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ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. Машиностроение. 2017. № 5
REFERENCES
[1] Feodos'ev V.I. Soprotivlenie materialov [Materials strength]. Moscow, Bauman MSTU
Publ., 1999. 592 p.
[2] Feodos'ev V.I. Izbrannye zadachi i voprosy po soprotivleniyu materialov [Select problems
and questions on materials strength]. Moscow, Nauka Publ., 1967. 376 p.
[3] Agamirov L.V. Soprotivlenie materialov [Materials strength]. Moscow, Astrel' Publ., 2003.
256 p.
[4] Vlasov V.Z. Izbrannye Trudy. T. 2: Tonkostennye uprugie sterzhni. Printsipy postroeniya
obshchey tekhnicheskoy teorii obolochek [Select as. Vol. 2. Thin-walled elastic rods.
Constructing principles of general technical theory of shells]. Moscow, AN SSSR Publ., 1963.
507 p.
[5] Rzhanitsyn A.R. Stroitel'naya mekhanika [Structural mechanics]. Moscow, Vysshaya Shko-
la Publ., 1982. 400 p.
[6] Bychkov D.V. Stroitel'naya mekhanika sterzhnevykh tonkostennykh konstruktsiy [Struc-
tural mechanics of thin-walled rod constructions]. Moscow, Gosstroyizdat Publ., 1962. 387 p.
[7] Sil'chenko P.N., Kudryavtsev I.V., Mikhnev M.M., Nagovitsin V.N. Method of stressde-
formation distribution computation for waveguide spacecraft systems.
Zhurnal SFU. Tekhnika
i tekhnologii
[Journal of SibFU. Engineering and Technologies], 2012, no. 2, pp. 150–161
(in Russ.).
[8] Sil'chenko P.N., Kudryavtsev I.V., Mikhnev M.M. Differential equation system for space-
craft waveguide cell.
Mezhd. konf. po diff. uravneniyam i dinamicheskim sistemam
[Int. conf.
on differential equations and dynamic systems. Suzdal', July 2–7, 2010]. Pp. 172–174
(in Russ.).
[9] Sil'chenko P.N., Kudryavtsev I.V., Mikhnev M.M., Khalimanovich V.I., Nagovitsin V.N.
Dynamic state analysis of waveguide distribution systems from vibration loads effects while
launching spacecraft into the orbit.
Zhurnal SFU. Tekhnika i tekhnologii
[Journal of SibFU.
Engineering and Technologies], 2012, no. 2, pp. 205–219 (in Russ.).
[10] Sil'chenko P.N., Mikhnev M.M., Ankudinov A.V., Kudryavtsev I.V. Ensuring the strength
and accuracy of large-size waveguide distribution systems of communication satellites.
Journal
of Machinery Manufacture and Reliability
, 2012, vol. 41, no. 1, pp. 91–95.
DOI: 10.3103/S1052618811060173
Available at:
https://link.springer.com/article/10.3103/S1052618811060173[11] Timoshenko S., Woinowsky-Krieger S. Theory of plates and shells. McGraw Hill, 1959.
591 p. (Russ. ed.: Plastinki i obolochki. Moscow, Editorial URSS Publ., 2009. 640 p.).
[12] Novozhilov V.V., Chernykh K.F., Mikhaylovskiy E.I. Lineynaya teoriya tonkikh
obolochek [First-order theory of thin shells]. Sankt-Petersburg, SPbGU Publ., 2010. 380 p.
[13] Kecman D. Bending collapse of rectangular and square section tubes.
Int. J. Mech. Sci.
,
1983, vol. 25, no. 9-10, pp. 623–636. DOI: 10.1016
/0020-7403(83)90072-3Available at:
http://www.sciencedirect.com/science/article/pii/0020740383900723[14] Aleksandrov A.V. Osnovy teorii uprugosti i plastichnosti [Fundamentals of elasticity and
plasticity theory]. Moscow, Vysshaya Shkola Publ., 1990. 400 p.
[15] Sil'chenko P.N., Kudryavtsev I.V., Mikhnev M.M., Gotselyuk O.B. Some approaches to
obtaining a solution of the system of differential equations for an element of the waveguide
system of a spacecraft.
Vestnik NIYaU MIFI
, 2015, vol. 4, no. 1, pp. 19–24 (in Russ.).