Nondestructive evaluation of pipes and tubes using magnetostrictive sensors
First Claim
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1. A method for the inspection of ferromagnetic cylindrical shell structures such as pipes and tubes, said cylindrical shell structure having a circumference and a length, to detect and locate fractures, cracks, and other anomalies, comprising the steps of:
- establishing a first linearizing DC magnetic field in a first location, proximate to a surface of said shell structure and directed along said length of said cylindrical shell;
causing a fluctuation in said first magnetic field sufficient to generate a primary mechanical wave through a volume of said shell structure as a result of the magnetostrictive effect;
establishing a second linearizing DC magnetic field in a second location, proximate to a surface of said shell structure and directed along said length of said cylindrical shell;
detecting fluctuations in said second magnetic field as a result of a passage of said primary mechanical wave and a plurality of secondary mechanical waves through a volume of said shell structure, said fluctuations in said second magnetic field caused by an inverse magnetostrictive effect resulting from said passage of said mechanical waves through said second magnetic field, said plurality of secondary mechanical waves being generated and reflected by said fractures, cracks, and other anomalies in said shell structure;
analyzing said detected fluctuations in said second magnetic field indicative of said secondary mechanical waves and correlating said detected fluctuations with patterns of changes known to be indicative of said fractures, cracks, and other anomalies in said cylindrical shell structure.
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Abstract
A method and apparatus for the inspection of ferromagnetic and non-ferromagnetic pipes, tubes or other cylindrical shell structures utilizing the magnetostrictive effect to detect defects such as corrosion pits, wall thinning, and cracks within the structure under evaluation. The apparatus and method constitute an active testing application, wherein 1) a transmitting coil element generates a mechanical pulse within a cylindrical shell structure through the magnetostrictive effect and a second coil detects reflected mechanical waves within the pipe, this by the inverse magnetostrictive effect, or 2) a single sensor functions as both transmitter and detector. The present invention also anticipates a passive monitoring application with a detection coil that continuously monitors ferromagnetic or non-ferromagnetic tubes, pipes, etc., for mechanical or acoustic wave emissions and either records this monitored information or alerts the appropriate personnel to the existence of mechanical or acoustic wave emissions indicative of deterioration. Non-ferromagnetic pipes, tubes, etc., are made amenable to inspection by attaching a layer of ferromagnetic material such as nickel on either the inner or outer walls of the pipes, tubes, etc. by plating or bonding such material in a local area where the sensor is to be placed.
179 Citations
14 Claims
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1. A method for the inspection of ferromagnetic cylindrical shell structures such as pipes and tubes, said cylindrical shell structure having a circumference and a length, to detect and locate fractures, cracks, and other anomalies, comprising the steps of:
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establishing a first linearizing DC magnetic field in a first location, proximate to a surface of said shell structure and directed along said length of said cylindrical shell; causing a fluctuation in said first magnetic field sufficient to generate a primary mechanical wave through a volume of said shell structure as a result of the magnetostrictive effect; establishing a second linearizing DC magnetic field in a second location, proximate to a surface of said shell structure and directed along said length of said cylindrical shell; detecting fluctuations in said second magnetic field as a result of a passage of said primary mechanical wave and a plurality of secondary mechanical waves through a volume of said shell structure, said fluctuations in said second magnetic field caused by an inverse magnetostrictive effect resulting from said passage of said mechanical waves through said second magnetic field, said plurality of secondary mechanical waves being generated and reflected by said fractures, cracks, and other anomalies in said shell structure; analyzing said detected fluctuations in said second magnetic field indicative of said secondary mechanical waves and correlating said detected fluctuations with patterns of changes known to be indicative of said fractures, cracks, and other anomalies in said cylindrical shell structure. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus for the inspection of ferromagnetic cylindrical shell structures such as pipes and tubes, said cylindrical shell structures having a circumference and a length, to detect and locate fractures, cracks, and other anomalies, comprising:
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a transmitting coil of at least one turn positioned adjacent to or encompassing a first location, proximate to a surface of said shell structure; a first linearizing DC magnet adjacent said transmitting coil, said first DC magnet creating a first linear magnetic field within a volume of said shell structure and directed along said length of said cylindrical shell; a signal generator and power amplifier capable of supplying said transmitting coil with a current sufficient to create fluctuations in said first magnetic field; a detection coil of at least one turn positioned adjacent to or encompassing a second location, proximate to a surface of said shell structure and directed along said length of said cylindrical shell; a second linearizing DC magnet adjacent said detection coil, said second DC bias magnet creating a second linear magnetic field within a volume of said shell structure; a signal conditioner for amplifying and filtering a current within said detection coil, said amplified and filtered current being a signal indicative of fluctuations in said second magnetic field; and a display means for displaying said signal and for allowing a test operator to interpret said signal and thereby interpret said fluctuations in said second magnetic field; wherein said fluctuations in said first magnetic field induce a magnetostrictive effect within a volume of said cylindrical shell structure and generate primary mechanical waves within said shell structure, and said fluctuations in said second magnetic field resulting from an inverse magnetostrictive effect caused by secondary mechanical waves within said shell structure, said secondary mechanical waves occurring as a result of said primary mechanical waves being reflected from said fractures, cracks, and other anomalies within said shell structure; and wherein said interpretation of said signal includes identifying a location and a degree of deterioration of said fractures, cracks, and other anomalies. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
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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, Teller, Cecil M. II
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Primary Examiner(s)Williams, Hezron E.
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Assistant Examiner(s)MILLER, ROSE MARY
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Application NumberUS08/401,170Time in Patent Office635 DaysField of Search73/587, 73/622, 73/623, 73/592, 73/598, 73/643, 73/597, 73/594, 73/779, 324/242, 324/220, 324/240US Class Current73/623CPC Class CodesG01N 2291/0421 Longitudinal wavesG01N 2291/048 Transmission, i.e. analysed...G01N 2291/101 one transducerG01N 2291/102 one emitter, one receiverG01N 2291/2626 Wires, bars, rodsG01N 2291/2634 cylindrical from outsideG01N 27/83 by investigating stray magn...G01N 29/14 using acoustic emission tec...G01N 29/2412 using the magnetostrictive ...
