|
DOI: 10.14489/td.2019.10.pp.026-035
Fedotov M. Yu. , Budadin O. N., Kozelskaya S. O.
THE DEVELOPMENT OF OPTICAL TESTING TECHNOLOGY OF PCM STRUCTURES BY FIBER-OPTIC SENSORS
(pp. 26-35)
Abstract. The ways of development of optical control technology of polymer composite materials structures by fiber-optic sensors during production and operation are described and investigated. A mathematical model describing the process of PCM monitoring using fiber optic sensors based on fiber Bragg gratings, clarifying the parameters of a mathematical model by experimentally determining the sensitivity coefficient of fiber optic sensors integrated in PCM, makes it possible to reduce the error in measuring strain by 5 – 7 times. The interaction in the system fiber-optic sensors – PCM and found that the integration of fiber-optic sensors based on quartz fibers in PCM, there is a partial destruction of the protective acrylate shell, which leads to the effect of microslip, which does not significantly affect the quality of measurements and can be compensated for by calibration. The requirements for the placement of fiber-optic sensors in the PCM at the manufacturing stage, including the formation of the input / output zone are formulated. The technology of optical non-destructive testing of composite materials with fiber-optic sensors is described, taking into account the features of the interaction of fiber-optic sensors with composite structures.
Keywords: non-destructive testing, polymer composite material, optical control method, fiber optic sensor, fiber Bragg grating, optical control technology.
M. Yu. Fedotov (JSC Company “Research Institute of Introscopy of MSIA “Spectrum” (JSC “Spectrum-RII”), Moscow, Russia) E-mail:
Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
O. N. Budadin, S. O. Kozelskaya (JSC “Central Research Institute for Special Machinery”, Khotkovo, Russia) E-mail:
Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
,
Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
1. Basharov E. A., Vagin A. Yu. (2017). Analysis of the use of composite materials in the design of helicopter gliders. Trudy MAI, 92. Available at: http://trudymai. ru/upload/iblock/3a2/basharov_ vagin_rus.pdf (Accessed: 22.12.2018) [in Russian language]
2. The use of composite materials in the aircraft industry. Development prospects. Current status of projects. Electronic text, graphic data in the format *.html. Available at: http://www.hccomposite.com/upload/iblock/075/075b87d9c171f567f29fc4c4d3614440.pdf (Accessed: 10.07.2019)
3. Vagin A. Yu., Schetinin Yu. S. (2009). The use of polymer composite materials in the construction of Kamov helicopters. Collection of abstracts of the intersectoral conference "Composite materials in aerospace materials science". [in Russian language]
4. Moya D., Vila I., Virto A. L. (2013). Fiber Bragg grating sensors for smart- trackers: a real-time deformation, temperature and humidity monitor for the belle-ii vertex detector. IFCA (CSIC-UC) Forum on Tracking Detector Mechanics. Available at: https://slideplayer.com/slide/5797800 (Accessed: 10.07.2019)
5. Klyuev V. V. (Ed.), Ermolov I. N., Lange Yu. V. (2006). Non-Destructive Testing: Handbook: in 8 volumes. Vol. 3. Ultrasonic inspection. 2nd ed. Moscow: Mashinostroenie. [in Russian language]
6. Lange Yu. V. (1991). Acoustic low-frequency methods of non-destructive testing of multilayer structures. Moscow: Mashinostroenie. [in Russian language]
7. Kuznetsov A. O., Budadin O. N., Monahova E. G. et al. (2017). Thermal method for assessing the stability of technologies for manufacturing products from composite materials in their mass production. Kontrol'. Diagnostika, (11), pp. 20 – 24. [in Russian language] DOI: 10.14489/td.2017.11.pp.020-024
8. Larin A. A., Fedotov M. Yu., Buharov S. V. et al. (2017). New applications for fiber optic sensor systems. Prikladnaya fotonika, (4), pp. 310 – 324. [in Russian language]
9. Micron optics sensing products. Electronic text, graphic data in the format *.html. Available at: http://www.micronoptics.com/products-applications-1/ (Accessed: 10.07.2019)
10. Cost-efficient and high speed 1550 nm interrogation monitor for OEM integration. Electronic text, graphic data in the format *.html. Available at: http://www.micronoptics.com/products-applications-1/ (Accessed: 10.07.2019)
11. Fiber bragg grating transceivers. Product release. Electronic text, graphic data in the format *.html. Available at: http://www.redondooptics.com/FBGT_060209.pdf (Accessed: 10.07.2019)
12. Rack analyzer of signals ASTRO A31x. Electronic text, graphic data in the format *.html. Available at: https://i-sensor.ru/index.php/production/analizatory-signalov/stoechnyj (Accessed: 10.07.2019) [in Russian language]
13. Medvedkov, O. I., Korolev I. G., Vasil'ev S. A. (2004). Writing fiber Bragg gratings in a circuit with a Lloyd interferometer and modeling their spectral properties. Preprint № 6 NTsVO at the IOF RAN. [in Russian language]
14. Kogelnik H. (1988). Theory of optical-waveguides in guided wave optoelectronics. Springer Series in Electronics and Photonics book series (SSEP), Vol. 26, pp. 7 – 88. Berlin: Springer-Verlag.
