Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 11 | 2024
2016, 06, June

DOI: 10.14489/td.2016.06.pp.021-035

 

Danilov V.N., Razygraev A.N., Kobernik A.V.
MODELING THE ACTIVITY OF A DIRECT DUAL PROBE
(pp. 21-35)

Abstract. On the basis of the algorithm of calculation of displacement of a longitudinal wave which is radiated the shear wave probe, the model of an acoustic channel of a base signal of dual probe was designed and the calculations for a series of versions of parameters of such probe were conducted. The intermediate task was solved for obtaining the formula of an acoustic channel. The signal amplitude of a longitudinal wave, which was radiated and registered by identical angle probes located from both parties of a parallel plate layer, was calculated. Usage of the method of the mirror-image presentations of the receiving part of dual probe concerning the lower boundary of a layer was allowed to reduce a problem of calculation of an acoustic channel of this probe to review as a case of a layer. The method of a fixed phase in a farfield region allowed to obtain the approximated (asymptotic) formula used in calculations. Matching the idealized relation of a base signal with the experimental values shown their coincidence in error limits of used computational model and experiment was conducted. It is shown the capabilities of sensitization of the dual probes on the different distances by an angular variation of wedges, by a variation of spacing interval between the piezoplates and its sizes, by change remoteness piezoplates from a surface of the control.

Keywords: dual probe, longitudinal wave, piezoplate, potential, focal point, near field, bottom echo, directivity characteristic, attenuation coefficient, probe axis.

 

V. N. Danilov, A. N. Razygraev, A. V. Kobernik (JSC “RPA “CNIITMASH”, Moskow, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

 

 

1. Shcherbinskii V. G., Aleshin N. P. (2000). Ultrasonic testing of welded joints. 3rd Ed. Moscow: Izdatel'stvo MGTU im N. E. Baumana.
2. Ermolov I. N. (1981). Theory and practice of ultrasonic testing. Moscow: Mashinostroenie.
3. Klyuev V.V. (Ed.), Ermolov I. N., Lange Iu. V. (2006). Nondestructive testing. Handbook. In 8 volumes. Vol. 3. Ultrasonic inspection. 2nd Ed. (revised and complemented). Moscow: Mashinostroenie.
4. Ermolov I. N., Vopilkin A. Kh., Badalian V. G. (2000). Calculations in ultrasonic inspection: brief handbook. Moscow: NPTs NK «EKhO».
5. Aleshin N. P. (Ed.), Belyi V. E., Vopilkin A. Kh. et al. (1989). Methods for acoustic testing of metal. Moscow: Mashinostroenie.
6. Aleshin N. P., Baranov V. Iu., Mogil'ner L. Iu., Iarovoi A. A. (1985). Improving detection of bulk defects. Defektoskopiia, (7), pp. 24-30.
7. Ermolov I. N. (1992). Ultrasonic inspection: brief handbook. Moscow: NPO TsNIITMASh.
8. Danilov V. N. (2009). Calculation of acoustic field of angle beam probe in the far field zone. Defektoskopiia, (12), pp. 36-51.
9. Danilov V. N. (2015). Calculation of an acoustic channel of the angle beam probe for the cylindrical reflector. Kontrol'. Diagnostika, (1), pp. 33-45. doi: 10.14489/td. 2015.01.pp.033-045.
10. Danilov V. N. (2000). Model of electroacoustic defectoscope tract with dual element converter. Defektoskopiia, (5), pp. 12-20.
11. Danilov V. N. (2010). Calculation of DGS diagrams of angle beam probe. Defektoskopiia, (5), pp. 45-65.
12. Felsen L., Markuvits N. (1978). Waves radiation and scattering. Vol. 1. Moscow: Mir.
13. Danilov V. N. (2014). Definition of the size of a nearfield region of the angle beam probe with round piezoelement. Kontrol'. Diagnostika, (8), pp. 28-34. doi: 10.14489/td.2014.08.pp.028-034.
14. Danilov V. N. (2015). The formulas of an acoustic channel of the angle beam probe for a far field zone. Kontrol'. Diagnostika, (2), pp. 43-50. doi: 10.14489/td.2015.02.pp.043-050.
15. Danilov V. N. (2008). Calculation of amplitudes of echo signals for a normal transducer and reflectors in the form of flatbottom holes of different shapes. Defektoskopiia, (7), pp. 28-41.
16. Brekhovskikh L. M., Godin O. A. (1989). Acoustics of layered media. Moscow: Nauka.
17. Guz' A. N, Kubenko V. D., Cherevko M. A. (1978). Diffraction of elastic waves. Kiev: Naukova dumka.
18. Brekhovskikh L. M. (1973). Waves in layered media. Moscow: Nauka.
19. Danilov V. N., Izofatova N. Iu., Voronkov V. A. (1997). Comparison of theoretical and experimental results of the study of the normal combined transducers work. Defektoskopiia, (6), pp. 39-49.

 

 

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