Subsurface examination of non-ferrous material for detecting corrosion by measuring magnetic traction
First Claim
1. A method of examining a non-ferrous conductive material for presence of other subsurface material therein, involving relative movement between the conductive material and a penetrating magnetic field generated externally of the conductive material, comprising the steps of:
- selectively imparting movement to the magnetic field relative to the conductive material;
measuring traction resulting from motion of the magnetic field and detecting the presence of said other subsurface material within the conductive material as a function of the measured traction and the motion of the magnetic field, the magnetic field being generated by a permanent magnet having polar ends at which opposite magnetic poles are located.
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Abstract
A magnetic field generator positioned externally of a non-ferrous metallictructure being examined, is rotated at a relatively low speed to produce a rotating magnetic field penetrating the metallic structure to a selected depth as a function of spacing between magnetic poles of the generator parallel to a planar surface of the metallic structure. Traction between the metallic structure and the magnetic field accompanying its rotation is measured. Corrosion of the metallic structure at subsurface depths is detected and quantified from such traction measurements.
18 Citations
9 Claims
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1. A method of examining a non-ferrous conductive material for presence of other subsurface material therein, involving relative movement between the conductive material and a penetrating magnetic field generated externally of the conductive material, comprising the steps of:
- selectively imparting movement to the magnetic field relative to the conductive material;
measuring traction resulting from motion of the magnetic field and detecting the presence of said other subsurface material within the conductive material as a function of the measured traction and the motion of the magnetic field, the magnetic field being generated by a permanent magnet having polar ends at which opposite magnetic poles are located. - View Dependent Claims (2, 3, 4, 5, 6)
- selectively imparting movement to the magnetic field relative to the conductive material;
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7. A method of assessing subsurface corrosion of a non-ferrous metal comprising the steps of generating a magnetic field externally of the metal for penetration underlying a continuous surface portion thereof;
- imparting rotation to the magnetic field about an axis intersecting said continuous surface portion of the metal;
sensing magnetic traction resulting from the rotation imparted to the magnetic field during said penetration of the metal and detecting said subsurface corrosion underlying said continuous surface portion of the metal as a function of the magnetic traction sensed. - View Dependent Claims (8)
- imparting rotation to the magnetic field about an axis intersecting said continuous surface portion of the metal;
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9. In a method for detecting defects in a metallic product having a test surface penetrated by a magnetic field during rotation thereof about an axis intersecting the test surface and wherein measurement of traction between the test surface and the magnetic field resulting from said rotation thereof is obtained;
- the improvement residing in;
locating the magnetic field during said rotation thereof over a continuous portion of the test surface; and
extracting data from said measurement of the traction which reflects presence of corrosion underlying the continuous portion of the test surface as the defects being detected.
- the improvement residing in;
Specification
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- Resources
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Current Assigneethe united states of america as represented by the secretary of the navy
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Original Assigneethe united states of america as represented by the secretary of the navy
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InventorsGammell, Paul M.
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Primary Examiner(s)Strecker, Gerard R.
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Application NumberUS08/450,774Time in Patent Office405 DaysField of Search324/71.2, 324/209, 324/226, 324/228-232, 324/234, 324/235, 324/238, 324/262, 324/220-221, 324/240-242, 73/862.08, 73/86US Class Current324/228CPC Class CodesG01N 27/825 by using magnetic attractio...