15. Fedotov M. Yu., Budadin O. N. (2019). Mathematical modeling and experimental results of PCM inspection with fiber-optic sensors taking into account the influence of factors simulating real operating conditions. Kontrol'. Diagnostika, (4), pp. 12 – 19. [in Russian language] DOI: 10.14489/td.2019.04.pp.012-019
16. Fedotov M. Yu., Shienok A. M., Muhametov R. R. et al. (2017). Study of the interface between polymer matrices and optical fibers in information composites. Voprosy materialovedeniya, (1), pp. 155 – 168. [in Russian language]
17. Fedotov M. Yu., Buharov S. V., Muhametov R. R. (2017). Study of protective coatings for fiber-optic sensors intended for integration into polymer composite materials. Konstruktsii iz kompozitsionnyh materialov, 148(4), pp. 61 – 67. [in Russian language]
18. Muhametov R. R., Ahmadieva K. R., Deev I. S., Mahsidov V. V. (2016). Coating for fiber optic sensors. Uprochnyayuschie tekhnologii i pokrytiya, 141(9), pp. 29 – 34. [in Russian language]
19. Fedotov M. Yu., Budadin O. N., Kozel'skaya S. O. (2019). Technological aspects of creating a fiber-optic system of non-destructive testing of three-layer composite structures. Kontrol'. Diagnostika, (7), pp. 24 – 29. [in Russian language] DOI: 10.14489/td.2019.07.pp.024-029
20. Fedotov M. Yu., Budadin O. N., Vasil'ev S. A. et al. (2019). The effect of the integration of fiber optic sensors on the mechanical properties of polymer composite materials. Kontrol'. Diagnostika, (2), pp. 22 – 31. [in Russian language] DOI: 10.14489/td.2019.02.pp.022-030
21. Fedotov M. Yu., Budadin O. N., Vasil'ev S. A. et al. (2019). Study of the integrated fiber-optic system for diagnosing carbon fiber after exposure to technological modes of molding. Kontrol'. Diagnostika, (1), pp. 42 – 49. [in Russian language] DOI: 10.14489/td.2019.01.pp.042-049
22. Fedotov M. Yu., Budadin O. N., Vasil'ev S. A. et al. (2018). Investigation of an integrated fiber-optic system for diagnosing carbon fiber after exposure to thermal and heat-humidity aging. Kontrol'. Diagnostika, (11), pp. 26 – 30. [in Russian language] DOI: 10.14489/td.2018.11.pp.026-031
23. Fedotov M. Yu., Budadin O. N., Vasil'ev S. A. et al. (2019). Possibilities for monitoring external mechanical effects of a fiber-optic diagnostic system built into various types of CFRP. Kontrol'. Diagnostika, (3), pp. 38 – 47. [in Russian language] DOI: 10.14489/td.2019.03.pp.038-047
This article is available in electronic format (PDF).
The cost of a single article is 350 rubles. (including VAT 18%). After you place an order within a few days, you will receive following documents to your specified e-mail: account on payment and receipt to pay in the bank.
After depositing your payment on our bank account we send you file of the article by e-mail.
To order articles please copy the article doi:
10.14489/td.2019.10.pp.026-035
and fill out the form
|
Archive
Разработка концепции и создание сайта - ООО «Издательский дом «СПЕКТР»