ISSN Print: 2150-766X
ISSN Online: 2150-7678
Volume 19, 2020
Volume 18, 2019
Volume 17, 2018
Volume 16, 2017
Volume 15, 2016
Volume 14, 2015
Volume 13, 2014
Volume 12, 2013
Volume 11, 2012
Volume 10, 2011
Volume 9, 2010
Volume 8, 2009
Volume 7, 2008
Volume 6, 2007
Volume 5, 2002
Volume 4, 1997
Volume 3, 1994
Volume 2, 1993
Volume 1, 1991
International Journal of Energetic Materials and Chemical Propulsion
APPLICATION OF THE METHODOLOGY "COUNTERFLOW DIFFUSION FLAMES" FOR CALCULATING THE PENETRATING EFFECT OF FLUOROPLAST-BASED STRIKER
Evgeny A. Khmelnikov
Nizhny Tagil Technological Institute (branch) of Ural Federal University, Nizhny Tagil, Russian Federation
T. E. Zavodova
Ural Federal University, Nizhny Tagil, Russia, 622000
K. V. Smagin
Ural Federal University, Nizhny Tagil, Russia, 622000
The possibility of using fluoroplastic as a reactive material capable of replacing explosives in ammunition
used to defeat lightly armored and easily vulnerable targets is considered. The results of
experiments and mathematical modeling of the penetration process of fluoroplastic-based ammunition
into targets from light alloys. To account for the additional energy released as a result of the
interaction during the simulation, the counterflow diffusion flame (CDF) method was used.
AZoM, (2012) Aluminium 3003 Alloy (UNS A93003), accessed 2 Jun. 2018, from https://www.azom.com/article.aspx?ArticleID=6618.
Antsiferova, E . V. , Bogdanov, V. V. , Derebenko, E . V. , Lagutina, A . V. , and Khmelnikov, E .A . , (2006) Calculation Technique for Kinematic Characteristics of Penetration of Combined Striker with Oblong Core Part Considering Possible Destruction of the Latter, in AIP Conf. Proc, 849, pp. 121-126, 8-11 Sept. 2005, Lixourion, Kefallinia Island, Greece.
Australasian Radiation Society Media Release, (2001) Potential Health Effects of Depleted Uranium in Munitions, accessed 5 May 2018, from https://scienceandtechnologyaustralia.org.au/profile/australasian-radiation-protection-society-inc-arps/.
Autodyn User's Manual, from https://www.sharcnet.ca/Software/Ansys/16.2.3/en-us/help/wb_adyn/ autodyn_book.html.
Belotserkovsky, O.M. and Davidov, Y.M., (1982) Method of Large Particles in the Gas Dynamics, in M. Nauka Home Edition of Physical and Mathematical Literature, Moscow: Nauka, p. 392.
Kharitonov, V., Krianev, A., Kurelchuk, U., and Dudin, N., (2013) Analytical Forecast of Uranium Mining Dynamics, Environ. Strategies, 3, pp. 58-72.
Khmelnikov, E.A., Antsiferova, E.V., Bogdanov, V.V., Derebenko, E.V., Derebenko, A.V., and Melnikova, E.S., (2007) The Design Procedure of the Motion Characteristics of the Projectile in the Air and Solids, in Extreme States of Substance. Detonation. Shock Waves. Intl. Conf. "IX Khariton's Topical Scientific Readings," Sarov, Russia, 12-16 Mar. 2007, pp. 256-266.
Khmelnikov, E.A., Smagin, K.V., and Zavodova, T.E., (2017) Application of the Methodology "Counter-flow Diffusion Flames" in Modeling of the Terminal Ballistic Processes of Munitions based on Reactionary Material, in Proc. of the 11th International High Energy Materials Conference Exhibits, Pune, India, 23-25 Nov. 2017,1, pp. 270-276.
