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1. Göçmen, Y., Vural, H., Erdoğan, C., & Yalçinkaya, T. (2022). Numerical analysis of ballistic impact through FE and SPH methods. Procedia Structural Integrity, 42, 1736-1743. (URL)

2. Li, C., Rasheed, S., Malik, A., Nazeer, F., & Long, J. (2022). Study on ballistic impact behavior of Al alloys against two different shapes of steel core projectiles. Journal of Materials Research and Technology, 20, 2489-2500. (URL)

3. Ma, D., Scazzosi, R., & Manes, A. (2024). Modeling approaches for ballistic simulations of composite materials: Analytical model vs. finite element method. Composites Science and Technology, 110461. (URL)

4. Prakash, A., Fasil, M., & Anandavalli, N. (2023). Ballistic performance of optimised light weight composite armour. Forces in Mechanics, 12, 100216. (URL)

5. Rodriguez-Millan, M., Rubio, I., Burpo, F. J., Tse, K. M., Olmedo, A., Loya, J. A., ... & Miguélez, M. H. (2023). Experimental and numerical analyses of ballistic resistance evaluation of combat helmet using Hybrid III headform. International Journal of Impact Engineering, 179, 104653. (URL)

6. Wu, S., Sikdar, P., & Bhat, G. S. (2023). Recent progress in developing ballistic and anti-impact materials: Nanotechnology and main approaches. Defence Technology, 21, 33-61. (URL)

7. Zhang, X., Zhang, Q., Yan, R., & Qin, Z. (2022). Fluid-structure interaction simulation and evaluation of ballistic impact of STF impregnated UHMWPE fiber composites. Polymer Testing, 115, 107757. (URL)




Última modificación: martes, 6 de febrero de 2024, 10:18