The effect of on-ground simulated space factors on thermooptical and electrophysical characteristics of space vehicle materials

1Pokhyl, Yu.A, 2Abraimov, VV, 1Saltevskij, GI, 1Zaritskij, IP, 1Lototskaya, VA, 2Krevsun, AV, 2Agashkova, NN, 1Pristjuk, MM, 3Tikhii, VG, 4Gusarova, IA, 4Potapov, OM
1B.I. Verkin Institute for Low Temperature Physics and Engineering, NAS of Ukraine, Kharkiv, Ukraine
2B.Verkin Institute for Low Temperature Physics and Engineering of the National Academy of Sciences of Ukraine, Kharkiv, Ukraine
3Yangel Yuzhnoye State Design Office, Dnipropetrovsk, Ukraine
4Yangel Yuzhnoye State Design Office, Dnipro, Ukraine
Kosm. nauka tehnol. 2009, 15 ;(6):73-83
Publication Language: Russian
We investigate the space factor action on changes of ther-mooptical and electrophysical characteristics of some non-metallic structural and functional materials of external surfaces of the space vehicle МС-2-8. The procedure of the accelerated laboratory simulation of five-year space flight of the space vehicle in a Sun-synchronous orbit of an altitude of 670 km is used. An experimental estimation of stability of the materials under the integral effect of vacuum, electrons and protons of the Earth radiation belts, solar electromagnetic radiation, cyclic orbital temperature changes is performed.
Keywords: electromagnetic radiation, orbital temperature changes, radiation belts
1. Abraimov V. V., Negoda A. A., Zavalishin A. P., Kolybaev L. K. Complex imitation of outer space factors. Kosm. nauka tehnol., 1 (2-6), 76–80 (1995) [in Russian].
2. Verkhovtseva E. T., Yaremenko V. I., Telepnev V. D. Gas jet simulator of the solar VUV and USX radiation and the effect of its radiation on some materials. Kosm. nauka tehnol., 4 (2-3), 102—109 (1998) [in Russian].
3. Gavrilov R. V., Pokhil Yu. A. Research of materials and processes under the impact of space factors. In: Space Research in Ukraine, 2000 —2002, 85—99, (KIT, Kiev, 2002) [in Russian].
4. Gavrilov R. V., Knyazev V. D., Kolybaev L. K., et al. Proton-electronic injector in the composition of the cryogenic-vacuum complex for studying the radiation resistance of materials. Vestn. NTU «KhPI», No. 5, 15—21 (2005) [in Russian].
5. Physical conditions in outer space. Chapter 3. In: Panasyuk M. I., Novikov L. S. (Eds) Model of cosmos, Vol. 1, 417—667 (Vol. 1-2; Vol. 1) (KDU, Moscow, 2007) [in Russian].
6. Pokhil Yu. A., Gavrilov R. V., Pristyuk M. M., et al. Investigation of kinetics of mass loss of structural materials in vacuum under the influence of radiation and temperature. In: Vacuum Technologies and Equipment (ISVTE-4): Proc. of 3rd Intern. Symp., 380—384 (Kharkiv, 2001) [in Russian].
7. Pokhyl Yu. A., Gavrylov R. V., Yakovenko L. F., et al. Scientific equipment and materials for realization of "Penta-Fatigue" space experiment. Kosm. nauka tehnol., 12 (1), 3–11 (2006) [in Russian].
8. Solov'ev G. G., Novikov L. S. Changing the optical properties of thermoregulating coatings under the influence of factors of outer space. In: Panasyuk M. I., Novikov L. S. (Eds) Model of cosmos, Vol. 2: The influence of the space environment on materials and equipment of spacecraft, 595—614 (Vol. 1-2; Vol. 2) (KDU, Moscow, 2007) [in Russian].
9. Favorsky O. N., Kadaner Ya. S. Questions of heat transfer in space, 280 p. (Vyssh. shk., Moscow, 1972) [in Russian].
10. Khatipov S. A. Radiation conductivity of polymers. In: Panasyuk M. I., Novikov L. S. (Eds) Model of cosmos, Vol. 2: The influence of the space environment on materials and equipment of spacecraft, 361—376 (Vol. 1-2; Vol. 2) (KDU, Moscow, 2007) [in Russian].
11. Shuvalov V. A., Kochubey G. S., Priymak A. I., Pismenniy N. I. High-altitude spacecraft power losses of solar arrays as a result of interaction with environment. Kosm. nauka tehnol., 10 (4), 39—49 (2004) [in Russian].
12. Shuvalov V. A., Priymak A. I., Gubin V. V. Simulation of radiative electrization of spacecraft in the ionosphere and magnetosphere. Kosm. nauka tehnol., 4 (5-6), 28—35 (1998) [in Russian].