Mathematical model of air damper with permeable fabric shell


DOI: 10.34759/trd-2022-125-11

Аuthors

Averyanov I. O.1*, Wasilchenko A. G.2**

1. Moscow design industrial complex "MKPK "Universal", 79A, Altufevskoe shosse, Moscow, 127410, Russia
2. Federal state unitary enterprise "Scientific research institute of parachute design and production" (FSUE "NII parachutostroyeniya"), 2, Irkutskaya str., block 1, 107241, Moscow, Russian

*e-mail: i.averyanov@mail.ru
**e-mail: was-an@yandex.ru

Keywords:

soft landing system, air damper, dropped cargo landing, fabric permeability, Rysev’s model

References

  1. Tryamkin A.V., Emel’yanov Yu.N. Trudy MAI, 2000, no. 1. URL: http://trudymai.ru/eng/published.php?ID=34731
  2. Tryamkin A.V., Skidanov S.N. Trudy MAI, 2001, no. 3. URL: https://trudymai.ru/eng/published.php?ID=34686
  3. Aver’yanov I.O., Zinin A.V. Trudy MAI, 2022, no. 124. URL: http://trudymai.ru/eng/published.php?ID=167067. DOI: 10.34759/trd-2022-124-12
  4. Aver’yanov I.O. Trudy MAI, 2020, no. 115. URL: http://trudymai.ru/eng/published.php?ID=119896. DOI: 10.34759/trd-2020-115-03
  5. Kulichenko A.V. Razrabotka modelei i eksperimental’nykh metodov izucheniya vozdukhopronitsaemosti tekstil’nykh materialov (Development of models and experimental methods for research of fabric materials permeability), Doctor’s thesis, Moscow, MSUDT, 2005, 340 p.
  6. Aver’yanov I.O., Suleimanov T.S., Tarakanov P.V. Trudy MAI, 2017, no. 92. URL: http://trudymai.ru/eng/published.php?ID=77448
  7. Qu Pu, Yang Zhen, Shi Rui. Research on Airbags Landing System for Airborne Vehicle Airdrop, Journal of Information and Computational Science, 2015, vol. 12(5), pp. 2035-2042. DOI: 10.12733/jics20105798
  8. Per-Olof Marklund, Larsgunnar Nilsson. Simulation of airbag deployment a coupled fluid-structure approach, 7th International LS-Dyna Users Conference, 2002. URL: https://www.dynalook.com/conferences/international-conf-2002
  9. Yves de Lassat de Pressigny, Vincent Lapoujade. Numerical simulation of ground impact after airdrop, 5th European LS-Dyna Users Conference, 2005. URL: https://www.dynalook.com/conferences/european-conf-2005
  10. Yves de Lassat de Pressigny, Thierry Baylot. Simulation of the impact on ground of airdrop loads to define a standard worst case test, 6th European LS-Dyna Users Conference, 2007. URL: https://www.dynalook.com/conferences/european-conf-2007
  11. Masoud Alizadeh, Ahmad Sedaghat, Ebrahim Kargar. Shape and orifice optimization of airbag systems for UAV parachute landing, International Journal of Aeronautical and Space Sciences, 2014, vol. 15(3), pp. 112-121. URL: https://doi.org/10.5139/IJASS.2014.15.3.335
  12. Pan Cao, Xuyan Hou, Yongbin Wang, Meng Li, Xiaoshan Rao, Yuetian Shi. Flexible airbag cushioning for Martian landing based on discrete element method, Advances in Space Research, 2019, vol. 63, issue 8, pp. 2566-2583. URL: https://doi.org/10.1016/j.asr.2019.01.007
  13. Huajian Zhou, Zhihua Zhong, Manjiang Hua. Design and Occupant-Protection Performance Analysis of a New Tubular Driver Airbag, Research Vehicle Engineering, 2018, vol. 4, issue 2, pp. 291-297. URL: https://doi.org/10.1016/j.eng.2018.03.015
  14. LS-DYNA KEYWORD USER’S MANUAL. URL: www.dynasupport.com/manuals/
  15. Sedov L.I. Metody podobiya i razmernosti v mekhanike (Methods of similarity and dimensionality in mechanics), Moscow, Nauka, 1977, 440 p.
  16. Rysev O.V., Vishnyak A.A., Churkin V.M., Yurtsev Yu.N. Dinamika svyazannykh tel v zadachakh dvizheniya parashyutnykh system (Dynamics of connected bodies in the tasks of parachute systems movement), Moscow, Mashinostroenie, 1992, 288 p.
  17. Rysev O.V., Ponomarev A.T., Vasil’ev M.I., Vishnyak A.A., Dneprov I.V., Moseev Yu.V. Parashyutnye sistemy (Parachute systems), Moscow, Nauka.Fizmatlit, 1996, 288 p.
  18. Lyalin V.V., Morozov V.I., Ponomarev A.T. Parashyutnye sistemy. Problemy i metody ikh resheniya (Parachute systems. Problems and methods of their solving), Moscow, Fizmatlit, 2009, 576 p.
  19. Emel’yanov Yu.N., Pavlov A.S., Titov V.A. Proektirovanie sistemy myagkoi posadki prizemlyayushchegosya ob"ekta (Developing of soft landing system), Moscow, Izd-vo MAI, 1988, 62 p.
  20. Ponomarev P.A. Issledovanie i vybor ratsional’nykh parametrov pnevmaticheskogo amortizatora dlya posadki distantsionno-pilotiruemykh letatel’nykh apparatov (Analysis and choice of rational parameters of pneumatic shock absorber for the landing aircrafts), Doctor’s thesis, Moscow, MAI, 2000, 145 p.
  21. Ponomarev P.A., Skidanov S.N., Timokhin V.A. Trudy MAI, 2000, no. 2. URL: http://trudymai.ru/eng/published.php?ID=34708
  22. Amosov A.A., Dubinskii Yu.A., Kopchenova N.V. Vychislitel’nye metody dlya inzhenerov (Numerical methods for engineers), Moscow, Vysshaya shkola, 1994, 544 p.

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