Cryogenics in space research:developments of B. Verkin Institute for Low-Temperature Physics and Engineering of the National Academy of Sciences of Ukraine
Heading:
| 1Bondarenko, SI, 1Kislov, AM 1B.Verkin Institute for Low Temperature Physics and Engineering of the National Academy of Sciences of Ukraine, Kharkiv, Ukraine |
| Kosm. nauka tehnol. 1995, 1 ;(1):80–95 |
| https://doi.org/10.15407/knit1995.01.080 |
| Publication Language: Russian |
Abstract: We present some results of investigation and engineering of cryogenic electron-optical, mass-spectrometric, and super-conducting devices for space research, ground-based infrared devices for stadying space objects, on-board cryostat systems, cryogenic vacuum imitators of the outer space, materials and technologies for investigations in the outer space.
|
| Keywords: cryogenics, space materials |
References:
1. Arhipov V. T., Dubrovina E. N., Ishakov Yu. F. Some features of the calculation of the melting accumulators. In Heat and mass transfer in cryogenic technology, 80—97 (Nauk. dumka, Kiev, 1990) [in Russian].
2. Babenko F. M., Bagrov N. N., Bondarenko V. I.et al. Cryogenic vacuum system . Cryogenics, 105—131 (Nauk. dumka, Kiev, 1985) [in Russian].
3. Bagrov N. N., Furmanskij A. G., Gusljakov A. A. Radio frequency monopole mass spectrometer. Instruments and Experimental Techniques, N 4, 136—138 (1969) [in Russian].
4. Bagrov N. N., Verkin B. I., Pilipenko A. P. et al. Rocket instruments for studying the composition of the atmosphere and the lower troposphere. Tr. Centr. ajerol. observatorii, Is. 127, 15—19 (1977) [in Russian].
5. Basenko A. V., Kislov A. M., Kladov G. K. et al. Thermal design of cryogenic infrared astronomical telescope. In Heat and mass transfer in cryogenic technology, 109—115 (Nauk. dumka, Kiev, 1990) [in Russian].
6. Base V. P., Brazinskij V. I., Pilipenko A. P. et al. Formulation and implementation of full-scale experiment on the study of mass transfer processes in the vicinity of the satellite series "Kosmos". In Fluid and Gas Mechanics: Reports of Intern. School-seminar, Pt. 5, 8.1—8.17 (CAGI, Moscow, 1994) [in Russian].
7. Beljaeva A. I., Sirenko V. A. Cryogenic multilayer coatings, 280 p. (Nauk, dumka, Kiev, 1991) [in Russian].
8. Beljaeva A. I., Grebennik T. G., Pogorelova S. A. et al. Cryogenic cooling system of pyroceramics mirrors. Opticheskii Zhurnal, No. 1, 45—50 (1992) [in Russian].
9. Belyaeva A. I., Kamyshova I. V., Pogorelova S. A., et al. Problems in creating an effective system to remove heat from a silicon cryomirror. Opticheskii Zhurnal, No. 2, 23—29(1994) [in Russian].
10. Bondarenko S. I., Sheremet V. I. The use of superconductivity in magnetic measurements, 132 p. (Energoatomizdat, Leningrad, 1982) [in Russian].
11. Bondarenko S. I., Ivanov P. I., Konovodchenko V. A. et al. Cryogenic radiophysics and electronics. In Cryogenics, 74—88 (Nauk, dumka, Kiev, 1985) [in Russian].
12. Verkin B. I., Bagrov P. N., Kulik et al. Physical fundamentals of modeling the vacuum conditions of outer space. In Model of Cosmos, Vol. 2, P. 42—75 (Izd-vo MGU, Moscow, 1968) [in Russian].
13. Verkin B. I., Janov A. E., Bondarenko V. I. et al. Simulation research and test facilities with cryogenic pumps. In Model of Cosmos, Vol. 2, P. 326—357 (Izd-vo MGU, Moscow, 1968) [in Russian].
14. Verkin B. I., Verhovceva Je. T., Fogel' Ya. M. Gas jet vacuum ultraviolet radiation source. In Physics of vacuum ultraviolet radiation, 38—58 (Nauk, dumka, Kiev, 1974) [in Russian].
15. Verkin B. I., Mikhal’chenko R. S., Arkhipov V. T. et al. Experience in development of onboard sublimation ice packs, in: Low-Temperature Engineering, 3—21 (Nauk, dumka, Kiev, 1979) [in Russian].
