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In this work the influence of the characteristics of the material of the striker (cumulative jet or projectile), moving at speeds of 2-10 km/s, on the volume of the resulting crater in a metal target, has been studied. The dependence of the crater volume in an aluminum alloy target of Cu-Al, W-Cu-Pb-Al composites, and steel St45 for a PTFE-Cu composite, were investigated. The outer diameter and height of the shaped charges were 26 and 28, and 31 and 33 mm, respectively. The mass of the explosive (phlegmatized hexogen) in these charges was 10 and 18 g. A comparison was made between the ratios of the kinetic energy of the striker to the volume of the crater formed for the composites PTFE-Al, PTFE-Cu, Cu-Al, Ni-Al, W-Cu-Pb, and porous materials Cu and Al. It was demonstrated that the chemical interaction of the components of the porous Cu-Al and Ni-Al composites during penetration into the barrier is possible at an impact velocity of at least 2-3 km/s and a porosity of at least 30%.
Słowa kluczowe
Rocznik
Tom
Strony
405--423
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- Ukrainian State Geological Research Institute, Avtozavodskaya 78A, 04114 Kyiv, Ukraine
autor
- Shostka Institute of Sumy State University, Haharina 1, 41100 Shostka, Ukraine
autor
- National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Peremohy Avenue 37, 03056 Kyiv, Ukraine
Bibliografia
- [1] Yakushev, V.V.; Ananev, S.Yu.; Utkin, A.V.; Zhukov, A.N.; Dolgoborodov, A.Yu. Shock Compressibility of Mixtures of Micro- and Nano-Sized Nickel and Aluminum Powders. Combust. Explos. Shock Waves 2018, 54(5): 552-557.
- [2] Voitenko, Y.I.; Zakusylo, R.V.; Wojewodka, A.T.; Gontar, P.A.; Gerlich, M.M.; Drachuk, O.G. New Functional Materials in Mechanical Engineering and Geology. Cent. Eur. J. Energ. Mater. 2019, 16(1): 135-149.
- [3] Eakins, D.E.; Thadhani, N.N. The Shock-compression of Reactive Powder Mixtures. Int. Mater. Rev. 2009, 54(4): 181-213.
- [4] Voitenko, Y.I.; Kravets, V. G.; Shukurov, A.; Gan, A.L.; Korobiytshuk V.V. Efficiency Charges of Different Designs with Deformation and the Destruction of Metal Barriers. (in Ukrainian) Herald of the Zhytomir Polytechnic State Univеrsity, Ser. «Technical Sciences» 2018, 1(81): 223-231.
- [5] Rumyantsev, B.V.; Klimenko, V.Yu. Phase Transformations in Copper Cumulative Jet Penetrating into Silicon Carbide. Tech. Phys. Lett. 2011, 37: 1130-1033.
- [6] Wu, J.; Wang, H.; Fang, X.; Li, Y.; Mao, Y.; Yang, L.; Yin, Q.; Wu, S.; Yao, M.; Song, J. Investigation on the Thermal Behavior, Mechanical Properties and Reaction Characteristics of Al-PTFE Composites Enhanced by Ni Particle. Materials 2018, 11(9) paper 1741: 1-10.
- [7] Fedorov, S.V. On the Penetration Depth of a Porous Striker Moving with a Hypersonic Velocity. Tech. Phys. 2007, 52(10): 1379-1382.
- [8] Habera, Ł.; Hebda, K.; Koślik, P.; Sałacińskі, Т. The Shooting Tests of Target Perforating Ability, Performed on Cast Concrete Cylinders. Cent. Eur. J. Energ. Mater. 2020, 17(4): 584- 599.
- [9] Vagenknecht, J.; Vojtech, A.; Pšencik, J. A New Method of Classification of Quality of High Explosives. Proc Annu. Conf. Explosives and Blasting Technique, Orlando, FL, 1996, pp. 105-109.
- [10] Held, M. Determination of the Material Quality of Copper Shaped Charge Liners. Propellants Explos. Pyrotech. 1985, 10(5): 125-128.
- [11] Vasilyev, V.D.; Grigoryev, A.Yu.; Dunilov, K.K.; Semashkin, G.V.; Frolenkov, Yu.A.; Dushenok, С.А. Method and Device for the Destruction of Explosive Objects. (in Russian) Patent RU 2500980, 2013.
