"3D woven nanocomposites for protective applications" . . "RIV/46747885:24410/12:#0001268!RIV13-MSM-24410___" . "7"^^ . . . . . "978-83-7283-493-5" . "I" . "Var\u0161ava, Polsko" . "[70746814BA58]" . "Many light-weight ballistic-protection armor systems are currently being made of the so-called \u201Cballistic-grade\u201D or \u201Carmor-grade\u201D composites. These composites are generally constructed using high-modulus/high-strength polymeric fibers such as aramid (e.g. Kevlar\u00AE, Twaron\u00AE, etc.) or oriented polyethylene fibers (e.g. Spectra\u00AE, Dyneema\u00AE, etc.) or glass fibers (e.g.E-Glass,etc.) with an outstanding impact resistance. The fibers, in the form of either woven fabrics or in the form of 0\u00B0/90\u00B0 cross-plied collimated continuous filaments, are embedded in the resin/polymer matrix. . To attain maximum utilization of the inherently high transverse-impact resistance of the fibers, the polymer-matrix content does not typically exceed 20 vol.%. As a result of the very low resin content, these composites remain flexible to relatively high laminate thicknesses. Penetration resistance of the armor-grade composites can be further increased through the use of hybrid structures in which a hard metallic or ceramic strike-plate is attached to the front of an armor-grade composite laminate."@en . "Behera, Bijoyu K." . . . "RIV/46747885:24410/12:#0001268" . . "183441" . "3D woven nanocomposites for protective applications"@en . . "3D woven nanocomposites for protective applications" . "Mishra, Rajesh" . "3D fabrics; nanocomposites; impact resistance; knife resistance"@en . . "Technical university of Lodz" . . . "K\u0159emen\u00E1kov\u00E1, Dana" . "24410" . "Behera, Bijoyu K." . . "Innovative materials and technologies in made-up textile articles, protective clothing and footwear" . "Mishra, Rajesh" . "4"^^ . "Militk\u00FD, Ji\u0159\u00ED" . . . "Many light-weight ballistic-protection armor systems are currently being made of the so-called \u201Cballistic-grade\u201D or \u201Carmor-grade\u201D composites. These composites are generally constructed using high-modulus/high-strength polymeric fibers such as aramid (e.g. Kevlar\u00AE, Twaron\u00AE, etc.) or oriented polyethylene fibers (e.g. Spectra\u00AE, Dyneema\u00AE, etc.) or glass fibers (e.g.E-Glass,etc.) with an outstanding impact resistance. The fibers, in the form of either woven fabrics or in the form of 0\u00B0/90\u00B0 cross-plied collimated continuous filaments, are embedded in the resin/polymer matrix. . To attain maximum utilization of the inherently high transverse-impact resistance of the fibers, the polymer-matrix content does not typically exceed 20 vol.%. As a result of the very low resin content, these composites remain flexible to relatively high laminate thicknesses. Penetration resistance of the armor-grade composites can be further increased through the use of hybrid structures in which a hard metallic or ceramic strike-plate is attached to the front of an armor-grade composite laminate." . . "3D woven nanocomposites for protective applications"@en . . "4"^^ . "2012-09-20+02:00"^^ . "Lodz" . .