Theoretical Study on Adhesives Used in Ballistic Protection Structures and Transparent Armor

1. R. Zaera, S. Sánchez-Sáeza, J.L. Pérez-Castellanos, and C. Navarro, “Modelling of the adhesive layer in mixed ceramic/metal armours subjected to impact”, Composites, 31, Part A: Applied Science and Manufacturing (2000): 823-833.10.1016/S1359-835X(00)00027-0Search in Google Scholar

2. National Research Council, Opportunities in Protection Materials Science and Technology for Future Army Applications, (Washington D.C.: The National Academies Press, 2011).Search in Google Scholar

3. G.F. Freeguard, and D. Marshall, “Bullet-resistant glass: A review of product and process technology”, Composites 11(1), (1980): 25-32.10.1016/0010-4361(80)90018-XSearch in Google Scholar

4. S.S. Sarva, and A.J. Hsieh, “The effect of microstructure on the rate-dependent stressstrain behavior of poly(urethane urea) elastomers”, Polymer 50(13), (2009): 3007-3015.10.1016/j.polymer.2009.04.025Search in Google Scholar

5. P.J. Patel, G.A. Gilde, P.G. Dehmer, and J.W. McCauley, “Transparent armor”, The AMPTIAC Newsletter 4(3), (2000): 1-2.Search in Google Scholar

6. http://www.saint-gobain-sully.com/pdf/quality-management/product-technical-data/TECHNICAL-DATAS-FAENAC-FILM.pdf ,accesed 15 january 2015Search in Google Scholar

7. R. Zaera, S. Sánchez-Sáeza, J.L. Pérez-Castellanosa, and C. Navarro. 2000. “Modelling of the adhesive layer in mixed ceramic/metal armours subjected to impact”. Composites, 31, Part A: Applied Science and Manufacturing (2000): 823-833.Search in Google Scholar