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Spis Treści:

[1] C.T. Lim, V.P.W. Shim, Y.H. Ng, Finite Element Modeling of the Ballistic Impact of Fabric Armor, „International Journal of Impact Engineering”, nr 28, 2008, s. 13–31.

[2] J.C. Roberts i in., Modeling Nonpenetrating Ballistic Impact on a Human Torso, Johns Hopkins Apl Technical Digest, t. 26, nr 1, 2005.

[3] J.C. Roberts i in., Computational and Experimental Models of the Human Torso for Non-penetrating Ballistic Impact, Journal of Biomechanics”, t. 40, 2007, s. 125–136.

[4] V.B.C. Tan, X.S. Zeng, V.P.W. Shim, Characterization and Constitutive Modeling of Aramid Fibers at High Strain Rates, „International Journal of Impact Engineering”, t. 35, nr 11, 2007, s. 1303–1313.

[5] M.P. Rao i in., Modeling the Effects of Yarn Material Properties and Friction on the Ballistic Impact of a Plain Weave Fabric, „Composite Structures”, t. 89, nr 4, 2009, s. 556–566.

[6] W. Shen i in., Characterizing the interaction among bullet, body armor, and human and surrogate targets, „Journal of Biomechanical Engineering”, t. 132, nr 12, 2010.

[7] J. Dominiak, Z. Stempin, Modelowanie numeryczne i analiza kuloodporności wielowarstwowych pakietów wykonanych z włókien paraaramidowych, „Problemy Mechatroniki Uzbrojenie, Lotnictwo, Inżynieria Bezpieczeństwa”, t. 7, nr 1 (23), 2016, s. 43–60.

[8] K.F. Yuen, The Development of a Numerical Human Body Model for the Analysis of Automotive Side Impact Lung Trauma, UWSpace, 2009, http://hdl.handle.net/10012/5005.

[9] Z. Li i in., Rib fractures under anterior-posterior dynamic loads: Experimental and finite-element study, „Journal of Biomechanics”, t. 43, nr 2, 2010, s. 228–234.

[10] V. Esat, D.W. Van Lopik, M. Acar, Combined multi-body dynamic and FE models of human head and neck, „IUTAM Symposium on Impact Biomechanics: Fundamental Insights to Applications, Solid Mechanics and Its Applications”, t. 124, 2005.

[11] J.C. Walker i in., MRI-based finite-element analysis of left ventricular aneurysm, „American Journal of Physiology Heart Circulatory Physiology”, t. 289, nr 2, 2005.

[12] J.Z. Zhao, G. Narwani, Development of human body finite element model for restraint system R&D applications, TAKATA- -Automative Systems Laboratory, Inc., nr 05–0399, 2005.

[13] Y. Shao i in., Blunt liver injury with intact ribs under impacts on the abdomen: a biomechanical investigation, PLoS ONE 8 (1), 2013.

[14] A.R. Kemper i in., Multi-scale biomechanical characterization of human liver and spleen, „Proceedings of the 22nd International Technical Conference on the Enhanced Safety of Vehicles” (ESV).

[15] P.M. Cunniff i in., High performance „M5” fiber for ballistics/structural composites, „The 24th Army Science Conference, Orlando, 2004.

[16] M. Szudrowicz, K. Rutyna, K. Jamroziak, Osłony balistyczne – laminaty na bazie tkanin aramidowych, Wojskowy Instytut Techniczny Uzbrojenia, 2005.

[17] Du Pont de Nemours & Company, Inc., Aramid Fibers, https://polycomp.mse.iastate.edu/files/2012/01/3-Aramid-Fibers.pdf.

[18] LS-Dyna, Keyword User’s Manual, t. II, Material Models, 2012, Version 971, Livermore Software Technology Corporation.


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