The paper proposes the improvement of a measurement probe for Eddy Current Non-Destructive Testing (EC-NDT) applied to the defect investigation on conductive materials. The aim is to increase the defect detection sensitivity in order to investigate very small and sub-superficial defect The paper describes the probe realization and evaluates the probe performance also in comparison with the previous realized ECT probe. The probe performance characterization has been carried out both in simulation and real environments. In detail, as for the real tests, two aluminum plates with 5mm and 1mm subsuperficial cracks have been considered.
ECT probe improvement for in-service non-destructive testing on conductive materials / Bernieri, A.; Betta, G.; Ferrigno, L.; Laracca, M.; Rasile, A.. - (2018), pp. 169-173. (Intervento presentato al convegno 2018 IEEE International instrumentation and measurement technology conference, I2MTC 2018 tenutosi a Houston; United States) [10.1109/I2MTC.2018.8409837].
ECT probe improvement for in-service non-destructive testing on conductive materials
Laracca M.;
2018
Abstract
The paper proposes the improvement of a measurement probe for Eddy Current Non-Destructive Testing (EC-NDT) applied to the defect investigation on conductive materials. The aim is to increase the defect detection sensitivity in order to investigate very small and sub-superficial defect The paper describes the probe realization and evaluates the probe performance also in comparison with the previous realized ECT probe. The probe performance characterization has been carried out both in simulation and real environments. In detail, as for the real tests, two aluminum plates with 5mm and 1mm subsuperficial cracks have been considered.File | Dimensione | Formato | |
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Bernieri_ECT probe improvement_2018.pdf
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