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Lifetime Extension. The Contribution of a Low and Multifrequency Eddy Current Technique to Assure the Integrity of the Cladding in Nuclear Power Pressure Vessels

 
: Dobmann, G.

Croatian Society for Non-Destructive Testing; Croatian Society of Mechanics, Zagreb; Deutsche Gesellschaft für Zerstörungsfreie Prüfung e.V. -DGZfP-, Berlin:
MATEST '98
Zagreb: Croatian Society for Non-Destructive Testing, 1998
ISBN: 953-96225-4-9
pp.23-31
MATEST Life Extension <1998, Brijuni>
English
Conference Paper
Fraunhofer IZFP ()
bulk defect; eddy current testing; high-frequency ultrasound; hochfrequente Ultraschallprüfung; Hochfrequenzultraschall; Lifetime extension; low frequency; multifrequency; stainless steel cladding

Abstract
In Germany some older nuclear power plants are close to their designed end-of-life. Under the aspects of possible radiation damage in core-near id-surface areas of the pressure vessel cladding, it is from interest to have reliable nondestructive testing (NDT) techniques for detecting, classfying and sizing of surface breaking cracks, cracks and inclusions in the cladding as well as subclad cracks, growing from the interface into the base material. So far the weld microstructure is sensitive to neutron degredation, i.e. by high Cu-content, the demand for safety assessment by NDT is much stringent. In the case of cladding thickness much larger than the specified, the cladding itself causes a noticeable contribution to a shift in the fracture appearance transition temperature (FATT) to lower temperatures, so far the integrity of the cladding, i.e. the defect-free state, is guranteed. In addition to a NDT technique for defect inspection also thickness measurements are necessary. The contri bution discusses the development of an optimized eddy current technique (ECT) based on a specialized yoke-type absolute coil transmitter and differential coil receiver. The working frequencies are in the range ower than 500 Hz and the combination of informations in a multifrequency approach in order to enhance signal to noise ratio and to suppress disturbing parameters is applied. An electronic device with high dynamic range has been developed. Results of the qualification procedure of the inspection technique are presented, documenting the high reliability of the system confirmed at specilized test and calibration blocks, as well as inservice inspection results are discussed. On the absis of the presented ECT. Combinded with an optimized ultrasonic testing (UT), the inspected pressure vessel again is in safe service.

: http://publica.fraunhofer.de/documents/PX-22119.html