Patent Number: 054188237
Section: claims

1. A system for determining the thickness of a metallic liner or coating provided at an inner surface of a metal tube, comprising: an electromagnetic eddy-current inducing impedance measurement subsystem, having a non-invasive eddy-current inducing probe, for externally determining an inside diameter of said tube;  an ultrasonic dimensional measurement subsystem for determining an inside diameter of said tube;  a memory for storing measurement data provided by said electromagnetic and ultrasonic subsystems; and  an arithmetic processing unit, connected to said ultrasonic and electromagnetic subsystems and to said memory, for calculating the thickness of said liner, said calculations based on said measurement data of said tube inside diameter acquired from both of said measurement subsystems.  a) measuring, using an electromagnetic eddy-current-inducing impedance measuring arrangement, and storing as a set of calibration reference values in said memory, a plurality of impedances corresponding to lined tubes of predetermined combinations of known inside diameters, outside diameters and lining thicknesses, including a first subset of reference values consisting of impedances measured from lined tubes having the same lining thickness but different inside and outside diameter dimensions, and further including a second subset of reference values consisting of impedances measured from lined tubes having the same inside and outside diameters but different lining thicknesses;  b) storing in said memory a predetermined reference value for the thickness of a lining corresponding to said first subset of reference values;  c) measuring an impedance of a tube specimen under test, using said electromagnetic measuring arrangement, and storing said value in said memory;  d) determining a first inside diameter value of said specimen tube using conventional eddy-current analysis computational techniques and storing said first inside diameter value in said memory;  e) analyzing said specimen tube and determining a second inside diameter value of said specimen tube by conventional ultrasonic diagnostic techniques and storing said second inside diameter value in said memory; and  f) calculating a value for a thickness of said specimen tube lining based on said stored calibration reference values for impedances, said reference value for lining thickness, said measured impedance of said specimen tube and the difference between said first and second inside diameter values.  correlating differences in tube inside diameters for tubes with identical lining thicknesses to changes in impedance from said calibration reference values; and  correlating differences in tube lining thickness for tubes with identical inner and outer diameter dimensions to changes in impedance, as measured by said electromagnetic measuring arrangement, from said calibration reference values.  passing said specimen tube through the center of an eddy-current-inducing impedance measurement coil to a point along the length of said tube where said liner thickness is to be determined and obtaining an external impedance measurement thereat.  a) measuring an impedance of a tube specimen under test using an electromagnetic eddy-current-inducing measuring arrangement;  b) determining a first inside diameter value of said specimen tube using conventional eddy-current analysis computational techniques;  c) analyzing said specimen tube by conventional ultrasonic diagnostic techniques and determining a second inside diameter value of said specimen tube; and  d) calculating a value for a thickness of said specimen tube lining based on said calibration reference values, said reference value for lining thickness, said measured impedance of said specimen tube, and the difference between said first and second inside diameter values.  T.sub.b =calculated value of lining thickness;  T.sub.std =reference value for lining thickness;  E.sub.1 =a calibration reference value that correlates differences in tube inside diameter to changes in impedance as measured by the electromagnetic measuring arrangement;  E.sub.2 =a calibration reference value that correlates differences in tube lining thickness to changes in impedance as measured by the electromagnetic measuring arrangement;  ID.sub.ut =Inside diameter determined ultrasonically; and  ID.sub.ec =Inside diameter determined by electromagnetically.  correlating differences in tube inside diameters for tubes with identical lining thicknesses to changes in impedance from said calibration reference values; and  correlating differences in tube lining thickness for tubes with identical inner and outer diameter dimensions to changes in impedance, as measured by said electromagnetic measuring arrangement, from said calibration reference values.  passing said specimen tube through the center of an eddy-current-inducing impedance measurement coil to a point along the length of said tube where said liner thickness is to be determined and obtaining an impedance measurement thereat.  a non-invasive eddy-current-inducing diagnostic means for determining an inside diameter of said tube, said eddy-current-inducing means operative to determine said inside diameter from outside of said tube;  a non-eddy-current-inducing diagnostic means for determining an inside diameter of said tube; and  an electronic digital computer, connected to said eddy-current-inducing diagnostic means and to said non-eddy-current-inducing diagnostic means, for calculating a thickness of said liner based on reference data stored in said computer and measurement data of said tube inside diameter acquired by said computer from both of said diagnostic means.  