Title :
Separability of Multiple Deep Crack Defects With an NDE Eddy Current System
Author :
Hamia, R. ; Cordier, C. ; Dolabdjian, C.
Author_Institution :
Univ. of Caen Basse Normandie & ENSICAEN, Caen, France
Abstract :
Finite element simulation was carried out to characterize the separability of an eddy current nondestructive testing (EC-NDT) system in the case of the detection of deep cracks located in an aluminum plate. The interaction among multiple cracks was also analyzed. The results show that the separability of the EC system not only depends on the sensitive element dimensions but also on different parameters of the system, such as the sensor lift-off, the excitation frequency and the cracks depth. Furthermore, the simulations show that under some conditions, the magnetic response sensed for multiple cracks can be calculated as the superposition of the signals obtained for each crack. This point essentially simplifies the solution of the inverse problem of crack reconstruction.
Keywords :
aluminium; crack detection; eddy current testing; finite element analysis; inverse problems; Al; NDE eddy current system; aluminum plate; crack depth; crack reconstruction; deep crack detection; eddy current nondestructive testing system separability; excitation frequency; finite element simulation; inverse problem solution; magnetic response; multiple cracks; multiple deep crack defect separability; sensitive element dimensions; sensor lift-off; signal superposition; system parameters; Eddy currents; Finite element methods; Magnetic resonance imaging; Magnetic separation; Magnetometers; Spatial resolution; Testing; Eddy current testing (ECT); magnetometer; multiple cracks and spatial resolution; nondestructive testing (NDT);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2012.2218796
