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Инд. авторы: Doronin S.V., Moskvichev V.V.
Заглавие: Decomposition of Design Analysis Problems of Precision Structures of Large Reflectors
Библ. ссылка: Doronin S.V., Moskvichev V.V. Decomposition of Design Analysis Problems of Precision Structures of Large Reflectors // Journal of Machinery Manufacture and Reliability. - 2018. - Vol.47. - Iss. 1. - P.28-34. - ISSN 1052-6188. - EISSN 1934-9394.
Внешние системы: DOI: 10.3103/S1052618818010041; РИНЦ: 35521621; WoS: 000427410900005;
Реферат: eng: The concept and content of design analysis problems of precision structures of large reflectors are formulated within a systemic approach to the ensurement of their geometric stability and strength, as well as to the search for rational constructive options. Design analysis of the deformation of large reflectors is based on multimodel and multivariate computational modeling by numerical solution of the conjugate problems of solid mechanics, thermal conductivity, thermoelasticity, and aerodynamics. Applied problems are formulated with an accounting for the uncertainty of the initial data and the availability of information to computational models.
Издано: 2018
Физ. характеристика: с.28-34
Цитирование:
1. Konstruirovanie mashin: Spravochno-metodicheskoe posobie (Machines Design. Handbook in 2 Vols.), Frolov, K.V., Ed., Moscow: Mashinostroenie, 1994.
2. Sayapin, S.N., Prospects and possible application of 3D mechanisms with parallel structure in space technique, Probl. Mashinostr. Nadezhn. Mash., 2001, no. 1, pp. 17-26.
3. Sayapin, S.N., Ways for investigating petal-type antenna reflector opened in the orbit for space telescopes, Probl. Mashinostr. Nadezhn. Mash., 2002, no. 3, pp. 17-25.
4. Sayapin, S.N. and Shkapov, P.M., Kinematics of deployment of petal-type large space antenna reflectors with axisymmetric petal packaging, J. Mach. Manuf. Reliab., 2016, vol. 45, no. 5, p. 387.
5. Metallicheskie konstruktsii (Metal Structures), vol. 3: Stal’nye sooruzheniya, konstruktsii iz alyuminievykh splavov. Rekonstruktsiya, obsledovanie, usilenie i ispytanie konstruktsii zdanii i sooruzhenii (Spravochnik proektirovshchika) (Steel Constructions, Structures Made of Aluminum Alloys. Reconstruction, Inspection, Strengthening and Testing of Building Structures. Handbook for Designer), Kuznetsov, V.V., Ed., Moscow: ASV, 1999.
6. Metallicheskie konstruktsii (Metal Structures), Mel’nikov, N.P., Ed., Moscow: Stroiizdat, 1980.
7. Problemy antennoi tekhniki (Problems of Antenna Engineering), Bakhrakh, L.D. and Voskresenskii, D.I., Ed., Moscow: Radio i svyaz’, 1989.
8. Polyak, V.S. and Bervalds, E.Ya., Pretsizionnye konstruktsii vertikal’nykh radioteleskopov: opyt sozdaniya, problemy analiza i sinteza (Precision Structures of Vertical Radio Telescopes: Experience in Development, Analysis and Synthesis Problems), Riga: Zinatne, 1990.
9. SP (Building Regulations) no. 20.13330.2011: Loads and Impacts. Active version of SNiP (Building Regulations) no. 2.01.07-85, Moscow: Ministry of Regional Development, 2011.
10. Borovkov, A.I., Shevchenko, D.V., Gimmel’man, V.G., Machuev, Yu.I., and Gaev, A.V., Konechno-elementnoe modelirovanie i issledovanie polei temperature osnovnogo reflektora radioteleskopa RT-70 (Finite-Element Simulation and Investigations for Temperature Fields of the Main Reflector of RT-70 Radio-Telescope), 25.12.2016. http://fea.ru/research/RT70/RT70_research_Compmechlab.pdf.
11. Lopatin, A.V., Pasechnik, K.A., Vlasov, A.Yu., and Shatov, A.V., Design procedure for precision antenna reflectors made of polymer structure materials: finite-element simulation, Vestn. Sibirsk. Gos. Aerokosm. Univ., 2013, no. 3(49), pp. 73-78.
12. Kuznetsov, K.V., FSI-technologies for calculating the on-ground antenna of satellite communication, 25.12.2016. http://tesis.com.ru/infocenter/downloads/abaqus/abaqus_es10_tesis.pdf.
13. Statnikov, R.B. and Matusov, I.B., Inadmissible, admissible, and optimal solutions in design problems, J. Mach. Manuf. Reliab., 2012, vol. 41, no. 4, p. 270.
14. Statnikov, R.B. and Matusov, I.B., Optimization in engineering problems-analysis and generalizations, J. Mach. Manuf. Reliab., 2013, vol. 42, no. 4, p. 289.
15. Laevskii, Yu.M., Totals of modern calculus mathematics, Vych. Tekhnol., 2002, no. 2, pp. 74-83.
16. Rogalev, A.N., Doronin, S.V., and Rogalev, A.A., The way to check-up the solution accuracy under analyzing the stressed-deformed state of critical technical objects, Sist. Metody. Tekhnol., 2015, no. 3, pp. 32-38.
17. Rogalev, A.N. and Doronin, S.V., Conditionality criteria for calculating numerically the stressed-deformed state of load-bearing structures, Sist. Metody. Tekhnol., 2016, no. 2, pp. 91-99.
18. Meshkovskii, V.E., Correlation between temperature deformations and shape accuracy of reflecting surface of frame reflector of large antenna in the orbit, Izv. Vyssh. Uchebn. Zaved. Mashinostr., 2014, no. 11, pp. 3-11.
19. Savitskii, G.A., Vetrovaya nagruzka na sooruzheniya (Wing Load to the Structures), Moscow: Stroiizdat, 1972.