16. Verkin B. I., Getmanets V. F., Mikhalchenko R. S. The thermal physics of low-temperature sublimation cooling, 232 p. (Nauk, dumka, Kiev, 1980) [in Russian].
17. Verkin B. I., Kirichenko Yu.A., Mikhalchenko R. S., Getmanets V. F. Heat and mass transfer in cryogenic systems, in: Cryogenic engineering, 7—47 (Nauk, dumka, Kiev, 1985) [in Russian].
18. Verkin B.I., Kirichenko Yu.A., Rusanov K.V. Heat transfer under boiling in mass force fields of different strength, 256 p. (Nauk, dumka, Kiev, 1988) [in Russian].
19. Gamulya G. D., Dobrovolskaya G. V., Ostrovskaya Ye. L. et al. Impact loading step on the performance of construction materials in vacuum. Space Research in Ukraine [Kosmich. issledovanija na Ukraine], Is. 15, 28—34 (1981) [in Russian].
20. Getmanets V. F., Mikhal'chenko R. S. Fundamentals of calculation and design of cryogenic systems thermostatic. In Investigation of cryogenic and vacuum technology, 3—36 (Nauk, dumka, Kiev, 1982) [in Russian].
21. Grinberg N. M. The physical interpretation of the criteria of mechanical cyclic crack resistance and the impact of low temperature. Strength of Materials, No.11, 23—26 (1988) [in Russian].
22. Zhitomirskii I. S., Kislov A. M. Integral equations for additive functionals on Markov processes and their use in the theory of molecular and radiative transfer. In: Heat and mass transfer - V. Vol. 8, 17—24 (ITMO AN BSSR, Minsk, 1976) [in Russian].
23. Kalashnik L. I., Kislov A. M., Livshits E. M. Calculation of the parameters of cryogenic vacuum chambers by the Monte Carlo method. Journal of Engineering Physics, 13 (6), 904—913 (1967) [in Russian].
24. Kislov A. M., Galimov S. R., Jastrzhembskij A. L. The effectiveness of the radiator space in the on-board systems cryostatting a cold battery. Cosmic Research, 17 (3), 449—456 (1979) [in Russian].
25. Kislov A. M., Romanenko V. G. Application of Monte Carlo method to calculate the molecular and radiant fluxes in complex configuration systems: Preprint N 80—12 FTINT AN USSR, 36 p. (Kharkov, 1980) [in Russian].
26. Kislov A. M., Pletnev F. M., Puhnavceva G. V. Numerical simulation of the cooling process of cryogenic lens. Metallooptika-89: Proceedings of All-Union conf., Vol. 2, 307—312 (Moscow, 1990) [in Russian].
27. Konovodchenko V. A., Lobanov K. B., Silkin P. V. et al. Metrological system for measuring parameters deeply cooled infrared photodetectors in low-background conditions. In Thermal radiation detectors, 107—108 (VNC «GOI im. Vavilova», St. Petersburg, 1992) [in Russian].
28. Konovodchenko V. A., Melenevsky U. A., Kruhmalev P. I. Superconducting bolometers at temperatures less than 1 K. In Low-temperature processes and systems, 3—8 (Nauk, dumka, Kiev, 1987) [in Russian].
29. Konovodchenko V. A., Melenevsky U. A., Grishin E. A. et al. Fast IR spectrophotometer for ground-based telescope . In Thermal radiation detectors, 77—78 (VNC «GOI im. Vavilova», St. Petersburg, 1992) [in Russian].
30. Konovodchenko V. A., Shumilov Ju. P., Nadzhip A.E. et al. Infrared photometer for astrophysical research. In Thermal radiation detectors, 79—80 (VNC «GOI im. Vavilova», St. Petersburg, 1992) [in Russian].
31. Lavrent'ev F. F. (Ed.) Cryogenic and Vacuum Applied Materials, 152 p. (Nauk, dumka, Kiev, 1991) [in Russian].
32. Lebedeva I. L., Ostrovskaja E. L., Juhno T. R. et al. Secondary structures in friction in a vacuum: the general properties and regularities of formation for various structural materials. Friction and Wear, 10 (4), 723— 736 (1989) [in Russian].
33. Lyubarskij I. M., Palatnik L. S. Metallofizika of the friction, 176 p. (Metallurgija, Moscow, 1976) [in Russian].
34. Markus A. M., Udovenko V. F., Zinov'ev M. V. et al. The accelerator of heavy ions to energies of 200 MeV for work in solid state physics. Instruments and tehn. experiment, N 4, 22—24 (1980) [in Russian].
