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UDC 533.95
Technical mechanics, 2015, 4, 117 - 125
INTERACTIONS BETWEEN SPACECRAFT AND FLOWS OF PLASMA AND ELECTROMAGNETIC RADIATION IN EARTH ATMOSPHERE
V. A. Shuvalov, G. S. Kochubey, D. N. Lazuchenkov
A brief analysis of the results of studies conducted at the Department of Mechanics of Ionized Media of the Institute of Technical Mechanics of the National Academy of Sciences of Ukraine and the State of Space Agency of Ukraine in the period of 2011 – 2015 is presented. These studies were focused on the three lines characterizing interactions of magnetized spacecraft with the ionospheric plasma; structural materials with supersonic flows of atomic oxygen and vacuum ultraviolet radiation in the Earth atmosphere; the ITM’s scientific equipment for the Sich-2 satellite with the environment.
magnetized rigid body, magnetohydrodynamic interactions, heat flows, atomic oxygen, ultraviolet radiation, diagnosis of ionospheric plasma.
1. Heat exchange and deceleration of a magnetized body in a rarefied plasma flow / V. A. Shuvalov, A. I. Priimak, K. A. Bandel’, G. S. Kochubei and N. A. Tokmak // Journal of Applied Mechanics and Technical Physics. –2011. – Vol. 52, No 2. – Ð. 1 – 8.
2. Physical simulation of the interaction of “magnetized” bodies and the Earth’s atmosphere in the hypersonic rarefied plasma flow / V. A. Shuvalov, S. N. Kulagin, G. S. Kochubey, N. À. Òokmak // High Temperature. – 2012. – Vol. 50, No 3. – P. 315 – 322; DOI: 10.1134/S0018151X12030182.
3. Dynamic Interaction of a “Magnetized” Cone with a Hypersonic Flow of Rarefied Plasma / V. A. Shuvalov, N. A. Tokmak, S. N. Kulagin, and G. S. Kochubei // High Temperature. – 2013. – Vol. 51, No. 6. – Ð. 725 – 732; DOI: 10.1134/S0018151X13050192.
4. Control over Heat Exchange and Deceleration of a “Magnetized” Body in a Rarefied Plasma Flow / V. A. Shuvalov, A. I. Priimak, K. A. Bandel’, G. S. Kochubey and N. A. Tokmak // High Temperature. – 2011. – Vol. 49, N. 3. – Ð. 335–343; DOI: 10.1134/S0018151X11030187.
5. Influences of Electrical Conductivity of Wall on Magnetohydrodynamic Control of Aerodynamic Heating / T. Fujino, H. Sugita, M. Mizuno, I. Funaki, M. UIshikava // J. Spacecraft and Rockets. – 2006. – Vol. 43, No 1. – Ð. 63 – 70.
6. Fujino T. Numerical Analysis of Reentry Trajectory Coupled with Magnetohydrodynamic Flow Control / T. Fujino, T. Yoshino, M. Ishikawa // J. Spacecraft and Rockets. – 2008. – Vol. 45, No 5. – P. 911 – 920.
7. Magnetohydrodynamics Interaction Over an Axysymmetric Body in a Hypersonic Flow / A. Cristifolini, C. A. Borghi, G. Neretti, A. Passaro, G. Fantoni, F. Paganucci // J. Spacecraft and Rockets. – 2008. – Vol. 45, No 3. – P. 438 – 444.
8. Bityurin V. A. Magnetohydrodynamic interactions over a submerged body in hypersonic airflow (in Russian) / V. A. Bityurin, A. N. Bocharov // Izvestia RAN, MZhG. – 2006. – No 5. – P. 188 – 203.
9. Bityurin V. A. Ground-based MHD experiments in hypersonic flows (in Russian) / V. A. Bityurin, A. N. Bocharov // TVT. – 2010. – Vol. 48, No 6. – P. 916 – 923.
10. Kinetic and Continuum Simulations of Electromagnetic Control of a Simulated Reentry Flow / H. Katsurayama, M. Kawamura, A. Matsuda, T. Abe. // J. Spacecraft and Rockets. – 2008. – Vol. 45, No 2 – P. 248 – 254.
11. Control of the Dynamic Interaction of a “Magnetized” Sphere with a Hypersonic Flow of Rarefied Plasma / V. A. Shuvalov, N. A. Tokmak, N. I. Pis’mennyi, and G. S. Kochubei // High Temperature. – 2015. – Vol. 53, No. 4. – Ð. 463 – 469; DOI: 10.1134/S0018151X15030177.
12. Synergistic effect of interactions between flows of atomic oxygen and vacuum ultraviolet on polyimide films of spacecraft (in Russian) / V. A. Shuvalov, N. A. Tokmak, N. I. Pismennyi, G. S. Kochubey // Kosmichna Nauka i Tekhnologia. – 2012. – No 3. – P. 27 – 36.
13. The Mass Loss of Spacecraft Polyimide Films under the Action of Atomic Oxygen and Vacuum Ultraviolet Radiation / V. A. Shuvalov, N. I. Pis’mennyi, G. S. Kochubei, N. A. Tokmak // Cosmic Research. – 2014. –Vol. 52, No 2. – Ð. 99 – 105; DOI: 10.1134/S0010952514020063.
