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Purpose: Composite materials on account of some their characteristics have application in a construction of ballistic shield. An example of the ballistic shield is laminate with the mix-structure materials such as layer pressed of aramid cloths on matrix polymer. Because of the shield’s assignment the aramid cloths are exposed to impact loads caused by an energy made by impact force of cumulated mass (bullet). Previous analyses of the effect are based on linear-elastic reaction of resisting forces between the materials of a bullet and a shield. The article exemplifies the procedure of mechanical properties analysis in the punch effect of the ballistic shield with the use of some of the non-elastic models. Design/methodology/approach: In the article the theoretical analysis of punch effect in the quasi-static load condition based on some of the degenerated models is also presented. Findings: The results of the analysis make aware of demand for designing safety ballistic shields. Research limitations/implications: The main conception was optimum material selection (composite) that has to be done according to the theoretical analysis, which is based on non-elastic models selected in the context of velocity and mass of punching bullet. Practical implications: Application of the complex degenerated model allows to define more characteristics of the punching process of the ballistic shield. Determination of the effect of energy impact dissipation causes material damage of the ballistic shield is enabled to do because of implementation of boundary conditions. Originality/value: Based on the boundary conditions of energy in the way of changing parameters of model we are able to describe non-destructive deformation process.
Wydawca
Rocznik
Tom
Strony
171--174
Opis fizyczny
Bibliogr. 15 poz., wykr.
Twórcy
autor
autor
- Combat Technology Department, The Tadeusz Kosciuszko Land Forces Military Academy, ul. Czajkowskiego 109, 51-150 Wrocław, Poland, krzysztof.jamroziak@interia.pl
Bibliografia
- [1] J. K. Kim, T. X. Yu, Impact response and dynamic failure of composites and laminate materials, Part 2: Strain-Rate Effect, Energy Absorption and Modeling, Trans Tech Publications Ltd. Switzerland, 1998.
- [2] P. D. Smith, R. C. Laible , Ballistic materials and penetration mechanics, Elsevier Scientific Publishing Company, Amsterdam-Oxford-New York, 1980.
- [3] H. M. Wen, T. Y. Reddy, S. R. Reid, P. D. Soden., Indentation, penetration and perforation of composite laminates and sandwich panels under quasi-static and projectile loading, Key Engineering Materials 141-143 (1998) 501-552.
- [4] A. L. Yarin, I. V. Roisman, K. Weber, V. Hohler, Model for ballistic fragmentation and behind-armor debris, Israel Institute of Technolog, Israel, 1999.
- [5] A. Buchacz, Calculation of characteristics of torsionally vibrating mechatronic system, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 327-330.
- [6] A. Buchacz, Sensitivity of mechatronical systems represented by polar graphs and structural numbers as models of discrete systems, Journal of Materials Processing Technology 175 (2006) 55-62.
- [7] A. Buchacz, Influence of a piezoelectric on characteristics of vibrating mechatronical system, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 229-232.
- [8] A. Buchacz, The expansion of the synthesized structures of mechanical discrete systems represented by polar graphs, Journal of Materials Processing Technology 164-165 (2005) 1277-1280.
- [9] L. A. Dobrzański, R. Honysz, S. D. Fassois, On the identification of composite beam dynamics based upon experimental data, Journal of Achievements in Materials and Manufacturing Engineering 16 (2006) 114-123.
- [10] M. Kulisiewicz, S. Piesiak, M. Bocian, K. Jamroziak, The deformation analysis of the composite material based on specific nonelastic material, The Issues of Development, Production and Maintenance of Weapon Systems 95 (2005) 197-206 (in Polish).
- [11] K. Jamroziak, M. Bocian, M. Kulisiewicz, S. Piesiak, Application of degeneration model at a nonlinear loads of elastic element in identification dynamic properties of machine elements in puncture. Trends in the Development of Heavy Duty Machines, Technical Journal of Politechnika Krakowska, Kraków 1-M (2006) 139-146 (in Polish).
- [12] K. Jamroziak, Analysis of a degenerated standard model in the piercing process, Journal of Achievements in Materials and Manufacturing Engineering 22/1 (2007) 49-52.
- [13] K. Jamroziak, Process of description piercing when using a degenerated model, Journal of Achievements in Materials and Manufacturing Engineering 26/1 (2008) 57-64.
- [14] K. Jamroziak, M. Kulisiewicz and others, Construction of multi-layer subject under impact loads. Modeling and experimental verification. Part. 1, Model and quasistatic test, Wroclaw WSOWL, Report 2003 (in Polish).
- [15] M. Kulisiewicz, The way of determine the mechanical characteristics of materials, notification of patent number P383077 from day 6.08.2007.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWAW-0001-0032