35. Mihal'chenko R. S., Vakulenko V. D., Arhipov V. T. et al. Two-sublimation cold accumulator KT-12, in: Low-Temperature Engineering, 22—30 (Nauk, dumka, Kiev, 1979) [in Russian].
36. Mihal'chenko R. S., Arhipov V. T., Vakulenko V. D. et al. Research work microcryogenic throttle system in conjunction with the cold accumulator. In Thermal processes in cryogenic systems, 100—106 (Nauk, dumka, Kiev, 1986) [in Russian].
37. Pletnev F. M., Puhnavceva G. V., Yastrzhembskij A. L. Methods of thermal calculation of cryogenic infrared telescopes: Preprint N 2—88 FTINT AN USSR, 22 p. (Kharkov, 1988) [in Russian].
38. Surkov Yu. A., Ivanova V. F., Pudov A. N., Verkin B. I., et al. Mass-spectral study of the chemical composition of the Venus atmosphere by Venera 9 and Venera 10 space probes. Geokhimiya, No. 4, 506—513 (1978) [in Russian].
39. Gamulya G. D., Ostrovckaya Ye. L., et al. Friction behaviour and wear resistance of diamond-like carbon films under cryogenic temperatures. Diamond and Related Materials, 3, 1381 — 1384 (1994).
https://doi.org/10.1016/0925-9635(94)90154-6
40. Gamulya G. D., Lebedeva I. L., Vvedensky Yu. V. et al. Secondary structure formation and wear mechanisms for solid lubricant coatings under friction in vacuum. Wear, 171, 143—148 (1994).
40. Gamulya G. D., Lebedeva I. L., Vvedensky Yu. V. et al. Secondary structure formation and wear mechanisms for solid lubricant coatings under friction in vacuum. Wear, 171, 143—148 (1994).
https://doi.org/10.1016/0043-1648(94)90357-3
41. Ilichev V. Ya., Popov V. P., Skibina L. V. et al. Temperature dependence of the linear expansion coefficients of some Fe-Cr-Ni alloys in the temperature range 4,2 to 300 K. Cryogenics, 18 (2), 90—92 (1978).
41. Ilichev V. Ya., Popov V. P., Skibina L. V. et al. Temperature dependence of the linear expansion coefficients of some Fe-Cr-Ni alloys in the temperature range 4,2 to 300 K. Cryogenics, 18 (2), 90—92 (1978).
42. Ilichev V. Ya., Skibina L. V., Chernik M. M. The influence of martensitic trasformation on strength and plasticity of Fe-Cr-Ni alloy single crystals. Austenitic Steels at Low Temperatures, Ed. by R. P. Reed, 69—82 (Plenum Press, New York, 1983).
43. Kislov A. M., Salenkov V. Yu., Yastrgembsky A. L. Efficiency of space radiators for cooling shields in cryostat insulation. Proc. ICEC-10, Helsinki, 1984, 522—524 (Butterworth, 1984).
44. Lavrentev F. F., Pokhil Yu. A., et al. Effect of low temperature thermocycling on the structure and stresstrain curve parameters of a Ti-Al alloys at 4,2 K. Cryogenics, 23 (3), 170—174 (1983).
45. Lavrentev F. F., Pokhil Yu. A., et al. Fracture micromechanisms and plasticity of Fe-Cr-Ni-Ti alloys in the temperature range of 77 to 4,2 K. Mater. Sci. and Eng., 158A, 157— 166 (1992).
46. Mikhalchenko R. S., Arkhipov V. T., Ostrovskii I. N., et al. A study of solidification of liguid cryogens in cryostats. Low Temperature Physics, 16 (4) 476—480 (1990).
47. Pletnyov F. M., Stepanova M. V., Yastrzhembskii A. L. Analysis of superfluid helium nonventing storage schemes in cryogenic system of space infrared telescope. Low Temperature Physics, 16 (4), 482—484 (1990).
48. Shablo A. A., Bondarenko S. L, Timofeev V. P., et al. HTSC thick-film flux transformers. Cryogenics, 34 ICEC Suppl., 907—909 (1994).
49. Verkin B. L, Getmanez V. F., Mikhalchenko R. S. Termophysics of new phenomena of gradientless heat transfer in porous solid cryogen. Cryogenics, 19 (1), 17—26 (1979).
50. Verkin B. L, Melenevsky Yu. A., Kharchenko I. F., Konovodchenko V. A. Fast-response superconducting bolometer. Proc. ICEC-8, Geneva, 1980, P. 539—543 (Guildford, 1980).