Patent Number: 
Section: claims

1. A method of inspecting a J-groove weld in a nuclear reactor, comprising:providing an electrically operated vibration device near the weld;providing an electrically operated thermal imaging device near the weld;vibrating the weld with said vibration device;obtaining a thermal image of the weld with said imaging device;analyzing said thermal image; anddetermining, based on said analyzing, whether there is a flaw within the weld;wherein said providing said vibration device includes positioning said vibration device in a position such that it is not in physical contact with the weld; andwherein said vibration the weld includes operating said vibration device while said vibration device is in said position. 2. The method of claim 1, wherein said vibrating includes imparting acoustic energy to said weld. 3. The method of claim 2, wherein said imparting includes imparting a single frequency, multiple simultaneous frequencies, or a range of frequencies to the weld. 4. The method of claim 3, wherein said imparting further includes imparting a 100 kHz range of frequencies to the weld. 5. The method of claim 2, wherein said imparting includes generating friction at a flaw located within the weld. 6. The method of claim 5, wherein said imparting includes generating friction at a flaw located beneath a surface of the weld. 7. The method of claim 5, wherein said obtaining includes obtaining an image of heat generated by said friction. 8. The method of claim 7, wherein said obtaining includes obtaining an image of heat generated beneath a surface of the weld and transferred to the surface of the weld. 9. The method of claim 7, wherein said analyzing includes determining the presence of any heat differential within said image. 10. The method of claim 9, wherein said analyzing includes determining the presence of an area of relatively high temperature. 11. The method of claim 9, wherein said determining includes determining whether any heat differential in said image results from a flaw within the weld. 12. A method of inspecting a plurality of J-groove welds in a nuclear reactor, comprising:providing a vibration device near the plurality of J-groove welds;providing an imaging device near a selected one of the plurality of J-groove welds;vibrating the plurality of J-groove welds with said vibration device;obtaining a thermal image of the selected one of the plurality of J-groove welds with said imaging device;analyzing said thermal image; anddetermining, based on said analyzing, whether there is a flaw within the selected one of the plurality of J-groove welds; andmaking a plurality of iterations of inspections for others of the plurality of J-groove welds within the reactor;wherein inspections of multiple J-groove welds are made without repositioning said vibration device. 13. A method of inspecting a J-groove weld between a tube and a nuclear reactor pressure vessel, comprising:providing a vibration device near the tube or the pressure vessel;providing a thermal imaging device near the weld;imparting a transient sonic excitation to the weld with said vibration device;obtaining a thermal image of the weld with said imaging device;analyzing said thermal image to identify the presence of any heat differential within the weld; anddetermining, based on said analyzing, whether there is a flaw within the weld;wherein said providing said vibration device includes positioning said vibration device in a position such that it is not in physical contact with the weld; andwherein said imparting the transient sonic excitation to the weld includes operating said vibration device while said vibration device is in said position. 14. The method of claim 13, wherein said providing said vibration device includes providing said vibration device in the form of a sonic exciter. 15. The method of claim 13, wherein:said imparting includes generating friction at a flaw located within the weld;said obtaining includes obtaining an image of heat generated by said friction;said analyzing includes determining the presence of any heat differential within said image; andsaid determining includes determining whether any heat differential in said image results from a flaw within the weld. 16. The method of claim 13, including making a plurality of iterations of inspections for a plurality of J-groove welds within the pressure vessel, wherein inspections of multiple J-groove welds are made without repositioning said vibration device.