Ground-based and aboard investigations of materials, processes, and designs of the rocket-space engineering. Creation of onground ground-based simulation equipment

1Gavrylov, RV
1B.Verkin Institute for Low Temperature Physics and Engineering of the National Academy of Sciences of Ukraine, Kharkiv, Ukraine
Kosm. nauka tehnol. 2005, 11 ;(5-6):064-077
Publication Language: Russian
We consider some scientific, research, experimental and design efforts achivements recently gained by SRDB in the fields of the space factor influence on thermal radiation properties of the covers used for «radiation» cooling of space vehicles, of computer simulation and account of thermal conditions for a spacecraft, of creation of test-benches for simulation of space factor influence, of arrangement of space-borne experiments, and of developments of space-borne cooling systems.
1. Bronovets M. A., Gamulia G. D., Yelanskii Yu. A., et al. The orbital tribometer and new materials for the performance of the «Material-Friction» space experiment. Kosm. nauka tehnol., 9 (5-6), 40—46 (2003) [in Russian].
2. Wang Xiaoyan, Pokhyl Yu. A., Koval’ K. V., et al. Calculations for stress-strained state of a panel of a solar array under thermal loading conditions. Kosm. nauka tehnol., 11 (5-6), 103—110 (2005) [in Russian].
3. Vvedensky Yu. V., Gavrilov R. V., Gamulya G. D., et al. The choice of antifriction and wear-resistant materials and coatings for the "material-friction". In: 3rd Ukrainian Conference for Perspective Space Researches: Abstracts, 55 (Kiev, 2003) [in Russian].
4. Gavrilov R. V., Eremenko V. V., Pokhil Yu. A. Investigation of the physical characteristics of the materials of cosmic inversion under the influence of space-space factors. In: Vacuum Technologies and Equipment: Proc. 5th Intern. Conf. (ICVTE-5), 85—95 (Kharkov, 2002) [in Russian].
5. Gavrilov R. V., Kislov A. M., Romanenko V. G., Fenchenko V. N. The software TRASSA for the analysis of spacecraft thermal conditions. Kosm. nauka tehnol., 10 (4), 3—16 (2004) [in Russian].
6. Gavrylov R. V., Melenevskiy Yu. A., Konyukhov S. N., et al. Stand rig facility for thermovacuum testing of space vehicles. Kosm. nauka tehnol., 10 (5-6), 42—46 (2004) [in Russian].
7. Gavrylov R. V., Pokhil Yu. A. Research of SKTB FTINT NASU in the field of low-temperature and cryogenic material, In: Modern problems of refrigeration equipment: Sb. tr. Mezhdunar. nauchno-tehnich. konf., October 3-5, 2001, 6—10 (2001) [in Russian].
8. Gavrilov R. V., Pokhyl Yu. A., Yakovenko L. F., et al. Investigation of SF inffuence on cyclic durability of materiafs in real space flight conditions. SE “Penta-Fatigue”. Kosm. nauka tehnol., 9 (5-6), 33—39 (2003) [in Russian].
9. Gamulya G. D., Skorokhod V. V., Solntsev V. P., et al. The elaboration of novel scientific instrumentation and antifriction materials for performing the “Material-Friction” space experiment. Kosm. nauka tehnol., 8 (5-6), 28–34 (2002) [in Russian].
10. Bondarenko S. I., Gavrylov R. V., Eremenko V. V., et al. Physical Research of Microgravity Influence on Physical Phenomenon in Cryogenic Facility for Realization of this Research Aboard International Space Station. Fizika Nizkikh Temperatur, 29 (6), 628—632 (2003).
11. Gavrylov R. V., Pokhyl Yu. O. Influence of On-ground Simulated Space Factors on Physical Properties of Spacecraft Materials. J. Spacecraft and Rockets, 2005 (In press).
12. Gavrylov R. V., Pokhyl Yu. O., Agashkova N. N., et al. Investigation of the influence of cosmic-space factors on physical properties of space-application funtional materials by methods of accelerated simulation. In: Protaction of Materials and Structures from Space Environment: 6th International Conf., Toronto, May, 2002, 5 (Toronto, 2002).
13. Hart-Smith L. J. Adhesive Bond Stresses and Strains at discontinuites and Cracks in Bonded Structures. Trans. ASME, Engineering Materials and Technology, 100, January, 15—24 (1978).

14. Volkersen O. Recherches sur la teorie des assemblages colles. Constructions metalliques, No. 4, 12—18 (1965).