Geodesic
Analysis of impact resistance for two groups of ceramic and composite materials
Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 80 (2022), pp. 85-96 Cet article a éte moissonné depuis la source Math-Net.Ru

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Complex experimental and theoretical studies of shock-wave characteristics and penetration parameters are conducted to develop physical and mathematical models of deformation and fracture of ceramic and composite materials under high-velocity loading. The purpose of this work is to investigate the fracture of ceramic and composite targets and their efficiency in ceramic-containing structures. The experiments are performed using a ballistic test stand (Research Institute of Applied Mathematics and Mechanics, National Research Tomsk State University). The deformation and fracture of ceramic (aluminum oxide Al$_{2}$O$_{3}$, aluminum oxide (KVP-98, corundum), zirconium dioxide ZrO$_{2}$, silicon carbide SiC) and composite (TiC-NiCr and TiB$_{2}$-B$_{4}$C) materials are studied experimentally in the impact velocity range of 0.5-6.5 km/s. The dynamics of the fracture of ceramic plates (silicon carbide and aluminum oxide) is analyzed. The fragments of the plates and their size distribution are given. The study of the impact resistance of ceramic and composite samples reveals two groups of materials with essentially different levels of efficiency. For both groups, the dependence of the efficiency parameter on the impact velocity demonstrates a decrease in the velocity range from 0.5 to 3.0-4.5 km/s and a subsequent increase when the impact velocity tends to 6.5 km/s. The obtained experimental results may be used during the validation and verification of numerical and analytical models, approaches, and software packages.
Keywords: ceramics, high-velocity impact, efficiency parameter.
Mots-clés : composite, fracture 
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     title = {Analysis of impact resistance for two groups of ceramic and composite materials},
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S. A. Zelepugin; V. F. Tolkachev; I. M. Tyryshkin. Analysis of impact resistance for two groups of ceramic and composite materials. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 80 (2022), pp. 85-96. http://geodesic.mathdoc.fr/item/VTGU_2022_80_a7/

[1] Rumyantsev B. V., Pavlov S. I., “Vysokoskorostnoe vzaimodeistvie metallicheskoi strui s keramikoi”, Pisma v Zhurnal tekhnicheskoi fiziki, 46:17 (2020), 10–13 | DOI

[2] Cherepanov I. A., Savinykh A. S., Razorenov S. V., “Otkol v sapfire pri udarnom szhatii v razlichnykh kristallograficheskikh napravleniyakh”, Zhurnal tekhnicheskoi fiziki, 90:6 (2020), 961–964 | DOI

[3] Dulnev A. I., “O primenenii keramiki v sostave kompozitnykh konstruktsii zaschity”, Trudy Krylovskogo gosudarstvennogo nauchnogo tsentra, 2(396) (2021), 52–66 | DOI

[4] Zelepugin S. A., Mali V. I., Zelepugin A. S., Ilina E. V., “Failure of metallic-intermetallic laminate composites under dynamic loading”, AIP Conference Proceedings, 1426 (2012), 11011104 | DOI

[5] Promakhov V. V., Korobenkov M. V., Shults N. A. i dr., “Modelirovanie nakopleniya povrezhdenii i razrusheniya keramicheskikh kompozitov Al$_2$O$_3$-ZrO$_2$, poluchennykh po additivnym tekhnologiyam, pri vysokoskorostnom nagruzhenii”, Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika, 2021, no. 72, 140–157 | DOI

[6] Zelepugin S. A., Zelepugin A. S., Khristenko Yu. F., “Computational modelling of brittle fracture under dynamic loading”, ARPN Journal of Engineering and Applied Sciences, 11:24 (2016), 14560–14565

[7] Gorelskii V. A., Zelepugin S. A., Tolkachev V. F., “Eksperimentalnoe i chislennoe issledovanie razrusheniya keramiki pri vysokoskorostnom udare”, Khimicheskaya fizika, 18 (1999), 104–107

[8] Smolin A.Yu., Eremina G. M., “Refinement of the model for iron oxide friction based on movable cellular automata”, AIP Conference Proceedings, 2310 (2020), 020320 | DOI

