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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22 | 12 | 2024
2016, 06, June

DOI: 10.14489/td.2016.06.pp.066-071

 

Stepanova L.N., Anokhin G.G., Kabanov S.I., Ramazanov I.S., Chernova V.V.
IMPROVING ACOUSTIC EMISSION LOCATIONS OF DEFECTS DURING STRENGTH TESTING OF CFRP STRUCTURES
(pp. 66-71)

Abstract. The article is dedicated to the comparative analysis of the application of the analytical and tabular methods for determining the times of arrival of the signals of acoustic emission (AE) to the acoustic sensors of a piezo antenna. The strength tests of the samples made of CFRP T700 with different thickness and type of reinforcement stacking of monolayers were conducted. The samples have the stress concentrators in the form of impact or the holes of diameter d =14 mm. After the development of the defects control methods in static testing of the samples, studies of the spar of the horizontal tail of plane CFRP were conducted.

Keywords: carbon fiber reinforced plastic (CFRP), acoustic emission, static loading, sample, longeron, location.

 

L. N. Stepanova, G. G. Anokhin, S. I. Kabanov, I. S. Ramazanov (Federal State Unitary Enterprise “Siberian Aeronautical Research Institute named after S. A. Chaplygin”, Novosibirsk, Russia) E-mail: aergroup@ ngs.ru
V. V. Chernova (Siberian Transport University STU, Novosibirsk, Russia)

 

 

1. De Waele W., Degrieck I., De Baets P. (2003). Feasibility of integrated optical fiber sensors for condition monitoring of composite structures. Part II. Combination of Bragg-sensors and acoustic emission detection. Insight, 45(8), pp. 542-553. doi: 10.1784/insi.45.8.542.52922
2. Kurokawa Y., Mizutani Y., Mayuzumi M. (2005). Real time executing source location system applicable to anisotropic thin structures. Journal of Acoustic Emission, 23, pp. 224-232.
3. Zhang T., Wang X., Yang B. (2007). An investigation into the propagation characteristics of AE signal in PE/PE composite laminates. Insight, 49(11), pp. 665-668. doi: 10.1784/insi.2007.49.11.665
4. Beckermann G. (2016). Nanofibre veils for high – performance composites. JEC COMPOSITES, 102, pp. 39-42.
5. Nedoseka S. A., Ovsienko M. A. (2012). Data processing of acoustic emission in complex and multiple location antennas. Tekhnicheskaia diagnostika i nerazrushaiushchii kontrol', (2), pp. 7-12.
6. Seryeznov A. N., Stepanova L. N., Murav’ev V. V. et al. (2000). Structure monitoring using acoustic emission technique. Moscow: Radio i svyaz’.
7. Stepanova L. N., Chernova V. V., Ramazanov I. S. (2015). A procedure for locating acoustic-emission signals during static testing of carbon composite samples. Defektoskopiia, (4), pp. 53-62.
8. Stepanova L. N., Petrov M. G., Chernova V. V. et al. (2016). Research of CFRP samples’ inelastic properties during cycling tests with acoustic emission technique and strain gauging. Deformatsiia i razrushenie materialov, (5), pp. 37-41.
9. Shulzhenko M. N. (1971). Design of the aircraft. Moscow: Mashinostroenie.

 

 

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