Abstract
For protection against projectiles with higher impact speed (up to 1000 m/s) a type of a ballistic sandwich shield can be used—which is a monolithic combination of ballistic laminates with additional materials, typically hard layers made of ceramic in the form of plates or spheres of oxides, carbides and nitrides. The authors of this paper, by using FEM to optimize defined material sets to fire the cartridge 7.62 × 54R mm, give a range of results which are compared with tests of ballistic firing on the shooting range.
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References
Wisniewski A (2001) Pancerze budowa, projektowanie i badania. WNT, Warszawa (in Polish).
Bocian M, Jamroziak K, Kosobudzki M (2014) The Analysis of Energy Consumption of a Ballistic Shields in Simulation of Mobile Cellular Automata. Advanced Materials Research. doi:http://10.4028/www.scientific.net/AMR.1036.680.
Grujicic M et al (2009) Material Modeling and Ballistic-Resistance Analysis of Armor-Grade Composites Reinforced with High-Performance Fibers. JMEPEG. doi:10.1007/s11665-009-9370-5.
Jamroziak K (2013) An identification of the material properties in the terminal ballistic. Wroclaw University of Technology Publishing House, Wroclaw.
Barcikowski M, Semczyszyn B (2011) Impact damage in polyester-matrix glass fibre-reinforced composites. Part I. Impact damage extent. Composites 11(3):230–234.
Bocian M, Jamroziak K, Kosobudzki M (2015) Analysis of Material Punching Including a Rotational Speed of the Projectile. Solid State Phenomena. doi:10.4028/www.scientific.net/SSP.220-221.571.
Soykasap O, Colakoglu M (2010) Ballistic Performance of a Kevlar-29 Woven Fibre Composite Under Vried Temperatures. Mechanics of Composite Materials 46(1):35–42.
Rojek M et al (2013) Composite materials with the polymeric matrix applied to ballistic shields. Archives of Materials Science and Engineering 63(1):26−35.
Yen C-F et al (2007) A Comparison Between Experiment and Numerical Simulation of Fabric Ballistic Impact. Proceedings of the 23nd International Symposium on Ballistics. Tarragona, Spain, 16–20 April 2007.
Duan Y et al (2005) Modeling Friction Effects on the Ballistic Impact Behavior of a Single-Ply High-Strength Fabric. International Journal of Impact Engineering. doi:10.1016/j.ijimpeng.2004.06.008.
Liang C-C et al. (2003) Resistant performance of perforation in protective structures using a semi-empirical method with marine applications. Ocean Engineering.doi:10.1016/S0029-8018(02)00085-9.
Mazurkiewicz L, Malachowski J, Baranowski P (2015) Optimization of protective panel for critical supporting elements. Composite Structure. doi:10.1016/j.compstruct.2015.08.069.
Zohdi ZI (2010) High-speed impact of electromagnetically sensitive fabric and induced projectile spin. Comput Mech. doi:10.1007/s00466-010-0481-5.
Rusinski E, Karlinski J, Jamroziak K (2005) The chosen aspects from research of ballistic shields. Proceedings of the 22nd DANUBIA-ADRIA Symposium on Experimental Methods in Solid Mechanics DAS. Monticelli Terme-Parma, Italy, 28.09-01.10.2005.
Czaplinski T et al. (2009) Identyfikacja parametrów modelu kompozytu zbrojonego tkaniną. Proccedings of the fifth International Symposium Damage Mechanics of Materials and Structures, Augustow 2009 (in Polish).
Bocian M, Jamroziak K, Kulisiewicz M (2014) An identification of nonlinear dissipative properties of constructional materials at dynamical impact loads conditions. Meccanica. doi:10.1007/s11012-014-9931-z.
Buchacz A et al. (2013) Control of characteristic of mechatronic systems. Journal of Theoretical and Applied Mechanics 51(1):225−234.
Lenci S (2004) Elastic and damage longitudinal shear behaviour of highly concentrated long fibre composites. Meccanica 39:415–439.
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Pyka, D., Jamroziak, K., Blazejewski, W., Bocian, M. (2017). Calculations with the Finite Element Method During the Design Ballistic Armour. In: Rusiński, E., Pietrusiak, D. (eds) Proceedings of the 13th International Scientific Conference . RESRB 2016. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-50938-9_47
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DOI: https://doi.org/10.1007/978-3-319-50938-9_47
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