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Analysis of the influence of the finite elements mesh density on the determined shaped charge jet parameters

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EN
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EN
Article presents results of numerical analyses of the finite elements mesh density influence on the shaped charge jet stream formation process and its selected parameters. Authors considered classical shaped charge, which consists of the plastic explosive material, copper liner and aluminium case. To properly described, material properties of the liner and case of the shaped charge, the Johnson-Cook material model was used. Detonation process was described using burn model approach. Behaviour of the detonation process products was described by commonly used John-Wilkins-Lee equation of state. Due to the nature of the presented phenomenon, in which we are dealing with large strains and strain rates, for its modelling authors utilized Euler description, implemented in the LS-Dyna software. In these method material flows by the finite elements and mesh is not deformed. Such approach allows for modelling phenomena where large and very large deformations occur. Unfortunately, it can result in a destabilizing of the systems energy balance. In order to minimize dissipation processes, in calculations was used second order scheme because of the spatial variables and time. Analyses were performed in axially symmetric setup, which was possible due to the symmetry of the analysed system. Influence of the finite elements size on the process of jet stream formation and its selected parameters was analysed.
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autor
  • Military University of Technology Department of Mechanics and Applied Computer Science Kaliskiego Street 2, 00-908 Warsaw, Poland tel.: +48 22 683-98-49, fax. +48 22 683-93-55
  • Military University of Technology Department of Mechanics and Applied Computer Science Kaliskiego Street 2, 00-908 Warsaw, Poland tel.: +48 22 683-98-49, fax. +48 22 683-93-55
autor
  • Military Institute of Armament Technology Prym. St. Wyszyńskiego Street 7, 05-220 Zielonka
autor
  • Military Institute of Armament Technology Prym. St. Wyszyńskiego Street 7, 05-220 Zielonka
Bibliografia
  • [1] Jach, K. et al., Computer Modeling of Dynamic Interactions Using Free Points. PWN, Warszawa 2001 (in Polish).
  • [2] Panowicz, R., Kołodziejczyk, D., Szymańczyk, L., Experimental Studies of Deformations Cumulative Impact on Efficiency Reducing of Cumulative Stream, Biuletyn Naukowy Problemy Techniki Uzbrojenia, Z. 126, 2013 (in Polish).
  • [3] Panowicz, R., Kołodziejczyk, D., Szymańczyk, L., The Impact of Selected Types of Deformation Loads Cumulative Damage on Their Efficiency, Zeszyty Nauk. WSOWL, Nr 2 (172), 2014 (in Polish).
  • [4] Walters, W. P., Zukas, J. A., Fundamentals of shaped charges, Wiley Interscience, New York 1989.
  • [5] Kennedy, D. R., History of the shaped charge effect, the first 100 years, U. S. De-partment of Commerce, AD–A220 095, 1983.
  • [6] Lockwood, D., Russian RPG dominates the world’s man-portable anti-armor weapon market, [online], http://www.forecastinternational.com/press/ release.cfm?article=83, 2005.
  • [7] Hallquist, J. O., Ls-Dyna Theory Manual, Livermore Software Technology Corporation, Livermore, CA 2005.
  • [8] Johnson, G. R., Cook, W. H., A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures, 7th Int. Symposium on Ballistics, 1983.
  • [9] Bdzil, J. B., Stewart, D. S., Jackson, T. L., Program burn algorithms based on detonation shock dynamics: discrete approximations of detonation flows with discontinuous front models, Journal of Computational Physics, 174, p. 870-902, 2001.
  • [10] Włodarczyk, E., Introduction to the Mechanics of the Explosion, PWN, Warszawa 1994 (in Polish).
  • [11] Panowicz, R., Barnat, W., Influence of location of an explosive charge on the intensity of blast wave, Biul. WAT, 59, 1, 2010 (in Polish).
  • [12] Meyers, M. A., Dynamic behaviour of materials, Johs Wiley and Sons, INC, New York-Chichester-Brisbane-Toronto-Singapoure 1994.
  • [13] https://str.llnl.gov/str/Baum.html.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-40cf1c43-a759-4f3b-b3e8-3c6c93160df9
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