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15. Shimamura A. Investigation into Synergistic Effects of Atomic Oxygen and Vacuum Ultraviolet / A. Shimamura, E. Miyazaki // J. Spacecraft and Rockets. – 2009. – Vol. 46, No 2. – P. 241 – 254.
16. Degradation of polymers of the Mir Orbital Space Station (in Russian) / V. K. Milinchuk, E. R. Klinshpont, I. P. Sheloukhov, et al. // Izvestia Vuzov. Adernaya Energetika. – 2002. – No 2. – P. 108.
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18. New Science-Intensive Technologies for Engineering. In 24 volumes. Vol. 17. Effects of Space on Materials and Spacecraft Equipment (in Russian) / Edited by K. S. Kasaev. – Moscow : ZAO NII ENTsITEKh, 2000. – 280 p.
19. Pippin H. G. Final Report of Analysis of Boeing Specimens from on the Effects of Space Environment on Materials Experiment. Appendix B. / H. G. Pippin // NASA Langley Research Center, Hampton. – 2008. – VA 23681 – 2199. – 10 p.
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21. Assessment of Atomic - Oxygen Flux in Low - Earth Orbit Ground Simulation Facilities / E. Grossman, I. Gouzman, G. Lempert et al. // J. Spacecraft and Rockets. – 2004. – Vol. 41, No 3. – P. 356 – 368.
22. A quantitative study in synergistic effects of atomic oxygen and ultraviolet regarding polymer erosion in LEO space environment / K. Yokota, K. Ikeda, M. Tagawa, M. Okato // Proc. 10th Intern. Symp. on Materials in a Space Environment and 8th Intern. Conf. On Protection of Materials and Structures in a Space Environment. Collioure, France, 2006. – Noordwijk : ESTEC, 2006. – P. 127 – 132.
23. Studies of temperature relations of velocities for etching a polyimide film in plasma (in Russian) / Ye. V. Kuvaldina, V. K. Lyubimov, A. I. Maksimov et al. // Khnimia Vysokykh Energiy. – 1990. – Vol. 24, No 5. – P. 471 – 474.
24. Surface interaction of polyimide with oxygen ECR plasma / M. Naddaf, C. Balasubramanian, P. S. Alegaonkar, V. N. Bhoraskar et al. // Nuclear Instrument and Methods in Physics Research. – 2004. – B222. – P. 135 – 144.
25. Degradation in polymers at Mir Orbital Space Station (in Russian) / V. K. Milinchuk, E. R. Klinshpont, I. P. Sheloukhov et al. // Izvestia Vuzov. Yadernaya Energetika. – 2002. – No 2. – P. 108.
26. Studies of polyimide films with protective coatings for spacecraft (in Russian) / V. N. Chernik, S. F. Naumov, S. A. Demidov et al. // Perspektivnye Materialy. – 2000. – No 6. – P. 14 – 20.
27. A quantitative study in synergistic effects of atomic oxygen and ultraviolet regarding polymer erosion in LEO space environment / K. Yokota, S. Seikyu, M. Tagawa, N. Ohmae // Proc. 9th Intern. Symp. on Materials in a Space Environment. – Noordwijk : ESTEC, 2003. – P. 265 – 276.
28. Tagawa M. Atomic Oxygen-Induced Polymer Degradation Phenomena in Simulated LEO. Space Environments : How do Polymers React in a Complication Space Environment / M. Tagawa // Acta Astronautica. – 2008. – No 62. – Ð. 203 – 210.
29. Miller S. Investigation into the differences in atomic oxygen erosion yields of materials in ground-based facilities compared to those in LEO / S. Miller, B. Banks, D. Waters // Proc. 10th Intern. Symp. on Materials in a Space Environment and 8th Intern. Conf. On Protection of Materials and Structures in a Space Environment. Collioure, France, 2006. – Noordwijk : ESTEC, 2006. – P. 120 – 126.
30. Intelsat solar array coupon atomic oxygen flight experiment / S. Koontz, G. King, A. Dunnet, T. Kirkendahl // J. Spacecraft and Rockets. – 1994. – Vol. 31, No 3. – P. 475 – 481.
31. Probe Diagnostics of Laboratory and Ionospheric Rarefied Plasma Flows / V. A. Shuvalov, N. I. Pis’mennyi, D. N. Lazuchenkov and G. S. Kochubey // Instruments and Experimental Techniques. – 2013. – Vol. 56, no. 4. – Ð. 459 – 467; DOI: 10.1134/S0018151X11010044.
32. Identification of earthquakes using probe measurements of disturbed parameters of ionospheric plasma during Sich-2 mission (in Russian) / V. A. Shuvalov, D. N. Lazuchenkov, S. V. Nosikov, G. S. Kochubey // Kosmichna Nauka i Tekhnologia. – 2013. – Vol. 19, No 5. – P. 26 – 36.
Copyright (©) 2015 V. A. Shuvalov, G. S. Kochubey, D. N. Lazuchenkov
Copyright © 2014-2018 Technical mechanics
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