Khmelnikov, E.A., Styrov, A.V., Smagin, K.V., Kravchenko, N.S., Rudenko, V.L., Sokolov, S.S., and Svidinsky, A.V., (2016) Study of High-Speed Interaction Processes between Fluoropolymer Projectiles and Aluminum and Titanium-Based Targets, Int. J. Energ. Mater. Chem. Propuls., 1, pp. 167-183.
Khmelnikov, E.A., Styrov, A.V., Smagin, K.V., Kravchenko, N.S., Rudenko, V.L., Falaleev, V.I., Sokolov, S.S., Svidinsky, A.V., and Svidinskaya, N.F., (2015) Study of High-Speed Interaction Processes between Fluoropolymer Projectiles and Aluminum-Based Targets, Defence Technol., 11(1), pp. 56-64.
Khmelnikov, E .A . , Styrov, A . V. , Smagin, K. V. , Rudenko, V.L . , Kopanov, V. V. , Falaleev, V.I . , Sokolov, S.S., Svidinsky, A.V., and Svidinskaya, N.F., (2013) Analyses of Processes are Flowing in High Speed Interaction between Firing Pins Contains Fluoropolymer and Aluminum Containing Barrages, in Proc. of 27th Intl. Symp. on Ballistics, BALLISTICS 2013, Freiburg, Germany, 22-26 Apr. 2013, 2, pp. 1264-1276.
Lapteva, A.M., (2018) The State of World Tungsten Market and the Potential of Russian Tungsten Ore Base, Natl. Geol., 1. DOI: 10.244.11/0869-7175-2018-00003.
Nielson, D.B., Truitt, R.M., Poore, R.D., and Ashcroft, B.N., (2011) Reactive Material Compositions, Shot Shell Including Reactive Materials, and Method of Production Same, United States Patent 7977420, filed March 22, 2007, and issued July 12, 2011, accessed 10 Oct. 2017, from http://www.freepatentsonline.com/7977420.html.
Sokolov, E.A. and Maksimov, R.D., (1979) Predicting the Elastic Characteristics of a Hybrid Textolite, Mekh. Kompozitn. Mater., 4, pp. 705-711.
Tsuji, H., (1982) Counterflow Diffusion Flames, Prog. Energy Combust. Sci., 8(2), pp. 93-119. DOI: 10.1016/0360-1285(82)90015-6.
Yan, L., Zaicheng, W., Chunlan, J., and Haohao, N., (2017) Experimental Study on Impact-Induced Reaction Characteristics of PTFE/Ti Composites Enhanced by W Particles, Materials. DOI: 10/3390/ma10020175.
Zavodova, T.E., Khmelnikov, E.A., Styrov, A.V., Smagin, K.V., and Bochkarev, S.O., (2016) Numerical Modeling of High-Speed Interaction Processes between Fluoropolymer Projectiles and Light Alloy-Based Targets, in Proc. of 29th Intl. Symp. on Ballistics, BALLISTICS 2016, Edinburgh, Scotland, UK, 9-13 May 2016,2, pp. 1907-1917.
Articles with similar content:
APPLICATIONS OF ENERGETIC MATERIALS BY A THEORETICAL METHOD (DISCOVER ENERGETIC MATERIALS BY A THEORETICAL METHOD)
International Journal of Energetic Materials and Chemical Propulsion, Vol.12, 2013, issue 3
Lulu Huang, Lou Massa
PARTICLE TRANSFER AND STRUCTURE FORMATION IN CATALYST INK DURING DRYING PROCESS
International Heat Transfer Conference 16, Vol.16, 2018, issue
Takahiro Suzuki, Shohji Tsushima
MODELING OF TWO-PHASE GRAIN STRUCTURE IN THE TITANIUM ALLOY TI-6AL-4V USING CELLULAR AUTOMATA
International Journal for Multiscale Computational Engineering, Vol.12, 2014, issue 1
Alfred Krumphals, Fernando Warchomicka, Christof Sommitsch, Martin Stockinger, Cecilia Poletti