Analysis of mass perfection of miniature organoplastic pressure tanks

1. I. F. Obraztsov, “Urgent problems of the mechanics of structures formed from composite materials,” Prikl. Mat. Mekh.,50, No. 6, 885–889 (1986).

   Google Scholar 

2. A. L. Abibov, B. V. Boitsov, G. A. Molodtsov, and I. Yu. Sheideman, Use of Structural Plastics in Aircraft Production [in Russian], Moscow (1971).

3. G. Lewis, “Theories of failure of filament wound case composite materials,” SAMPE Quarterly,17, No. 4, 59–64 (1986).

   Google Scholar 

4. I. Kh. Fakhrutdinov, Solid Fuel Rocket Engines [in Russian], Moscow (1981).

5. G. Skrechko, “New reservoirs for the gas tanks of buses,” Avtomobil. Transp., No. 8, 40–42 (1988).

   Google Scholar 

6. V. A. Rach, A. I. Denisenko, and G. M. Varvanin, “An actuator formed from a composition material for automated local-fire-fighting systems,” Information Sheets Published by the Voroshilovgrad Central Scientific and Technical Institute, No. 88-044, (1988).

7. L. J. Korb, Space vehicle, Composition Materials [Russian translation], Vol. 3, 78–129, Moscow (1978).

   Google Scholar 

8. V. P. Makeev and N. P. Ershov, Methods for calculating structures formed from composition materials, Scientific Bases of Progressive Engineering and Technology [in Russian], Moscow (1986), pp. 27–46.

9. V. A. Kalinchev and M. S. Makarov, Wound Fiberglasses [in Russian], Moscow (1986).

10. A. A. Filipenko, A. F. Ermolenko, and V. D. Protasov, “Analysis of mass perfection of cylindrical spiral-wound shells with different physicomechanical layer characteristics,” Mekh. Kompozitn. Mater., No. 3, 464–471 (1987).

    Google Scholar 

11. V. A. Rach, Structural and technological principle of the development of miniature structures formed from reinforced plastics, Theses of Papers Presented at the First All-Union Scientific-Technical Seminar “Use of Composite Materials in Machine Building,” Voroshilovgrad (1987), p. 90.

12. I. F. Obraztsov, V. V. Vasil'ev, and V. A. Bunakov, Optimal Reinforcement of Shells of Revolution Formed from Composition Materials [in Russian], Moscow (1977).

13. A. N. Elpat'evskii and V. V. Vasil'ev, Strength of Cylindrical Shells Formed from Reinforced Materials [in Russian], Moscow (1972).

14. A. A. Krikanov, Determination of the thicknesses of composite shells of revolution, formed by the method of winding, Mechanics of Reinforced Plastics [in Russian], Riga (1983), pp. 90–97.

15. G. P. Bashin, Investigation of the structural and geometric parameters of shells fabricated by winding, Deposited in the All-Union Institute for Scientific and Technical Information, No. 5283-85 (1985).

16. V. A. Rach, V. S. Ivanovskii, and A. B. Mitkevich, Peculiarities of the utilization of the strength of initial fibers in differently oriented layers of wound organoplastic structures, Mechanics of Reinforced Plastics [in Russian], Riga (1985), pp. 43–48.

17. V. N. Kiselev, Predicting the strength of organoplastic spiral-tangential wound shells from their deformation under a test load, Author's Abstract of Dissertation for Candidate of Technical Sciences [in Russian], Riga (1986).

18. V. A. Rach and A. V. Karallin, Characteristic design features of pressure tanks formed from composition materials for the automobile industry, Construction and Production of Transportation Machinery [in Russian], Khar'kov (1987), pp. 99–101.

Download references