Abstract: Ballistic laminate for implementing a ballistic structure comprising at least two textile layers placed one on top of the other and joined together. The layers (elements) comprise at least a first textile element, of which the ballistic warp threads, having a count higher than 40 dtex, intersect non-ballistic weft threads, having a count less than 40 dtex, and at least a second textile element, in which non-ballistic warp threads, having a count less than 40 dtex, intersect ballistic weft threads having a count higher than 40 dtex. These at least two elements are joined together using various technologies to obtain a stable structure in which the energy absorption in the face of projectiles is greater than the energy absorption for conventional warp-weft fabrics for the same weight per square meter.
Abstract: Ballistic laminate for implementing a ballistic structure comprising at least two textile layers placed one on top of the other and joined together. The layers (elements) comprise at least a first textile element, of which the ballistic warp threads, having a count higher than 40 dtex, intersect non-ballistic weft threads, having a count less than 40 dtex, and at least a second textile element, in which non-ballistic warp threads, having a count less than 40 dtex, intersect ballistic weft threads having a count higher than 40 dtex. These at least two elements are joined together using various technologies to obtain a stable structure in which the energy absorption in the face of projectiles is greater than the energy absorption for conventional warp-weft fabrics for the same weight per square meter.
Abstract: The present invention relates to a flexible, breathable, anti-penetration fabric, made of antiballistic yarns, partially o wholly impregnated with one or more polymer resins, having a positive coefficient of expansion and hardness greater than 75 Sh D. The structure obtained by the process according to the present invention provides transpiration qualities which make the protections realized with this structure particularly comfortable.
Abstract: The present invention relates to a flexible, breathable, anti-penetration fabric, made of antiballistic yarns, partially o wholly impregnated with one or more polymer resins, having a positive coefficient of expansion and hardness greater than 75 Sh D. The structure obtained by the process according to the present invention provides transpiration qualities which make the protections realized with this structure particularly comfortable.
Abstract: The present invention refers to a method for continuous production of a textile structure resistant to perforation and penetration, comprising the steps consisting in: a) simultaneously weaving two fabric elements overlapped and spaced from each other, wherein at least the warp or chain threads of the upper fabric element and the weft threads of the lower fabric element, or vice-versa, comprise ballistic threads; b) inserting, during said weaving step, at least one intermediate layer between said upper fabric element and said lower fabric element; c) joining the assembly of the two upper and lower fabric elements interposed between which is said intermediate layer to obtain a multilayer textile structure.