Geodesic
On some features of the destruction of high-speed particles on debris corrugated mesh shields
Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 82 (2023), pp. 82-96 Cet article a éte moissonné depuis la source Math-Net.Ru

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This paper studies the impact of high-speed particles on corrugated metal mesh shields. Numerical solutions to a number of problems on high-speed interaction at different corrugation angles and positions of the initial contact point of the shield and impactor are solved using the grid Wilkins Lagrangian method in a three-dimensional formulation. The parameters of the behind-the-barrier cloud of destruction products are compared for various problems with the same distance traveled by the particle perforating the shield. Thus, the optimal inclination angle of the corrugation is revealed.
Keywords: high-speed impact, mesh shield, debris protection, numerical simulation. 
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D. B. Dobritsa; Yu. F. Khristenko. On some features of the destruction of high-speed particles on debris corrugated mesh shields. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 82 (2023), pp. 82-96. http://geodesic.mathdoc.fr/item/VTGU_2023_82_a6/

[1] E. L. Christiansen, J. H. Kerr, “Mesh Double-Bumper Shield: A Low-Weight Alternative for Spacecraft Meteoroid and Orbital Debris Protection”, International Journal of Impact Engineering, 14 (1993), 169–180 | DOI

[2] M. Lin, B. J. Pang, J. Cheng, “Experimental and Numerical Study on the Mesh Bumper by Hypervelocity Impact”, Advanced Materials Research, 457-458 (2012), 108–112 | DOI

[3] G. S. Guan, R. T. Niu, “Numerical simulation of hypervelocity impact on mesh bumper causing fragmentation and ejection”, Key Engineering Materials, 525-526 (2013), 401–404 | DOI

[4] G. S. Guan, D. D. Pu, Y. Ha, “Investigation into Damage of Stainless Steel Mesh/AL Plate MultiShock Shield under Hypervelocity AL-Spheres Impact”, Key Engineering Materials, 525-526 (2013), 397–400 | DOI

[5] N. N. Myagkov, T. A. Shumikhin, “Studying the redistribution of kinetic energy between the morphologically distinct parts of the fragments cloud formed from high-velocity impact fragmentation of an aluminum sphere on a steel mesh”, AIMS Materials Science, 6:5 (2019), 685–696 | DOI

[6] D. B. Dobritsa, S. V. Pashkov, Yu. F. Khristenko, “Issledovanie effektivnosti setochnykh gofrirovannykh ekranov dlya zaschity kosmicheskikh apparatov ot vozdeistviya meteornotekhnogennykh chastits”, Kosmicheskie issledovaniya, 58:2 (2020), 131–137 | DOI

[7] D. B. Dobritsa, S. V. Pashkov, Iu. F. Khristenko, “Protective properties of pleated wire mesh shields for spacecraft protection against meteoroids and space debris”, AIP Conference Proceedings, 2318, 2021, 140006 | DOI

[8] D. B. Dobritsa, B. Yu. Yashchenko, S. V. Pashkov, Yu. F. Khristenko, “About evaluating the durability of corrugated mesh screens for meteoroid protection”, AIP Conference Proceedings, 2318, 2021, 140004 | DOI

[9] D. B. Dobritsa, B. Yu. Yaschenko, S. V. Pashkov, Yu. F. Khristenko, “Eksperimentalnoe issledovanie stoikosti gofrirovannykh setochnykh protivometeornykh ekranov”, Vestnik NPO im. S.A. Lavochkina, 2021, no. 1 (51), 24–32 | DOI

[10] D. B. Dobritsa, B. Yu. Yaschenko, S. V. Pashkov, Yu. F. Khristenko, “K voprosu o geometrii gofrirovaniya i ee vliyanii na zaschitnye svoistva protivometeornogo ekrana iz metallicheskoi setki”, Vestnik NPO im. S.A. Lavochkina, 2021, no. 4 (54), 50–55 | DOI

[11] N. N. Myagkov, T. A. Shumikhin, L. N. Bezrukov, “Experimental and numerical study of peculiarities at high-velocity interaction between a projectile and discrete bumpers”, International Journal of Impact Engineering, 37 (2010), 980–994 | DOI

[12] L.P. Orlenko (red.), Fizika vzryva, v 2 t., v. 2, Izd. 3-e, pererab., Fizmatlit, M., 2002, 656 pp.

[13] M. L. Uilkins, “Raschet uprugoplasticheskikh techenii”, Vychislitelnye metody v gidrodinamike, eds. S.S. Grigoryan, Yu. D. Shmyglevskii, Mir, M., 1967, 212–263

[14] M. L. Wilkins, Computer simulation of dynamic phenomena, Springer-Verlag, Berlin, 1999, 246 pp. | Zbl

[15] V. M. Fomin, A. I. Gulidov, G. A. Sapozhnikov, I. I. Shabalin, Babakov V.A, V. F. Kuropatenko, A. B. Kiselev, Yu. A. Trishin, A. I. Sadyrin, S. P. Kiselev, I. F. Golovnev, Vysokoskorostnoe vzaimodeistvie tel, Izd-vo SO RAN, Novosibirsk, 1999, 600 pp.

[16] A. I. Gulidov, I. I. Shabalin, Chislennaya realizatsiya granichnykh uslovii v dinamicheskikh kontaktnykh zadachakh, Preprint ITPM SO AN SSSR, No 12-87, Novosibirsk, 1987, 37 pp.

[17] A. I. Gulidov, I. I. Shabalin, “Raschet kontaktnykh granits s uchetom treniya pri dinamicheskom vzaimodeistvii deformiruemykh tel”, Chislennye metody resheniya zadach teorii uprugosti i plastichnosti, materialy IX Vsesoyuz. konf. (Novosibirsk, 1988), 70–75

[18] Y. M. Chen, M. L. Wilkins, “Stress analysis of crack problems with a three-dimensional, time dependent computer program”, International Journal of Fracture, 12:4 (1976), 607–617 | DOI

[19] A.V. Gerasimov (red.), Teoreticheskie i eksperimentalnye issledovaniya vysokoskorostnogo vozdeistviya tel, Izd-vo Tom. un-ta, Tomsk, 2007, 572 pp.

[20] D. J. Steinberg, S. G. Cochran, M. W. Guinan, “A constitutive model for metals applicable at high-strain rate”, Journal of Applied Physics, 51:3 (1980), 1498–1504 | DOI

[21] M. P. Galanin, I. A. Scheglov, “Razrabotka i realizatsiya algoritmov trekhmernoi triangulyatsii slozhnykh prostranstvennykh oblastei: pryamye metody”, Preprinty IPM im. M.V. Keldysha, 2006, 010, 32 pp.