Metodi e strumenti di misura per l'esecuzione di test non distruttivi ...
Metodi e strumenti di misura per l'esecuzione di test non distruttivi ...
Metodi e strumenti di misura per l'esecuzione di test non distruttivi ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Bibliografia<br />
[30] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “An automated self-calibrated instrument for <strong>non</strong>destructive<br />
<strong>test</strong>ing on conductive materials,” Atti del Convegno Internazionale XX IEEE<br />
Instrumentation and Measurement Tecnology Conference-IMTC/03, Vail, CO, USA, Vol. 2, pp. 1269-<br />
1274, Maggio 2003.<br />
[31] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “A bi-axial probe for <strong>non</strong> destructive <strong>test</strong>ing on<br />
conductive materials,” IEEE Transactions on Instrumentation and Measurement, Vol. 53, No. 3, pp.<br />
678-684, Giugno 2004.<br />
[32] A. Bernieri, G. Betta, L. Ferrigno, M. Laracca, “An automated self-calibrated instrument for <strong>non</strong><br />
destructive <strong>test</strong>ing on conductive materials,” IEEE Transactions on Instrumentation and Measurement,<br />
Vol. 53, No. 4, pp. 955-962, Agosto 2004.<br />
[33] A. Bernieri, L. Ferrigno, M. Laracca, M. Molinara, “An SVM Approach to Crack Shape Reconstruction<br />
in Eddy Current Testing,” Sottoposto ad accettazione del Convegno Internazionale, XXIII IEEE<br />
Instrumentation and Measurement Tecnology Conference-IMTC/06, Sorrento, Italia, Maggio 2006.<br />
[34] A. Bernieri, L. Ferrigno, M. Laracca, A. Tamburino, “A measurement system for inductance<br />
tomography on conductive materials”, Atti del Convegno Internazionale XVII IMEKO World<br />
Congress, Dubrovnic, Croazia, pp. 521-526, Giugno 2003.<br />
[35] A. Bernieri, L. Ferrigno, M.Laracca, S. Ventre, “The metrological characterization and optimization of<br />
a low cost measurement system for inductance tomography on conductive materials”, Atti del<br />
Convegno Internazionale XIII IMEKO-TC4, Atene, Grecia, Vol. 2, pp. 543-549, Settembre 2004.<br />
[36] P. Ripka, “Review of fluxgate sensors,” Sens. Actuators A., vol. 33, pp. 129–141, 1992.<br />
[37] S. Daróczi, J. Szöllõsy, G. Vértesy, J. Pávó, and K. Miya, “Electromagnetic NDT material <strong>test</strong>ing by<br />
magnetic field sensor,” in Stu<strong>di</strong>es in Applied Electromagnetics and Mechanics 8, Nondestructive<br />
Testing of Materials, R. Collins, W. D. Dover, J. R. Bowler, and K. Miya, Eds. Amsterdam, The<br />
Netherlands: IOS, pp. 75–86, 1995.<br />
[38] Z. Chen and K. Miya, “Reconstruction of crack shapes using a newly developed ECT probe,” in<br />
Electromagnetic Nondestructive Evaluation (II), R. Albanese et al., Eds. Amsterdam, The Netherlands:<br />
IOS, pp. 225–232, 1998.<br />
[39] J. Pavo and A. Gasparics, “Numerical calibration of fluxset probe for quantitative eddy current <strong>test</strong>ing,”<br />
in Proc. 8th IGTE Symp., Graz, Austria, pp. 387–390, 1998.<br />
[40] A. Gasparics, C. Daroczi, and G. Vertesy, “Improvement of ECT probes based on fluxset type magnetic<br />
field sensor,” in Electromagnetic Nondestructive Evaluation (II), Albanese et al., Eds. Amsterdam, The<br />
Netherlands: IOS, pp. 146–151, 1998.<br />
[41] D. Ioan, M. Rebican, and G. Ciuprina, “3D REM model of a fluxset sensor,” in Electromagnetic<br />
Nondestructive Evaluation (II), Albanese et al., Eds. Amsterdam, The Netherlands: IOS, pp. 152–159,<br />
1998.<br />
[42] A. Bernieri, G. Betta, G. Rubinacci, F. Villone, “A measurement system based on magnetic sensors for<br />
<strong>non</strong>destructive <strong>test</strong>ing,” IEEE Transaction on Instrumentation and Measurement, vol. 49, n. 2, pp. 455-<br />
459, April 2000.<br />
[43] A. Bernieri, G. Betta, and L. Ferrigno, “Improving <strong>non</strong>destructive <strong>test</strong>ing probe <strong>per</strong>formance by <strong>di</strong>gital<br />
processing techniques,” IEEE Transaction on Instrumentation and Measurement, vol. 52, n. 3, pp. 959-<br />
965, June 2003.<br />
[44] R. Albanese, G. Rubinacci, and F. Villone, “An integral computational model for crack simulation and<br />
detection via eddy currents,” J. Comput. Phys., vol. 152, pp. 736–755, 1999.<br />
[45] A. Bernieri, G. Betta, L. Ferrigno “Characterization of an eddy-current-based system for <strong>non</strong>destructive<br />
<strong>test</strong>ing,” IEEE Transaction on Instrumentation and Measurement, vol. 51, n. 2, pp. 241-245,<br />
April 2002.<br />
[46] G. Rubinacci, A. Tamburrino, S. Ventre and F. Villone, “Shape identification in conductive materials<br />
by electrical resistance tomography”, in E’NDE, Electromagnetic Non-destructive Evaluation (VI), F.<br />
Kojima et al. (Eds.), pp. 13-20, IOS Press, 2002.<br />
[47] A. Tamburrino and G. Rubinacci, “A new <strong>non</strong>-iterative inversion method in electrical resistance<br />
tomography”, Inverse Problems, vol. 18, 2002.<br />
[48] G. Rubinacci, A. Tamburrino and F. Villone, “Shape identification of conductive anomalies by a new<br />
ECT data inversion algorithm” Proc. of the 4th International Conference Computation in<br />
Electromagnetics (CEM 2002), Bournemouth (UK), 2002.<br />
[49] G. Rubinacci and A. Tamburrino, “A <strong>non</strong>-iterative ECT data inversion algorithm”, Proc. of the 8th<br />
International Workshop on Electromagnetic Nondestructive Evaluation (ENDE 2002), 2002,<br />
Saarbruecken (D), 2002.<br />
[50] T. Takagi, M. Hashimoto, et al., “Benchmark model of eddy current <strong>test</strong>ing for steam generator tube:<br />
ex<strong>per</strong>iment and numerical analysis,” International Journal of Applied Electromagnetic Material, vol. 5,<br />
pp 149, 1994.<br />
170