Issue 39

S. Harzallah et alii, Frattura ed Integrità Strutturale, 39 (2017) 282-290; DOI: 10.3221/IGF-ESIS.39.26 290 Figure 15 : Evaluation of the reactance of the sensor vs. crack width. Figure 16 : Evaluation of resistance of the sensor vs. crack depth. R EFERENCES [1] Horan. P, Underhill. P. R., Krause. T. W., Pulsed eddy current detection of cracks in F/A- 18 inner wing spar without wing skin removal using modified principal component analysis, NDT&E International, 55 (2013) 21-27. [2] Hamia, R., Dolabdjian, C., Eddy-current non-destructive testing system for the determination of crack orientation, NDT & E International, 61 (2014) 24–28. [3] Uchimoto, T., Takagi, T., Ichihara, T., Dobmann, G., Evaluation of fatigue cracks by an angle beam EMAT–ET dual probe, NDT & E International, 72 (2015) 10–16. [4] Zaoui, A., Menana, H., Feliachi, M., Berthiau, G., Inverse problem in nondestructive testing using arrayed eddy current sensors.Sensors, 10(9) (2010) 8696-8704. [5] Skarlatos, A., Pichenot, G., Lesselier, D., Electromagnetic modeling of a damaged ferromagnetic metal tube via a volume integral formulation,IEEE Trans. Mag, 44 (2008) 623-632. [6] Garcia-Martin, J., Gomez-Gil, J., Vazquez-Sanchez, E., Non-destructive techniques based on eddy current testing, Sensors, 3 (2011) 2525-2565. [7] Harzallah, S., Chabaat, M., Nondestructive technique for the determination of cracks parameters by eddy current in differential mode, Journal of Applied Mechanics & Materials, 532 (2014) 81-89. [8] Harzallah, S., Chabaat, M., Benissad, S., Formulation for stress intensity factors and J-integral calculation by eddy current testing, International Journal of Key Engineering Materials, 660 (2015) 225-230. [9] Harzallah, S., Chabaat, M., Benissad, S., Inverse problems using neural networks for cracks characterization in materials, International Journal of Key Engineering Materials, 660 (2015) 361-365. [10] Harzallah, S., Chabaat, M., Eddy current sensor modeling for the nondestructive evaluation of stress intensity factor, Journal AASRIProcedia, Elsevier Ltd., 9 (2014) 57–63. [11] Harzallah, S., Chabaat, M., Bin Muhammad, B.F., Eddy current modeling by finite element method for evaluation of mechanical properties of the structure cracked in absolute probe, AIP Conference Proceedings, 1637(1) (2014) 1416. [12] Harzallah, S., Chabaat, M., Bin Muhammad, B.F., Non destructive technique for cracks detection by an eddy current in differential mode for steel frames, AIP Conf. Proc., 1637 (2014) 1406. [13] Chabane, K., Harzallah, S., Chabaat, M., 3D eddy current testing by FEM for detection of cracks in materials, International Journal of Key Engineering Materials, 703 (2016) 349. 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 1000 1050 1100 1150 1200 1250 x desplacement (m) The imaginary part absult (IM) w=3mm w=2mm w=1mm 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 1000 1050 1100 1150 1200 1250 Xdesplacement (m) The real part absult (Re) w=1mm w=2mm w=3mm