[9] Ivanova O. V., Cherepanov R. O., Zelepugin S. A., “Numerical simulation of solid-phase chemical transformations in thermite mixtures under shock-wave loading”, Journal of Physics: Conference Series, 2154:1 (2022), 012005 | DOI

[10] Branicio P. S., Zhang J., Rino J. P. et al., “Shock-induced microstructural response of mono- and nanocrystalline SiC ceramics”, Journal of Applied Physics, 123:14 (2018), 145902 | DOI

[11] Ramesh K. T., Graham-Brady L., Goddard W. A. et al., “Models for the behavior of boron carbide in extreme dynamic environments”, Journal of the American Ceramic Society, 105:1 (2021) | DOI

[12] Mikushina V. A., Smolin I. Yu., “Chislennoe modelirovanie deformirovaniya i razrusheniya poristoi alyumooksidnoi keramiki na mezourovne”, Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika, 2019, no. 58, 99–108 | DOI | MR

[13] Pashkov S. V., Zelepugin S. A., “Probabilistic approach in modelling dynamic fracture problems”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236:21 (2022), 10681–10689 | DOI

[14] Zimina V. A., “Eksperimentalnoe issledovanie struktury, uprugikh i prochnostnykh kharakteristik poristoi korundovoi keramiki”, Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika, 2020, no. 67, 117–126 | DOI

[15] Khorev I. E., “Udarno-otkolnaya asimmetriya v probleme vysokoskorostnogo soudareniya tverdykh tel”, Pisma v Zhurnal tekhnicheskoi fiziki, 31:4 (2005), 71–75

[16] Zelepugin S. A., Tolkachev V. F., Zelepugin A. S., “Asimmetriya razrusheniya keramiki pri vysokoskorostnom udare”, Pisma v Zhurnal tekhnicheskoi fiziki, 43:23 (2017), 48–54 | DOI

[17] Carton E. P., Johnsen B. B., Rahbek D.-B. et al., “Round robin using the depth of penetration test method on an armour grade alumina”, Defence Technology, 15 (2019), 829–836 | DOI

[18] Savio S. G., Madhu V., “Ballistic performance evaluation of ceramic tiles with respect to projectile velocity against hard steel projectile using DOP test”, International Journal of Impact Engineering, 113 (2018), 161–167 | DOI

[19] Savio S. G., Rao A. S., Reddy P. R.S., Madhu V., “Microstructure and ballistic performance of hot pressed reaction bonded boron carbides against an armour piercing projectile”, Advances in Applied Ceramics, 118:5 (2019), 264–273 | DOI

[20] Tolkachev V. F., Konyaev A. A., Zheikov V. V., “Experimental study of impact resistance of ceramics and composites”, Composites: Mechanics, Computations, Applications: An International Journal, 3:3 (2012), 253–262 | DOI

[21] Khristenko Yu.F., Zelepugin S. A., Gerasimov A. V., “New light-gas guns for the high-velocity throwing of mechanical particles”, ARPN Journal of Engineering and Applied Sciences, 12:22 (2017), 6606–6610

[22] Mikhailov A. L., Ogorodnikov V. A., Sasik V. S. i dr., “Eksperimentalno-raschetnoe modelirovanie protsessa vybrosa chastits s udarno-nagruzhennoi poverkhnosti”, Zhurnal eksperimentalnoi i teoreticheskoi fiziki, 145:5 (2014), 892–905 | DOI

[23] Grigorev M. V., Burlachenko A. G., Buyakova S. P., Kulkov S. N., “Deformatsiya i razrushenie korundovoi keramiki s mnogourovnevoi porovoi strukturoi”, Zhurnal tekhnicheskoi fiziki, 666:12 (2019), 1898–1902 | DOI

[24] Tolkachev V. F., Konyaev A. A., Pakhnutova N. V., “The efficiency of ceramic-faced metal targets at high-velocity impact”, Journal of Physics: Conference Series, 919 (2017), 012007 | DOI

[25] Bless S. J., Rosenberg Z., Yoon B., “Hypervelocity penetration of ceramics”, International Journal of Impact Engineering, 5:1–4 (1987), 165–171 | DOI