- [12] Sorensen, B. High-Velocity Impact of Encased Al/PTFE Projectiles on Structural Aluminum Armor. Procedia Eng. 2015, 103: 569-576.
- [13] Yin, J.P.; Shi, Z.X.; Chen, J.; Chang, B.H.; Yi, J.Y. Smooth Particle Hydrodynamicsbased Characteristics of a Shaped Jet from Different Materials. Strength Mater. 2019, 51(1): 85-94.
- [14] Afanas’eva, S.A.; Belov, N.N.; Biryukov, Yu.А.; Burkin, V.V.; Ishchenko, А.N.; Martsunova, L.S.; Tabachenko, А.N.; Khabibullin, M.V.; Yugov, N.T. Impact Properties of Tungsten-based Alloys under High-speed Interaction Conditions. Russ. Phys. J. 2013, 55(11): 1278-1283.
- [15] Kormer, S.B.; Funtikov, А.I.; Urlin, V.D.; Kоlesnikova, А.N. Dynamic Compression of Porous Metals and the Equation of State with Variable Heat Capacity at High Temperatures. In: Properties of Condensed Matter at High Pressures and Temperatures. 1992, pp. 93-108.
- [16] Drachuk, A.G.; Goshovskii, S.V.; Voitenko, Y.I. The Calculation Parameters of Shaped Charges with Porous Liner. (in Ukrainian) Ukrainian State Geological Exploration Institute, Kiev, 2007, p. 42.
- [17] Orlenko, L.P.; Selivanov, V.V. An Explosion in Solids. (in Russian) Іn: The Physics of Explosion. Vol. 2, 2004, рp. 389-524.
- [18] Chang, B.H.; Yin, J.P.; Cui, Z.Q.; Liu, T.X. Improved Dynamic Mechanical Properties of Modified PTFE Jet Penetrating Charge with Shell. Strength Mater. 2016, 1: 82-89.
- [19] Xu, Y.J.; Wang, Z. J.; Wu, G.D.; Yin, J.P.; Dong, F.D.; Jin, Y.X. Density Effect of PTFE-Copper Powder Metallurgy Liner Material on the Perforation Performance of Shaped Charge Jets. Strength Mater. 2019, 4: 132-140.
- [20] Chelishev. V.P. Initial Parameters of Shock Waves at Interface of Matters. (in Russian) Іn: The Physics of Explosion. Vol. 1, 2004, p. 422-469.
- [21] Pismenskaya, Е.B. High-temperature Synthesis of Intermetallic Compounds in the Mode of a Dynamic Thermal Explosion. (in Russian) Doctoral dissertation, Chernogolovka, 2000, p. 179.
- [22] Zhukov, A.N.; Yakushev, V.A.; Ananev, S.Yu.; Dobrygin, V.V.; Dolgoborodov, A.Yu. Investigation of Nickel Aluminide Formed Due to Shock Loading of Aluminum-Nickel Mixtures in Flat Recovery Ampoules. Combust. Explos. Shock Waves 2018, 54(1): 64-71.
- [23] Trishin, Y.A.; Kinelovskii, S.A. Effect of Porosity on Shaped-Charge Flow. Combust. Explos. Shock Waves 2000, 36(2): 122-132.
- [24] Balankin, A.S. Physics of the Interaction of Solid Bodies with a Porous Medium under High Velocity Impact. Tech. Phys. 1988, 58(12): 2380-2382.
- [25] Begunov, A.I.; Kuz’min, M.P. Thermodynamic Stability of Intermetallic Compounds in Technical Aluminum. J. Sib. Fed. Univ. Eng. Technol. 2014, 7:132-137.
- [26] Kalychak, J. Іntermetallic Compounds. Preparation, Structure, Application. (in Ukrainian) Bull. NTSh 2013, 49: 63-66.
- [27] Voitenko, Y.I.; Bugajets, V.P. Influence of Aluminum on the Impact Properties of Composite Cumulative Jets. (in Russian) Bulletin of the National Technical University of Ukraine «Kiev Polytechnic Institute» 2016, 30: 36-48.
Uwagi
In this version, the name of the 3rd co-author was changed from “Sergiy” into “Stefan”.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9d2e64cd-7cd5-45a2-bef4-f3b422387e01