Material condition assessment with spatially periodic field sensors
First Claim
1. A method for measuring properties of interest of a test material comprising:
- providing a spatially periodic field eddy current sensor having extended portions;
passing a time varying electric current through the extended portions to form a magnetic field that penetrates into a test material when the sensor is placed in proximity to the test material;
measuring the response of at least one sensing element to the imposed magnetic field with a plurality of orientations of the extended portions relative to the test material; and
combining the responses in a function that represents at least one dependent property of interest.
2 Assignments
0 Petitions
Accused Products
Abstract
Inductive sensors measure the near surface properties of conducting magnetic materials. The sensors generally include parallel winding segments to induce a spatially periodic magnetic field in a material under test. The sensors may provide a directionally dependent measure with measurements made in varying orientations of the sensor with respect to the material property variation directions. The sensors may be thin, conformable sensors that can be mounted on a test material and, for example, monitor crack initiation under the sensor. A second sensor may be left in air to provide a reference measurement, or the temperature of the material under test can be varied to verify the response of the individual sensing elements. Sensors can be mounted to materials under test in order to not modify the environment that is causing the stress being monitored. A sensor may be flexible to conform to the shape of the surface of the material under test and may be mounted in difficult to access locations such as around fasteners of an aircraft. Spatially periodic field eddy current sensors may be scanned across a material to create images of the absolute material property beneath the sensor.
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Citations
26 Claims
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1. A method for measuring properties of interest of a test material comprising:
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providing a spatially periodic field eddy current sensor having extended portions;
passing a time varying electric current through the extended portions to form a magnetic field that penetrates into a test material when the sensor is placed in proximity to the test material;
measuring the response of at least one sensing element to the imposed magnetic field with a plurality of orientations of the extended portions relative to the test material; and
combining the responses in a function that represents at least one dependent property of interest. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 23, 24, 25)
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19. A method as claimed in 1 where measurements are made on opposite sides of the test material.
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20. A method as claimed in 19 where the sensor response is converted to a magnetic permeability and the dependent property of interest is the stress distribution.
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21. A method as claimed in 20 further comprising the use of multiple frequencies to provide depth information.
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22. A method as claimed in 21 where the test material is a substrate of the sensor and is used as a load cell, in which the permeability reflects the mechanical load on the sensor.
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26. An apparatus for measuring properties of interest of a test material comprising:
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a spatially periodic field eddy current sensor having extended portions through which a time varying electric current is passed to form a magnetic field, and at least one sense element for sensing the response of the test material to the imposed magnetic field, the sensor being placed in proximity to the test material so that the magnetic field penetrates into the test material to measure an electrical property of the test material with a plurality of orientations of the extended portions relative to the test material; and
means for combining these responses in a function that relates to a dependent property of interest.
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Specification