Main Catalog Aviation and Rocket-Space Engineering Aircrafts Development, Design and Manufacture

Substantiation of design and technological parameters of anti-meteoroid protection for critical elements of modern spacecraft

Authors: Smirnov A.V., Mikhailova M.A.
Published in issue: #12(65)/2021
DOI: 10.18698/2541-8009-2021-12-753
Category: Aviation and Rocket-Space Engineering \| Chapter: Aircrafts Development, Design and Manufacture
Keywords: space debris, spacecraft, impact interaction, shield, high velocity impact, ballistic curve, numerical simulation, protective structures
Published: 13.12.2021

The problem is considered of protecting critical elements of modern and advanced spacecraft from collisions with space debris in conditions of a continuously increasing degree of near-earth space contamination with objects of technogenic origin. A constructive scheme of protection against high-speed impact interaction of large fragments is proposed. As a result of numerical simulation of the impact process in a wide range of velocities, the optimal design and technological parameters of the screen and its protective properties are determined depending on the mass characteristics and material of the striker. The presented design scheme allows to achieve a significant improvement in the protection of spacecraft critical elements.

References

[1] Ogolev A.V., Morozov S.V. [Analysis of debris of near-earth space objects of technogenic origin and their impact on the functioning of spacecraft]. Kosmicheskiy musor: fundamental’nye i prakticheskie aspekty i ugrozy [Space Debris: Fundamental and Practical Threats]. Moscow, IKI RAN Publ., 2019, pp. 15–19 (in Russ.).

[2] Veniaminov S.S., Chervonov A.M. Kosmicheskiy musor — ugroza chelovechestvu [Space debris: threat to a human kind]. Moscow, IKI RAN Publ., 2012 (in Russ.).

[3] Zelentsov V.V. Problems of small debris. Nauka i obrazovanie: nauchnoe izdanie [Science and Education: Scientific Publication], 2015, no. 4. URL: http://engineering-science.ru/doc/764904.html (in Russ.).

[4] Karyagin A.A., Kovaleva G.A, Novikova A.S. [Comparative analysis of anti- meteoroidal strength of two- and three-screen spacecraft protection for science and power module of ISS Russian segment]. Perspektivnye podkhody i tekhnologii proektirovaniya i proizvodstva detaley i izdeliy aerokosmicheskoy tekhniki. Sb. tr. Mezhd. molod. nauch.-tekh. konf. [Prospective approaches, designs and production technologies for spacecraft parts and elements. Proc. Int. Sci.-Tech. Conf.]. Moscow, Diona Publ., 2017, pp. 10–15 (in Russ.).

[5] Romanchenkov V.P., Pokrovskiy O.S., Zinchenko L.V. Double-screen shielding from debris and meteoroids influence for pressurized shell of ISS scientific and power module. Konstruktsii iz kompozitsionnykh materialov [Composite Materials Constructions], 2014, no. 3, pp. 3–7 (in Russ.).

[6] Volkov O.V., Gorbenko A.V., Shevchenko I.V. Research the breakdown of protection of the office module at the international space station at additional screening by solar panels. Izvestiya Samarskogo nauchnogo tsentra Rossiyskoy akademii nauk [Izvestia RAS SamSC], 2012, vol. 14, no. 1-2, pp. 477–479 (in Russ.).

[7] Smirnov A.V., Kolpakov V.I. [Design development of anti- meteoroidal protection for modern and prospective spacecraft]. Vseros. stud. konf. Studencheskaya nauchnaya vesna [Russ. Stud. Conf. Students Scientific Spring]. Moscow, Nauchnaya biblioteka Publ., 2021, pp. 146–147 (in Russ.).

[8] Kolpakov V.I., Vasil’yeva T.V. Modelirovanie udarnogo vzaimodeystviya vysokoskorostnykh chastits s elementami konstruktsii ekrannoy zashchity kosmicheskogo apparata [Modelling of impact interaction of hypervelocity particles with design elements of spacecraft protection]. Moscow, Bauman MSTU Publ., 2017 (in Russ.).

[9] Selivanov V.V., ed. Chislennye metody v zadachakh fiziki vzryva i udara. T. 3 [Numerical methods in problems of explosion and impact physics. Vol. 3]. Moscow, Bauman MSTU Publ., 2000 (in Russ.).

[10] Bukharev Yu.N. Prikladnye zadachi vysokoskorostnogo udara [Applied problems of hypervelocity impact]. Sarov, RFYaTs-VNIIEF Publ., 2011 (in Russ.).

[11] Kobylkin I.F., Selivanov V.V. Materialy i struktury legkoy bronevoy zashchity [Materials and structures of light armored protection]. Moscow, Bauman MSTU Publ., 2014 (in Russ.).