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
2014, 08 August

DOI: 10.14489/td.2014.08.pp.049-056

 

Rastegaev I.A., Danyuk А.V., Vinogradov А.Yu., Merson D.L., Rastegaeva I.I.
ANALYSIS OF NOISE-LIKE SIGNALS OF ACOUSTIC EMISSION METHODS BROADBAND FILTERING
(pp. 49-56)

Abstract. The work summarizes the experience of broadband analysis of signals of acoustic emission (AE). The main aim of the work consists in the use of filters of a special shape, which are images of the permanent presence of noise from background physical processes. The proposed approach allows: to reduce noise in the signal AE and to increase the signal to noise ratio; to assess the influence of the path propagation on the distortion of AE; to use as filters AE signals from background processes; to provide sensitive frequency spectrum of the investigated process.

Keywords: acoustic emission, pseudonoise signals, noise reduction, diagnostics.

 

 I. A. Rastegaev,  A. V. Danyuk, A. Yu. Vinogradov, D. L. Merson, I. I. Rastegaeva
Togliatti State University, Togliatti, Russia. E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

 

 

1. Baranov V. M., Kudriavtsev E. M., Sarychev G. A., Shchavelin V. M. (1998). Acoustic emission in friction. Moscow: Energoatomizdat.
2. Isakov A. Ia., Isakov A. A. (2006). Cavitation in in-termixing devices. Petropavlovsk-Kamchatskii: KamchatGTU.
3. Merson D. L., Polunin V. I., Chudinov B. A. et al. (2007). Study of the fracture of surfaces, deformable friction by acoustic emission method. Trenie i smazka v mashinakh i mekhanizmakh, (8), pp. 9-13.
4. Rastegaev I. A., Merson D. L., Vinogradov A. Iu. (2012). O probleme identifikatsii dominiruiushchikh mekhanizmov iznashivaniia tribosopriazhenii po signalam akusticheskoi emissii. (On the problem of identification of the dominant mechanisms of wear, friction on signals of acoustic emission). Sbornik trudov XII Mezhdunarodnoi konferentsii «Tribologiia i nadezhnost'». (Proceedings of the XII International Conference «Tribology and reliability»). St. Petersburg: BGTU im. D. F. Ustinova (VOENMEKh), pp. 98 – 111.
5. Rastegaev I. A., Merson D. L., Rastegaeva I. I. et al. (2012). Comparative spectral analysis of noise-like acoustic signals during monitoring and diagnostics of industrial facili-ties. Kontrol'. Diagnostika, (10), pp. 80-87.
6. Petelin R. Iu., Petelin Iu. V. (2002). Cool Edit Pro 2. The secrets of mastery. St. Petersburg: BKhV-Peterburg, IG «Arlit».
7. ALGLIB open sources. Electronic library of algo-rithms of numerical data analysis. Available at: http://alglib.sources.ru (Accessed 17.06.13).
8. Ostanin S. A. (2011). The increase of the signal-to-noise ratio by the method of calculation of the autocorrelation function. Zhurnal radioelektroniki, (12), pp. 1-9.
9. Scientific projects: description and technical char-acteristics of calibrator of acoustic emission transducers MSAE-UCA01. Official site NIO-2. Togliatti State University. Available at: http://www.intelligent-lab.ru (Accessed: 17.06.13).
10. Materials of lubricating oil and grease. The method of determining the tribological characteristics on the four-ball machine. (1994). Standard No. GOST 9490–75. Moscow: Izdatel'stvo standartov.
11. Sviredenok A. I. et al. (2013). The method of study of wear resistance of solids: Pat. SU 979958. FIPS official site: Open register of inventions. Available at: http://www1.fips.ru/wps/portal/Registers (Accessed: 17.06.13).
12. Ponomarev Iu. N. et al. (2013). Method of diagnos-tics of friction pair: Pat. SU 1113710. FIPS official site: Open register of inventions. Available at: http://www1.fips.ru/wps/portal/Registers (Accessed: 17.06.13).
13. Sarychev G. A., Shchavelin V. M. (1981). Method of monitoring the destruction of anti-friction coatings by means of registration of ultrasonic radiation. Fizika i mekhanika deformatsii i razrusheniia, (9), pp. 89-92.
14. Filatov S. V. (1982). Acoustic emission during abra-sive wear of materials. Trenie i iznos, 3(3), pp. 559-562.
15. Shchavelin V. M. et al. The way to determine the end of the break-in for the friction pair: Pat. SU 1073614. FIPS official site: Open register of inventions. Available at: http://www1.fips.ru/wps/portal/Registers (Accessed: 17.06.13).
16. Kozyrev Iu. P., Sedakova E. B. The method of con-tinuous monitoring of wearing of the friction pair: Pat. EN 2263891. FIPS official site: Open register of inventions. Available at: http://www1.fips.ru/wps/portal/Registers (Ac-cessed: 17.06.13).
17. Poduraev V. N., Barzov A. A., Gorelov V. A. (1988). Technological diagnostics of cutting by acoustic emission method. Moscow: Mashinostroenie.
18. Fisher R. M., Lally L. S. (1967). Microplasticity de-fected by an acoustic technique. Canad. J. Phys., 63(1), pp. 63-81.
19. Fadin Iu. A. et al. The method for determining the wear of the bearing sleeve: Pat. EN 2212648. FIPS official site: Open register of inventions. Available at: http://www1.fips.ru/wps/portal/Registers (Accessed 17.06.13).
20. Danyuk A, Merson D., Vinogradov A. (2013). New Prospects to use Acoustic Emission During Scratch Testing for Probing Fundamental Mechanisms of Plastic Deforma-tion. The 12-th Intern. Conf. of the Slovenian Society for Non-Destructive Tasting. Portoroz, Slovenia, pp. 567 – 574.

 

 

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