Technical Diagnostics and Non-Destructive Testing, 2022, №03



2022 №03 (04)

DOI of Article 10.37434/tdnk2022.03.05

2022 №03 (06)

---

Technical Diagnostics and Non-Destructive Testing #3, 2022, pp. 30-34

Tightness testing of aviation systems (Review)

M.L. Kazakevych¹, V.M. Kazakevych¹, She Xiangyu²

¹State Enterprise «KOLORAN» L.V. Pisarzhevsky Institute of Physical Chemistry of NASU. 31, Nauky Ave., 03028, Kyiv, Ukraine. E-mail: m_kazakevich@ukr.net
²National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute». 37 Peremohy Ave., 03056, Kyiv, Ukraine. E-mail: 398118509@qq.com

ПThe proposed publication includes a review of contemporary methods in the field of detection of leaks of test and working media, which are intended for the functioning of systems responsible for the trouble-free operation of aircraft. A new approach to preserving the viability of modern aviation structures allows for a progressive technological cycle of leak detection and protection of aircraft from damage. Currently there are elaborated number of methods for leak detection of aircraft. Each of this approach has own peculiarities and can detect defects with different sensitivity. In this paper we compare possibilities of leak testing technologies and describe their usage for control of aviation systems. Ref. 13, Tabl. 1, Fig. 5.
Keywords: methods of leak testing, defect, nondestructive testing

Received: 05.07.2022

References

1. Zapunny, A.I., Feldman, L.S., Rogal, V.F. (1976) Tightness control of constructions. Kyiv, Technika. [in Russian].
2. Troitskyi, V.A., Karmanov, M.N., Troitskaya, N.V. (2014) Nondestructive quality control of composite materials. Tekh. Diagnost. i Nerazrush. Kontrol, 3, 29-33 [in Russian].
3. Kazakevich, M.L., Semenets, A.I., Derecha, V.YA., Kazakevich, V.M. (2015) Modern tasks of diagnostics of technical condition of aviation equipment by penetrant inspection. Ibid, 3, 49-51 [in Russian]. https://doi.org/10.15407/tdnk2015.03.09
4. Maslov, B.G. (1991) Penetrant flaw detection. Moscow, High School [in Russian].
5. Kisil, I.S., Kazakevich, M.L, Vitvitska, L.A. (2003) New generation of capillary testing materials. Methods and Devises of Quality Control, 10, 36-40 [in Ukrainian].
6. Lyu Yanlin et al. (2021) An ultrasonic-based detection of airleakage for the unclosed components of aircraft. Aerospace, 8.2, 55. https://doi.org/10.3390/aerospace8020055
7. Halmshaw, R. (2003) Nondestructive testing. In: Encyclopedia of Physical Science and Technology. Academic Press, Third Edition, 493-505. https://doi.org/10.1016/B0-12-227410-5/00482-8
8. Uludag Alper (2016) The Magnetic Particle Inspection Examination of Aircraft Propeller Mounting Bolts. Journal of Multidisciplinary Engineering Science and Technology, 3, 12, 6337-6341.
9. Kazakevych, M.L, Semenets, O.I., Derecha, V.Ya., Kazakevych, V.M. (2016) Development of tightness monitoring technologies of unclosed structures in aviation. Proceedings of 19th The World Conference on Nondestructive Testing (WCNDT) 13-17 June, Munich, Germany, https:// www.wcndt2016.com/portals/wcndt/bb/Tu2I3.pdf.
10. Kazakevych, M.L, Semenets, O.I., Derecha, V.Ya. (2015) Patent for the utility model «Indicator material for detecting defects in the surface layers of machine parts» № 100082, registered in the State Register of Patents on July 10, 2015. https://uapatents.com/6-100082-indikatornijj-material-dlyaviyavlennya-defektiv-v-poverkhnevikh-sharakh-detalejjmashin. html [in Ukrainian].
11. Kazakevich, M.L. (2005) Indicator penetrant for capillary flaw detection. № 74060. MPK: G01N 21/91 [in Ukrainian].
12. Vasylenko, I.V., Kazakevych, M.L., Pavlishchuk, V.V. (2019) Design of Ferrofluids and Luminescent Ferrofluids Derived from CoFe2O4. Nanoparticles for Nondestructive Defect Monitoring. Theoretical and Experimental Chemistry, 54, 6, 365-368. https://doi.org/10.1007/s11237-019-09582-w
13. Vasylenko, I.V., Pavlishchuk, V.V. Kazakevych, M.L., Kolotilov, S.V. (2017) Patent for the utility model «Magnetic liquid for magnetic powder flaw detection» № 116493, registered in the State Register of Patents on May 25, 2017. DOI:https://iprop-ua.com/inv/4h96mh7u/ [in Ukrainian].

---

Advertising in this issue:

---