Metodi e strumenti di misura per l'esecuzione di test non distruttivi ...

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Bibliografia [1] Associazione Italiana Prove non Distruttive (AIPnD), www.aipnd.it. [2] American Society for Nondestructive Testing (ASNT), www.asnt.org. [3] A. Zanobini, “L’affidabilità dei controlli non distruttivi,” Firenze 1994. [4] Associazione Italiana di Metallurgia – Centro Prove non Distruttive, Le prove non distruttive, Milano 2000. [5] Non Destructive Testing Handbook 2nd Edition Volume 4 b-Electromagnetic Testing, Ed. Paul McIntyre/Mike Mester, American Society for Nondestructive Testing, 1986. [6] http://www.aiman.com/regioni/lazio/2005_marzo_16_maciga.pdf. Andrea Magica, Diagnostica e manutenzione, intervento all’incontro: “Manutenzione degli impianti e delle infrastrutture: sistemi informativi, strumenti di videocomunicazione e di diagnostica”, Roma, 16 marzo 2005. [7] L. Furlanetto, Manuale di manutenzione degli impianti industriali e servizi, ed. Franco Angeli. [8] Associazione Italiana Manutenzione (AIMAN), www.aiman.com. [9] Directive 85/374/EEC, amended by Directive 99/34/EC, “EU Directive on the responsibility for defective products”, 1999. [10] NORMA UNI EN 13018: “Prove non Distruttive - Esame visivo - Principi generali”. [11] NORMA UNI EN 583-1: “Prove non Distruttive - Esami ad ultrasuoni – Principio generali”. [12] NORMA UNI EN 571-1: “Prove non Distruttive - Esami con liquidi penetranti - Principi generali”. [13] NORMA UNI EN ISO 9934-1: “Prove non distruttive - Magnetoscopia - Principi generali”. [14] NORMA UNI EN 444: “Prove non Distruttive - Principi generali per l'esame radiografico di materiali metallici mediante raggi X e gamma”. [15] G. Magistrali, A. Rastaldo, G. Torrida, “Corso di specializzazione sui controlli non distruttivi – Correnti indotte,” Associazione Italiana Prove non Distruttive. [16] G. Magistrali, “Metodo delle correnti indotte - Aspetti teorici e relativi sviluppi analitici,” Associazione Italiana Prove non Distruttive, Torino 1995 [17] Yoshiaki Nagaya, Toshiyuki Takagi, Tetsuya Uchimoto, Haoyu Huang, “Identification of Multiple Cracks from Eddy-Curren Testing Signals With Noise Sources by Image Processing and Inverse Analysis,” IEEE Transactions on Magnetics, vol. 40, no. 2, march 2004 [18] M. Bahramgiri, K. Barkeshli, “Non-Destructive Testing of Cracks Using Eddy Currents and a Generalized Regression Neural Network,” IEEE Antennas and Propagation Society International Symposium, 2003. [19] NORMA UNI EN 12084: “Prove non distruttive - Controllo mediante correnti indotte - Principi generali e linee guida”. [20] NORMA UNI EN 13860-1/2/3: “Prove non distruttive - Controllo mediante correnti indotte - Caratteristiche dell’apparecchiatura e modalità di verifica - Caratteristiche della strumentazione e modalità di verifica”. [21] J.Cox, D. Brown, “Eddy Current Instrumentation,” Zetec, Inc., Snoqualmie (WA), USA, October 2003. [22] S. Calcagno et al., “Damage analysis of thin metallic plates,” in advances in Structural Engineering and Mechanics, ASEM’02, Pusan, Corea, 2002. [23] Z. Chen, K. Aoto, K. Miya, “Reconstruction of cracks with physical closure from signals of eddy current testing,” IEEE Transactions on Magnetics, Vol. 36, N. 4, Part 1, pp. 1018 – 1022, 2000. [24] G. Preda,.B. Cranganu-Cretu, F.I. Hantila, O. Mihalache, Zhenmao Chen, K. Miya, “Nonlinear FEM- BEM formulation and model-free inversion procedure for reconstruction of cracks using pulse eddy currents,” IEEE Transactions on Magnetics, Vol. 38, N. 2, Part 1, pp. 1241 – 1244, 2002. [25] S. Calcagno, F.C. Morabito, M. Versaci, “A novel approach for detecting and classifying defects in metallic plates,” IEEE Transactions on Magnetics, Vol. 39, N. 3, Part 1, pp. 1531-1534, May 2003. [26] Y. Nagaya, T. Takagi, T. Uchimoto, Haoyu Huang, “Identification of multiple cracks from eddy-current testing signals with noise sources by image processing and inverse analysis,” IEEE Transactions on Magnetics, Vol. 40, N. 2, Part 2, pp. 1112 – 1115, 2004. [27] Haoyu Huang, T. Takagi, T. Uchimoto, “Crack shape reconstruction in ferromagnetic materials using a novel fast numerical simulation method,” IEEE Transactions on Magnetics, Vol. 40, N. 2, Part 2, pp. 1374 – 1377, 2004. [28] Y. Nagaya, H. Endo, T. Uchimoto, T. Takagi, H.J. Jung, L. Bartolomeo, “Crack shape reconstruction using ECT camera system,” SICE 2004 Annual Conference, Sapporo, Japan, vol.3, pp. 2760-2763, 2004. [29] G. Betta, L. Ferrigno, M. Laracca, “Calibration and adjustment of an eddy current based multi-sensor probe for non-destructive testing,” Atti del Convegno Internazionale Sensors for Industry Conference – SICON/02, Houston, Texas, USA, pp. 120-124, Novembre 2002.
