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Experimental study of forced oscillations affinity-shaped reinforced thin-walled cylinder model

НазваExperimental study of forced oscillations affinity-shaped reinforced thin-walled cylinder model
Назва англійськоюExperimental study of forced oscillations affinity-shaped reinforced thin-walled cylinder model
АвториPetro Yasniy; Yuriy Pyndus; Mykhailo Hud
ПринадлежністьTernopil Ivan Puluj National Technical University, Ternopil, Ukraine
Бібліографічний описExperimental study of forced oscillations affinity-shaped reinforced thin-walled cylinder model / Petro Yasniy; Yuriy Pyndus; Mykhailo Hud // Scientific Journal of TNTU. — Tern.: TNTU, 2020. — Vol 100. — No 4. — P. 127–134.
Bibliographic description:Yasniy P.; Pyndus Yu.; Hud M. (2020) Experimental study of forced oscillations affinity-shaped reinforced thin-walled cylinder model. Scientific Journal of TNTU (Tern.), vol 100, no 4, pp. 127–134.
УДК

534.134 

Ключові слова

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.

ISSN:2522-4433
Перелік літератури
  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.
References:
  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.
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