Analysis of the state and problems of evaluation of stressed-deformed state of toroidal pressure hull for underwater apparats
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Published:
Sep 2, 2020
Keywords:
stressed-deformed state, torus, pressure hull, polymer composite materials
Main Article Content
Abstract
The analysis of the state and problems of evaluation of stresseddeformed state of toroidal pressure hulls, made of polymer composite materials, for underwater apparats
Article Details
How to Cite
Prystash, S. (2020). Analysis of the state and problems of evaluation of stressed-deformed state of toroidal pressure hull for underwater apparats. Herald of the Odessa National Maritime University, (61), 55-69. https://doi.org/10.47049/2226-1893-2020-1-55-69
Section
Construction and strength of vessels and means of ocean development
References
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2. Baba Eiichi. Large-sized submersible vessel. Mitsubishi Heavy Ind LTD, assignee, Patent of Japan №02150698, 13.February. 1992.
3. Prokof`ev S. (1998) Podvodny`e sredstva sil speczial`ny`kh operaczij zarubezhny`kh stran. Zarubezhnoe voennoe obozrenie Vol. 10. P.38-46
4. Ye.T. Burdun, A.V. Kreptiuk. Pidvodne sudno typu «Pirnaiuche bliudtse» pidvyshchenoi manevrenosti [Submersible sailboat of high maneuverability], Admiral Makarov National University of Shipbuilding, assignee, Patent of Ukraine UA 10913. 11 March 2013.
5. Energy systems of extended endurance in the 1-100 kilowatt range for undersea applications: a report National Research Council (U.S.). Committee on Undersea Warfare. Panel on Energy Sources National Academies (1968). P. 132.
6. Concept Design for a Manned Underwater Station / Defense Technical Information Center, (1967), P. 234.
7. Alan I. Prescott (2008) Ocean Engineering Research Advances. Nova Publishers, 334 p.
8. Cherny`kh K.F. Shamina V.A. (1963) Raschet toroobrazny`kh obolochek. Sb. «Issledovaniya po uprugosti i plastichnosti», 2, izd. (in Russian).
9. Burdun E.T., Kreptyuk A.V. (2014) Raczional`noe proektirovanie kompozitnogo prochnogo korpusa toroidal`noj formy` dlya tekhnicheskikh sredstv osvoeniya okeana. Vestnik AGTU. Ser. Morskaya tekhnika i tekhnologiya. Vol. 2. −Р. 27-36.
10. Ganeeva M.S. Kosolapova L.A. (1988) Chislennoe issledovanie ustojchivosti ortotropny`kh toroidal`ny`kh obolochek peremennoj tolshhiny. Issledovaniya po teorii obolochek: Trudy` seminara. – Vy`p. KhKhI, ch. I. – Kazan`. P. 23-36. (in Russian).
11. Ganeeva M.S., Kosolapova L.A. (1986) Nelinejny`j izgib i ustojchivost` tonkikh uprugikh ortotropny`kh toroidal`ny`kh obolochek pod dejstviem ravnomernogo vneshnego davleniya. Prochn. i ustojchivost` obolochek. Tr. semin. Kazan. fiz.-tekhn. in-ta. Vy`p. 19. Ch. 1, Kazan`. P. 23-26. (in Russian).
12. Ganeeva M.S. (1992) Prochnost` i ustojchivost` obolochek vrashheniya. M.: Nauka. (in Russian).
13. Ganeeva M.S., Kosolapova L.A. (1985) Chislennoe issledovanie napryazhenno-deformirovannogo sostoyaniya i ustojchivosti ortotropny`kh toroidal`ny`kh obolochek / M.S. Ganeeva, L.A. Kosolapova // Kazan`, 26 p. – Dep. v VINITI 29.01.85, № 864-85 DEP. (in Russian).
14. Grebenyuk S.N., Sy`soev Yu.A., Sy`soev N.Yu. (2010). Napryazhenno-deformirovannoe sostoyanie toroidal`ny`kh obolochek. Vestnik Zaporozhskogo naczional`nogo universiteta. № 2. P. 24-28. (in Russian).
2. Baba Eiichi. Large-sized submersible vessel. Mitsubishi Heavy Ind LTD, assignee, Patent of Japan №02150698, 13.February. 1992.
3. Prokof`ev S. (1998) Podvodny`e sredstva sil speczial`ny`kh operaczij zarubezhny`kh stran. Zarubezhnoe voennoe obozrenie Vol. 10. P.38-46
4. Ye.T. Burdun, A.V. Kreptiuk. Pidvodne sudno typu «Pirnaiuche bliudtse» pidvyshchenoi manevrenosti [Submersible sailboat of high maneuverability], Admiral Makarov National University of Shipbuilding, assignee, Patent of Ukraine UA 10913. 11 March 2013.
5. Energy systems of extended endurance in the 1-100 kilowatt range for undersea applications: a report National Research Council (U.S.). Committee on Undersea Warfare. Panel on Energy Sources National Academies (1968). P. 132.
6. Concept Design for a Manned Underwater Station / Defense Technical Information Center, (1967), P. 234.
7. Alan I. Prescott (2008) Ocean Engineering Research Advances. Nova Publishers, 334 p.
8. Cherny`kh K.F. Shamina V.A. (1963) Raschet toroobrazny`kh obolochek. Sb. «Issledovaniya po uprugosti i plastichnosti», 2, izd. (in Russian).
9. Burdun E.T., Kreptyuk A.V. (2014) Raczional`noe proektirovanie kompozitnogo prochnogo korpusa toroidal`noj formy` dlya tekhnicheskikh sredstv osvoeniya okeana. Vestnik AGTU. Ser. Morskaya tekhnika i tekhnologiya. Vol. 2. −Р. 27-36.
10. Ganeeva M.S. Kosolapova L.A. (1988) Chislennoe issledovanie ustojchivosti ortotropny`kh toroidal`ny`kh obolochek peremennoj tolshhiny. Issledovaniya po teorii obolochek: Trudy` seminara. – Vy`p. KhKhI, ch. I. – Kazan`. P. 23-36. (in Russian).
11. Ganeeva M.S., Kosolapova L.A. (1986) Nelinejny`j izgib i ustojchivost` tonkikh uprugikh ortotropny`kh toroidal`ny`kh obolochek pod dejstviem ravnomernogo vneshnego davleniya. Prochn. i ustojchivost` obolochek. Tr. semin. Kazan. fiz.-tekhn. in-ta. Vy`p. 19. Ch. 1, Kazan`. P. 23-26. (in Russian).
12. Ganeeva M.S. (1992) Prochnost` i ustojchivost` obolochek vrashheniya. M.: Nauka. (in Russian).
13. Ganeeva M.S., Kosolapova L.A. (1985) Chislennoe issledovanie napryazhenno-deformirovannogo sostoyaniya i ustojchivosti ortotropny`kh toroidal`ny`kh obolochek / M.S. Ganeeva, L.A. Kosolapova // Kazan`, 26 p. – Dep. v VINITI 29.01.85, № 864-85 DEP. (in Russian).
14. Grebenyuk S.N., Sy`soev Yu.A., Sy`soev N.Yu. (2010). Napryazhenno-deformirovannoe sostoyanie toroidal`ny`kh obolochek. Vestnik Zaporozhskogo naczional`nogo universiteta. № 2. P. 24-28. (in Russian).