534.134 

reinforced cylindrical shell, forced oscillations, stringers, frames.

In this paper, the experimental study of forced oscillations affinity-shaped model that strengthened since mid-stringers and frames. For the experimental investigations of forced transverse vibrations horizontally oriented cylindrical shell using a modification of previously proposed methods.

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11. Iasnii V. Technique and some study results of shape memory alloy-based damping device functional parameters. Scientific Journal of TNTU. Tern.: TNTU, 2020. Vol. 97. No. 1. P. 37–44.

1. V. I. Mossakovskiy, A. G. Makarenkov, P. I. Nikitin, Yu. I. Savin, I. N. Spiridonov. Prochnost raketnyih konstruktsiy. Moskva: Vyisshaya shkola, 1990. 358 p. [In Russian].
2. I. Ya. Amiro, V. A. Zarutskiy. Teoriya rebristyih obolochek. Kiev: Naukova dumka, 1980, 367 p. [In Russian].
3. I. Ya. Amiro, O. A. Grachev, V. A. Zarutskiy, A. S. Palchevskiy, Yu. A. Sannikov. Ustoychivost rebristyih obolochek vrascheniya. Kiev: Naukova dumka, 1987. 180 p. [In Russian].
4. I. V. Andrianov, V. A. Lesnichaya, V. V. Loboda, L. I. Manevich. Raschet prochnosti rebristyih obolochek inzhenernyih konstruktsiy. Kiev: Vischa shkola, 1986. 167 p. [In Russian].
5. V. A. Ostapyuk, O. E. Arlekinova. Issledovaniye rezultatov eksperimentalnogo opredeleniya nagruzheniya rakety-nositelya pri morskoy transportirovke na startovoy platforme. [In Russian].
6. Shevchenko V. P., Vlasov O. I., Kairov V. A. Eksperimentalnoe issledovanie sobstvennyih kolebaniy konstruktivno neodnorodnyih tsilindricheskih obolochek. Visnik Natsionalnogo tehnichnogo universitetu Ukrayini “Kiyivskiy politehnichniy institut”. Ser.: Mashinobuduvannya. 2013. № 2. P. 122–127.
7. Zarutskiy V. A. O kompleksnykh eksperimentalnykh issledovaniyakh ustoychivosti i kolebaniy konstruktivno-neodnorodnykh obolochek. Prikl. mekhanika. 2001. Vol. 37. No. 8. P. 38–67. [In Russian].
8. Pisarenko G. S., Strizhalo V. A. Eksperimentalnye metody v mekhanike deformiruemogo tela. K.: Nauk. dumka. 1986. 264 p. [In Russian].
9. Xie K., Chen M. An analytical method for free vibrations of functionally graded cylindrical shells with arbitrary intermediate ring supports. J Braz. Soc. Mech. Sci. Eng. 43, 100 (2021).
10. Yasniy Petro, Yuriy Pyndus, Mykhailo Hud. “Methodology for the experimental research of reinforced cylindrical shell forced oscillations.” Visnyk Ternopilskoho natsionalnoho tekhnichnoho universytetu 86.2 (2017): 7–13.
11. Iasnii V. Technique and some study results of shape memory alloy-based damping device functional parameters. Scientific Journal of TNTU. Tern.: TNTU, 2020. Vol. 97. No. 1. P. 37–44.