The invention relates to a lightweight transparent armor laminate comprising layers of borosilicate glass, layers of transparent glass-ceramics and a polymer spall layer of polycarbonate and/or polymethyl methacrylate. The layers are bound by polyurethane and/or polyvinylbutyral interlayer films.
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1. A transparent multi-layer laminate comprising: a strike face layer of soda-lime or borosilicate glass;a first glass-ceramic layer;an intermediate layer of soda-lime or borosilicate glass;a second glass-ceramic layer; anda polymer spall layer as a rear layer of the laminate,wherein each of said st
1. A transparent multi-layer laminate comprising: a strike face layer of soda-lime or borosilicate glass;a first glass-ceramic layer;an intermediate layer of soda-lime or borosilicate glass;a second glass-ceramic layer; anda polymer spall layer as a rear layer of the laminate,wherein each of said strike face layer, said first glass-ceramic layer, said intermediate layer, said second glass-ceramic layer, and said polymer spall layer are bound to an adjacent layer by one of a plurality of polymer interlayers, andwherein the overall thickness of the laminate is less than 80 mm. 2. The laminate of claim 1, wherein said first glass ceramic layer and said second glass-ceramic layer are each independently a lithium-alumo-silicate glass ceramic or a lithium-disilicate glass ceramic. 3. The laminate of claim 1, wherein said polymer spall layer is polycarbonate, polymethyl-methacrylate, or a laminate of polycarbonate and polymethyl-methacrylate. 4. The laminate of claim 1, wherein each of said polymer interlayers is a polyurethane or polyvinylbutyral film. 5. The laminate of claim 1, wherein the intermediate layer is 14 to 25 mm thick. 6. The laminate of claim 1, wherein each of said first glass-ceramic layer and said second glass-ceramic layer is 6-14 mm thick. 7. A glass based transparent armor comprising the laminate of claim 1. 8. The laminate of claim 5, wherein the intermediate layer is two individual layers bound together by a polymer interlayer. 9. A transparent multi-layer laminate comprising: a) a borosilicate outer strike face layer;b) at least three glass-ceramic layers;c) an intermediate layer of soda-lime or borosilicate glass layer; andd) a polymer spall layer;wherein layers b) and c) are disposed between said strike face layer a) and said polymer spall layer d),wherein each of said layers a), b), c), and d) are bound to adjacent layers by one of a plurality of polymer interlayers, andwherein the overall thickness of the laminate is less than 80 mm. 10. The laminate of claim 9, wherein said outer strike face layer is 3-6 mm thick. 11. The laminate of claim 9, wherein each of said at least three glass ceramic layers b) are independently a lithium-alumo-silicate glass ceramic or a lithium-disilicate glass ceramic. 12. The laminate of claim 9, wherein said polymer spall layer d) his polycarbonate, polymethyl-methacrylate, or a laminate of polycarbonate and polymethyl-methacrylate. 13. The laminate of claim 9, wherein said each of said plurality of polymer interlayers is a polyurethane or polyvinylbutyral film. 14. The laminate of claim 9, wherein the strike face layer a) is 3-6 mm thick, each layer b) is 6-14 mm thick, layer c) is 14 to 25 mm thick, said polymer spall layer d) is 10-20 mm thick, and each of said plurality of polymer interlayers is 10-80 mil thick. 15. The laminate of claim 9, wherein the overall thickness of the laminate is less than 70 mm. 16. A transparent armor comprising a laminate of claim 9. 17. The armor of claim 16, which can defeat an 0.30 cal. AP-M2 projectile at an impact speed of up to 2750 fps. 18. A method of securing a space from a projectile, comprising placing an armor according to claim 17 between said space and said projectile. 19. A transparent multi-layer laminate comprising: a strike face layer of soda-lime or borosilicate glass;at least three glass-ceramic layers;an intermediate layer of soda-lime or borosilicate glass between two of said glass ceramic layers; anda polymer spall layer as a rear layer of the laminate,wherein each of said strike face layer, said at least three glass-ceramic layers, said intermediate layer, and said polymer layers are bound to an adjacent layer by one of a plurality of polymer interlayers, andwherein the overall thickness of the laminate is less than 80 mm. 20. A glass based transparent armor comprising the laminate of claim 19. 21. The laminate of claim 19, wherein said intermediate glass layer is 14 to 25 mm thick. 22. The laminate of claim 19, wherein each glass-ceramic layer is 6-14 mm thick. 23. The laminate of claim 19, wherein the overall thickness of the laminate is less than 70 mm. 24. A method of securing a space from a projectile comprising placing an armor according to claim 20 between said space and said projectile. 25. The laminate of claim 19, wherein each of said at least three glass ceramic layers are independently a lithium-alumo-silicate glass ceramic or a lithium-disilicate glass ceramic.
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이 특허에 인용된 특허 (34)
Jones Ronald W. (Market Harborough GBX), Armor materials.
Aghajanian, Michael K.; McCormick, Allyn L.; Morgan, Bradley N.; Liszkiewicz, Jr., Anthony F., Boron carbide composite bodies, and methods for making same.
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