T.sub.b =calculated value of liner thickness;  T.sub.std =a calibration reference data value for a standard liner thickness;  E.sub.1 =a calibration reference data value that correlates differences in tube inside diameter to changes in impedance as measured by said eddy-current-inducing diagnostic means;  E.sub.2 =a calibration reference data value that correlates differences in tube lining thickness to changes in impedance as measured by said eddy-current-inducing diagnostic means;  ID.sub.nec =Inside diameter determined by non-eddy-current-inducing diagnostic means; and  ID.sub.ec =Inside diameter determined by eddy-current-inducing diagnostic means. 2. A system as set forth in claim 1 wherein said electromagnetic impedance measurement subsystem includes a differential coil eddy-current probe arrangement comprising an eddy-current-inducing impedance measurement coil for measuring an impedance from outside of a specimen metal tube by passing said specimen tube through the center of an eddy-current-inducing impedance measurement coil to a point along the length of said tube where said liner thickness is to be determined. 3. A system as set forth in claim 1 wherein said arithmetic processing unit is connected to a printer. 4. A system as set forth in claim 1 wherein said arithmetic processing unit is integral to said electromagnetic impedance measurement subsystem. 5. In a combined ultrasonic and eddy-current nondestructive testing arrangement having a memory for storing measurement and reference data and an arithmetic processor for performing calculations on said data, a method for determining thickness of metallic linings and metallic coatings provided at an inside surface of a metal tube, comprising the steps of: 6. The method as set forth in claim 5, wherein said step of calculating a value for a thickness of said specimen tube lining further includes steps of: 7. A method as set forth claim 5, wherein said electromagnetic impedance measuring arrangement includes a differential coil eddy-current probe arrangement comprising a non-invasive eddy-current-inducing impedance measurement coil for measuring an impedance from outside of said metal tube, and said step of measuring an impedance of a tube specimen under test, includes: 8. A method for determining thickness of metallic linings or coatings provided at an inside surface of a metal tube, using a set of calibration reference values comprising a plurality of impedance values corresponding to impedances, measured via an electromagnetic eddy-current-inducing measuring arrangement, of lined tubes of predetermined combinations of known inside diameters, outside diameters and lining thicknesses, including a first subset of reference values consisting of calibration impedances measured from lined tubes having the same lining thickness but different inside and outside diameter dimensions, and including a second subset of reference values consisting of calibration impedances measured from lined tubes having the same inside and outside diameters but different lining thicknesses, and further including a predetermined reference value for the thickness of a lining corresponding to said first subset of reference values, comprising the steps of: 9. The method as set forth in claim 8, wherein said value for lining thickness is calculated according to the following formula: EQU T.sub.b =T.sub.std +E.sub.1 /E.sub.2 .times.(ID.sub.ut -ID.sub.ec) 10. The method as set forth in claim 8, wherein said step of calculating a value for a thickness of said specimen tube lining further includes steps of: 11. A method as set forth claim 8, wherein said electromagnetic impedance measuring arrangement includes a differential coil eddy-current probe arrangement comprising a non-invasive eddy-current-inducing impedance measurement coil for measuring an impedance from outside of said metal tube, and said step of measuring an impedance of a tube specimen under test, includes: 12. An apparatus for determining the thickness of a metallic liner provided at an inner surface of a metal alloy tube, comprising: 13. A apparatus as set forth in claim 12, wherein said eddy-current-inducing diagnostic means includes a differential coil eddy-current probe arrangement comprising an eddy-current-inducing impedance measurement coil for measuring an impedance from outside of said tube by passing a specimen tube through the center of an eddy-current-inducing impedance measurement coil to a point along the length of said tube where said liner thickness is to be determined. 14. An apparatus as set forth in claim 12, wherein a liner thickness, T.sub.b, is calculated by said digital computer according to the following formula: EQU T.sub.b =T.sub.std +E.sub.1 /E.sub.2 .times.(ID.sub.nec -ID.sub.ec) 15. A system as set forth in claim 2 wherein said differential coil eddy-current probe arrangement further comprises a load balancing reference coil. 16. An apparatus as set forth in claim 13, wherein said differential coil eddy-current probe arrangement further comprises a load balancing reference coil, said reference coil surrounding a reference metal tube section.