise therearound so that said guided wave front is parallel to said elongated axis and moves perpendicular thereto. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A sensor for use in nondestructive testing of plate type ferromagnetic material using magnetostrictive techniques from a pulse signal, said sensor comprising:
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an elongated core, length of said core being much longer than its width;
a coil wound around said length of said elongated core;
DC bias magnetic field created in said plate type ferromagnetic material along said elongated core;
a magnetostrictive sensor transmitter control for generating said pulse signal for driving said sensor; and
said sensor formed thereby being adapted to receive said pulse signal to generate a magnetostrictive wave front in said plate type ferromagnetic material parallel to the length of said elongated core but in a direction perpendicular thereto and to detect reflected magnetostrictive waves from anomalies therein. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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Specification
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- Resources
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Current AssigneeSouthwest Research Institute
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Original AssigneeSouthwest Research Institute
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InventorsKwun, Hegeon
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Primary Examiner(s)Snow, Walter E.
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Application NumberUS09/519,530Time in Patent Office578 DaysField of Search736/24, 736/29, 736/43, 735/98, 324/238, 324/239, 324/240, 324/209US Class Current324/240CPC 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 ...