Bibliografia [30] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “An automated self-calibrated instrument for nondestructive testing on conductive materials,” Atti del Convegno Internazionale XX IEEE Instrumentation and Measurement Tecnology Conference-IMTC/03, Vail, CO, USA, Vol. 2, pp. 1269- 1274, Maggio 2003. [31] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “A bi-axial probe for non destructive testing on conductive materials,” IEEE Transactions on Instrumentation and Measurement, Vol. 53, No. 3, pp. 678-684, Giugno 2004. [32] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “An automated self-calibrated instrument for non destructive testing on conductive materials,” IEEE Transactions on Instrumentation and Measurement, Vol. 53, No. 4, pp. 955-962, Agosto 2004. [33] A. Bernieri, L. Ferrigno, M. Laracca, M. Molinara, “An SVM Approach to Crack Shape Reconstruction in Eddy Current Testing,” Sottoposto ad accettazione del Convegno Internazionale, XXIII IEEE Instrumentation and Measurement Tecnology Conference-IMTC/06, Sorrento, Italia, Maggio 2006. [34] A. Bernieri, L. Ferrigno, M. Laracca, A. Tamburino, “A measurement system for inductance tomography on conductive materials”, Atti del Convegno Internazionale XVII IMEKO World Congress, Dubrovnic, Croazia, pp. 521-526, Giugno 2003. [35] A. Bernieri, L. Ferrigno, M.Laracca, S. Ventre, “The metrological characterization and optimization of a low cost measurement system for inductance tomography on conductive materials”, Atti del Convegno Internazionale XIII IMEKO-TC4, Atene, Grecia, Vol. 2, pp. 543-549, Settembre 2004. [36] P. Ripka, “Review of fluxgate sensors,” Sens. Actuators A., vol. 33, pp. 129–141, 1992. [37] S. Daróczi, J. Szöllõsy, G. Vértesy, J. Pávó, and K. Miya, “Electromagnetic NDT material testing by magnetic field sensor,” in Studies in Applied Electromagnetics and Mechanics 8, Nondestructive Testing of Materials, R. Collins, W. D. Dover, J. R. Bowler, and K. Miya, Eds. Amsterdam, The Netherlands: IOS, pp. 75–86, 1995. [38] Z. Chen and K. Miya, “Reconstruction of crack shapes using a newly developed ECT probe,” in Electromagnetic Nondestructive Evaluation (II), R. Albanese et al., Eds. Amsterdam, The Netherlands: IOS, pp. 225–232, 1998. [39] J. Pavo and A. Gasparics, “Numerical calibration of fluxset probe for quantitative eddy current testing,” in Proc. 8th IGTE Symp., Graz, Austria, pp. 387–390, 1998. [40] A. Gasparics, C. Daroczi, and G. Vertesy, “Improvement of ECT probes based on fluxset type magnetic field sensor,” in Electromagnetic Nondestructive Evaluation (II), Albanese et al., Eds. Amsterdam, The Netherlands: IOS, pp. 146–151, 1998. [41] D. Ioan, M. Rebican, and G. Ciuprina, “3D REM model of a fluxset sensor,” in Electromagnetic Nondestructive Evaluation (II), Albanese et al., Eds. Amsterdam, The Netherlands: IOS, pp. 152–159, 1998. [42] A. Bernieri, G. Betta, G. Rubinacci, F. Villone, “A measurement system based on magnetic sensors for nondestructive testing,” IEEE Transaction on Instrumentation and Measurement, vol. 49, n. 2, pp. 455- 459, April 2000. [43] A. Bernieri, G. Betta, and L. Ferrigno, “Improving nondestructive testing probe performance by digital processing techniques,” IEEE Transaction on Instrumentation and Measurement, vol. 52, n. 3, pp. 959- 965, June 2003. [44] R. Albanese, G. Rubinacci, and F. Villone, “An integral computational model for crack simulation and detection via eddy currents,” J. Comput. Phys., vol. 152, pp. 736–755, 1999. [45] A. Bernieri, G. Betta, L. Ferrigno “Characterization of an eddy-current-based system for nondestructive testing,” IEEE Transaction on Instrumentation and Measurement, vol. 51, n. 2, pp. 241-245, April 2002. [46] G. Rubinacci, A. Tamburrino, S. Ventre and F. Villone, “Shape identification in conductive materials by electrical resistance tomography”, in E’NDE, Electromagnetic Non-destructive Evaluation (VI), F. Kojima et al. (Eds.), pp. 13-20, IOS Press, 2002. [47] A. Tamburrino and G. Rubinacci, “A new non-iterative inversion method in electrical resistance tomography”, Inverse Problems, vol. 18, 2002. [48] G. Rubinacci, A. Tamburrino and F. Villone, “Shape identification of conductive anomalies by a new ECT data inversion algorithm” Proc. of the 4th International Conference Computation in Electromagnetics (CEM 2002), Bournemouth (UK), 2002. [49] G. Rubinacci and A. Tamburrino, “A non-iterative ECT data inversion algorithm”, Proc. of the 8th International Workshop on Electromagnetic Nondestructive Evaluation (ENDE 2002), 2002, Saarbruecken (D), 2002. [50] T. Takagi, M. Hashimoto, et al., “Benchmark model of eddy current testing for steam generator tube: experiment and numerical analysis,” International Journal of Applied Electromagnetic Material, vol. 5, pp 149, 1994. 170
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Ringraziamenti Dovuti e sentiti rin
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