Experimental, numerical and analytical study of energy absorption in high velocity penetration phenomena on composite targets.

Taghipoor, Hossein; Malekzade Fard, Keramat; Bigdeli, Ali

doi:10.22068/jstc.2018.28557

Document Type : Research Paper

Authors

¹ 1-Department of Mechanical Engineering, Semnan University, Semnan, Iran

² -Department of Mechanical Engineering, Malek Ashtar University, Tehran, Iran

³ Department of Mechanical Engineering, Semnan University, Semnan, Iran

10.22068/jstc.2018.28557

Abstract

One of the most important, most accurate and the best of views to projectile impact and penetration phenomena in the composite target is the models related to energy discussion. In this paper previous works have been studied and it has been tried to verify and complete them. In the experimental study for the accuracy of model a reservoir of glass/epoxy is done under projectile impact and penetration of spherical pellets at different speeds. This model can investigate the ability or inability of projectile exit from the target and predict the remaining energy during passing through the target, by comparison the total energy of projectile with energy absorption mechanism, Also it is estimated the contribution of each mechanism to absorb energy at different speeds by this model. As well as ballistic velocity of projectile is estimated when it impacts to a composite target with good accuracy. This model has considered the most mechanism of energy absorption and it has been tried to add new mechanism of energy absorption; includes energy absorbed from the shift of the top cone under the projectile, energy absorbed by deformation of elastic – plastic primary fiber and energy absorbed from the friction make between the projectile and composite targets; and expresses the best and most accurate model of energy absorption. Finally, the results of this model have been compared with the results of FEM performed by ANSYS module LS.DYNA.

Keywords

Main Subjects

Impact mechanics

References

[1] Morye, S. S. Hine, P. J. Duckett, R. A. Carr, D. J . Ward, I. M., “Modelling of the Energy Absorption by Polymer Composites Upon Ballistic Impact” Compos Sci Technonl, 60, pp. 2631–2642, 2000.

[2] Naik, N. K. Reddy, B. C. K. Shrirao, P., “Analytical Modeling of Ballistic Impact Behavior of Woven Fabric Composites” In: Ko FK (Ed.), Proceedings of TEXCOMP - 6, Drexel University, pp. 6. 08, 2002.

[3] Naik, N. K. Shrirao, P. Reddy, B. C. K., “Ballistic Impact Behaviour of Woven Fabric Composites” Parametric studies,J Materials Science and Engineering A 412. pp, 104–116, 2005.

[4] Naik, N. K. Shrirao, P., “Composite structures under ballistic impact”, Composite Structures. pp. 579–590, 2004.

[5] Zhu, G . Goldsmith, W . Dharan, CK ., “Penetration of Laminated Kevlar by Projectiles I. Experimental Investigation”. Int J Solids Struct, pp. 399–419, 1992.

[6] Wilkins, M.L., “Ballistic Materials and Penetration Mechanics”. Laible R.C. Ed. (Elsevier Scientific Publish). pp. 225-252; 1980.

[7] Wen, H. M., “Penetration and Perforation of Thick FRP Laminates” Compos Sci Technol, 6. pp. 1163–72, 2001.

[8] Walker, J.D. “Ballistic Limit of Fabrics With Resin", 19th International Symposium of Ballistics, pp. 7–11, Interlaken, Switzerland, May 2001.

[9] Pol, M. H. Liaghat, G. H. Mazdak, S., “Effect of Nanoclay Particles on the Ballistic Behavior of Glass / Epoxy Composites- Experimental Investigation” Journal.Modares Mechanical. Engineerimg, Vol. 13, No 4, pp. 98–104, 2013. (In Persian)

[10] Sheikh, A. H. a. H. Bull, P. H. P. H. Kepler, J. A. J. a., “Behaviour of multiple composite plates subjected to ballistic impact” Composite. Science. Technology,Vol. 69, No. 6, pp. 704–710, May 2009.

[11] Lee, S. WR, A. Sun, CT., “Quasistatic Penetration Model for Composite Laminates”. J Compos Mater, 27. pp. 251–71, 1993.

[12] Ellis, RL., “Ballistic Impact Resistance of Graphite Epoxy Composites with Shape Memory Alloy and Extended Chain Polyethylene Spectra Hybrid Components”. Msc Thesis, Mechanical Engineering Department, Virginia Polytechnic Institute and State University, December 1996.

[13] Hedayatian, M. Liaghat, G. H. Rahimi, G. H. Pol. M.H., “Experimental study on dynamic response of grid cylindrical composite structures under high velocity impact” Modares Mechanical. Engineering,Vol. 14, No 2, pp. 41–46, 2014. (In Persian)

[14] Hedayatian, M. Liaghat, G. H. Rahimi, G. H. Pol. M. H., “Numerical and Experimental Analyses Projectile Penetration in Grid Cylindrical Composite Structures Under High Velocity Impact” Modares Mechanical. Engineering,Vol. 14, No 9, pp. 17–26, 2014. (In Persian)

[15] Sabouri, H. Ahmadi, H. Liaghat, G. H., “Ballistic Impact Perforation Into Glare Target: Experiment, Numerical Modeling and Investigation of Aluminium Stacking Sequence”, International Journal Vehicle Structures & Systems, Vol. 3, No.1, pp. 178-183. 2011.

[16] Payeganeh, G. H. Ashenai Ghasemi, F. Malekzadeh, K., “Dynamic Response of Fiber-Metal Laminates(Fmls) Subjected to Low-Velocity Impact”, Thin- Walled Structures, Vol. 47, pp. 62-70, 2010

Journal of Science and Technology of Composites

Experimental, numerical and analytical study of energy absorption in high velocity penetration phenomena on composite targets.

References

Volume 5, Issue 1
June 2018
Pages 11-24

Experimental, numerical and analytical study of energy absorption in high velocity penetration phenomena on composite targets.

References

Volume 5, Issue 1June 2018Pages 11-24

Volume 5, Issue 1
June 2018
Pages 11-24