Dynamic impact interaction of space constructions adapters during separation
Heading:
1Shulzhenko, NG, 1Zaytsev, BF, 1Asaenok, AV, 2Klimenko, DV, 3Batutina, TYa., 3Burchakov, BV 1A.N. Podgorny Institute for Mechanical Engineering Problems of the National Academy of Sciences of Ukraine, Kharkiv, Ukraine 2Yangel Yuzhnoye State Design Office, Dnipro, Ukraine 3Yangel Yuzhnoye State Design Office, Dnipropetrovsk, Ukraine |
Space Sci.&Technol. 2016, 22 ;(2):12-21 |
https://doi.org/10.15407/knit2016.02.012 |
Publication Language: Russian |
Abstract: We model dynamic process in the system of adapters of a launch vehicle and spacecraft, caused by the impulse effect of activation of electroexplosive devices during separation stage. We used three-dimensional “finite element method” models and a special method to account for a surface of adapter separation, needed to model the unilateral contact. Time modeling is done using finite difference Wilson θ-method. We also show the obtained results of adapters’ kinematic characteristics and the impact spectra.
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Keywords: accelerograms, adapter, contact, dynamics, finite element, range strike, separation, space design |
References:
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https://doi.org/10.1007/3-540-31761-9
2. Asaenok A. V., Zajtsev B. H., Shulzhenko N. G. Methods of introducing cuts in the scheme of finite element method in problems of statics and natural vibrations of three-dimensional structures. Problems in Mechanical Engineering, 6 (3), P. 58—63 (2003) [in Russian].
3. Bathe K.-J., Wilson E.L. Numerical methods in finite element analysis, Transl. from Eng., 448 p. (Strojizdat, Moscow, 1982) [in Russian].
4. Grabilin A. O., Zubrenkov B. I., Pustobaev M. V., et al. Evaluation of loads on the SC (space craft) equipment by effect of shot shock pulses. Voprosy jelektromehaniki, 142, 47—52 (2014) [in Russian].
5. Johnson K. L. Contact mechanics, Transl. from Eng., 510 p. (Mir, Moscow, 1989) [in Russian].
6. Kokushkin V. V., Petrov N. K., Borzykh S. V., Yaskov V. V. Development and simulation of large space rocket stages separation processes. Space Technique and Technology, No.1, 44—55 (2013) [in Russian].
7. Kolesnikov K. S., Kokushkin V. V., Borzyh S. V. et al. Calculation and design of separation systems, rocket stages: Textbook, 376 p. (N.E. Bauman MSTU, Moscow, 2006) [in Russian].
8. Komarov I. S. Surface treatment of the experimental rocket and space technology on the impact force of the pyrotechnic separation means. Trudy MAI, Is. 71, 22 p. (2013) [in Russian].
9. Ljuminarskij I. E. Calculation of elastic systems with unilateral constraints, 308 p. (MSIU, Moscow, 2006) [in Russian].
10. Contact Mechanics, Ed.by I. I. Vorovich, V. M. Alexandrov, 672 p. (Fizmatlit, Moscow, 2001) [in Russian].
11. Panagiotopoulos P. D. Inequality Problems in Mechanics and Applications. Convex and Nonconvex Energy Functions, Transl. from Eng., 494 p. (Mir, Moscow, 1989) [in Russian].
12. Podgornyj A. N., Gontarovskij P. P., Kirkach B. N. i dr. Tasks of contact interaction of structural elements, 232 p. (Nauk. dumka, Kiev, 1989) [in Russian].
13. Design of unmanned spacecraft for fundamental research, Comp. by V. V. Efanov, I. L. Shevalev; Ed. by V. V. Efanov, K. M. Pichhadze, Vol. 1, 526 p. (Izd-vo MAI, Moscow, 2012) (Vols. 1-2; Vol. 1) [in Russian].
14. Pustobaev M. V. Methods of testing onboard equipment of space vehicles for resistance to shock impacts on the operation of Unified pyrotechnic device. Doctor’s thesis. 145 p. (Moscow, 2015) [in Russian].
15. Triakin V. P., Shulzhenko N. G., Gontarovskii P. P., Matiukhin Yu. I. Estimating the resonance oscillation regimes in space vehicles. Kosm. nauka tehnol, 9 (4), 40—44 (2003) [in Russian].
https://doi.org/10.15407/knit2003.04.040
16. Shulzhenko N. G., Gontarovsky P. P., Zajtsev B. H. Problems in thermal strength, vibration diagnostics and service life of power machinery (models, methods, investigation results): monograph, 370 p. (LAP LAMBERT Academic Publishing GmbH & Co.KG, Saarbrücken, Germany, 2011) [in Russian].
17. Shulzhenko N. G., Gontarowsky P. P. Reaction of shell elements of space vehicles on the impulse action. Aerospace technic and technology, No. 9 (106), 53—58 (2013) [in Russian].
18. Shulzhenko N. G., Gontarovskyi P. P., Protasova T. V. Calculation method for transient process in 3D axisymmetric constructions under impulse loading. Aerospace technic and technology, No. 8 (115), 148—151 (2014) [in Russian].
19. Shulzhenko N. G., Zajtsev B. P., Asajenok A. V. Numerical simulation of dynamic response of structure under impulse impact. Aerospace technic and technology, No. 9 (116), 6—11 (2014) [in Russian].
20. ISO 18431-4:2007. Mechanical vibration and shock. Signal processing. Part 4: Shock-response spectrum analysis, published 2007-02-01, 16 p. (2007) [in Russian].
21. Wriggers P., Nackenhorst U. Analysis and simulation of contact problems, 394 p. (Springer, Berlin; Heidelberg, 2006)
https://doi.org/10.1007/3-540-31761-9