Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Composite panels, for example fuselage skins or wing skins of military aircraft, may be subjected to a variety of ballistic impacts. It is meaningful to understand the mechanical response, damage evolution and residual velocity of a projectile for panels under ballistic impact. In this paper, the numerical simulation method of ballistic impact on a laminated composite panel is considered. A rate-dependent material model based on the continuum damage mechanics concept is developed for polymer matrix composite materials. A full three-dimensional finite element model implemented with the material model is built up using material subroutine. The ballistic impact behavior is simulated employing an explicit dynamic finite element analysis technique. The effects of projectile size and velocity, layup of the composite panel, and failure criteria used on the ballistic impact response are investigated.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
263--272
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
Bibliografia
- 1. Amos G., Robert K.G., Gary D.R., 2002, Experimental study of strain-rate-dependent behavior of carbon/epoxy composite, Composites Science and Technology, 62, 10/11, 1469-1476
- 2. Camanho P.P., Davila C.G., 2002, Mixed-mode decohesion finite elements for the simulation of delamination in composite materials, NASA/TM-2002-211737
- 3. Daniel I.M., Werner B.T., Fenner J.S., 2011, Strain-rate-dependent failure criteria for composites, Composites Science and Technology, 71, 3, 357-364
- 4. Gower H.L., Cronin D.S., Plumtree A., 2008, Ballistic impact response of laminated composite panels, International Journal of Impact Engineering, 35, 9, 1000-1008
- 5. Hosur M.V., Alexander J., Vaidya U.K., Jeelani S., 2001, High strain rate compression response of carbon/epoxy laminate composites, Composite Structures, 52, 3/4, 405-417
- 6. Hosur M.V., Vaidya U.K., Ulven C., Jeelani S., 2004, Performance of stitched/unstitched woven carbon/epoxy composites under high velocity impact loading, Composite Structures, 64, 3/4, 455-466
- 7. Huang Z.M., Zhou Y.X., 2011, Strength of Fibrous Composites, Hang Zhou
- 8. Karthikeyan K., Russell B.P., Fleck N.A., Wadley H.N.G., Deshpande V.S., 2013, The effect of shear strength on the ballistic response of laminated composite plates, European Journal of Mechanics – A/Solids, 42, 35-53
- 9. Morye S.S., Hine P.J., Duckett R.A., Carr D.J., Ward I.M., 2000, Modelling of the energy absorption by polymer composites upon ballistic impact, Composites Science and Technology, 60, 14, 2631-2642
- 10. Mouritz A.P., 2001, Ballistic impact and explosive blast resistance of stitched composites, Composites Part B: Engineering, 32, 5, 431-439
- 11. Naik N.K., Asmelash A., Kavala V.R., Veerraju C., 2007, Interlaminar shear properties of polymer matrix composites: Strain rate effect, Mechanics of Materials, 39, 12, 1043-1052
- 12. Naik N.K., Doshi A.V., 2008, Ballistic impact behaviour of thick composites: Parametric studies, Composite Structures, 82, 3, 447-464
- 13. Naik N.K., Shrirao P., 2004, Composite structures under ballistic impact, Composite Structures, 66, 1/4, 579-590
- 14. Naik N.K., Shrirao P., Reddy B.C.K., 2006, Ballistic impact behaviour of woven fabric composites: Formulation, International Journal of Impact Engineering, 32, 9, 1521-1552
- 15. Okenwa I.O., 2001, The effect of strain rate and failure modes on the failure energy of fibre reinforced composites, Composite Structures, 54, 2/3, 299-303
- 16. Phoenix S.L., Porwal P.K., 2003, A new membrane model for ballistic impact response and V50 performance of multi-ply fibrous systems, International Journal of Solids and Structures, 40, 24, 6723-6765
- 17. Sheikh A.H., Bull P.H., Kepler J.A., 2009, Behaviour of multiple composite plates subjected to ballistic impact, Composites Science and Technology, 69, 6, 704-710
- 18. Shirley K., Castillo G., Sonia S.S., Barbero E., 2012, Nondimensional analysis of ballistic impact on thin woven laminate plates, International Journal of Impact Engineering, 39, 1, 8-15
- 19. Tarfaoui M., Choukri S., Neme A., 2008, Effect of fibre orientation on mechanical properties of the laminated polymer composites subjected to out-of-plane high strain rate compressive loadings, Composites Science and Technology, 68, 2, 477-485
- 20. Tarim N., Findik F., Uzun H., 2002, Ballistic impact performance of composite structures, Composite Structures, 56, 1, 13-20
- 21. Ubeyli M., Yildirim R.O., Ogel B., 2007, On the comparison of the ballistic performance of steel and laminated composite armors, Materials and Design, 28, 4, 1257-1262
- 22. Wiśniewski A., Pacek D., 2013, Experimental research and numerical analysis of penetration of the Twaron T750 aramid fabric with the 9 mm Parabellum projectile, Problems of Mechatronics. Armament, Aviation, Safety Engineering, 3, 13, 7-22
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-17838bd8-78aa-4fc7-bcfe-7da4c3306852