A novel reinforcement system for maximizing tensile strength and modulus of elasticity per ply for composite systems has one or more pockets with a first pocket edge, a second pocket edge, a pocket front surface, and a pocket rear surface. The pocket front surface and the pocket rear surface each have a pocket cross-stitch that perpendicularly traverses the pocket. The pocket traverses the fabric parallel and adjacent to the first fabric edge and the second fabric edge in a warp, or 0 degree, or x-axis direction. The pockets contain one or more fiber tows with a plurality of filaments in a stack.

An IHS chassis houses a wireless communications device with an antenna. A IHS chassis wall includes aesthetic fiber layers that are free of a carbon fiber material and that provide both an inner and outer surface of the chassis wall. A plurality of composite fiber layers are located between the aesthetic fiber layers, with each composite fiber layer including a first fiber layer section with a carbon fiber material, and one or more second fiber layer sections that are free of a carbon fiber material and include a non-carbon fiber material that extends between the carbon fiber material in the first fiber layer section. The one or more second fiber layer sections align to provide one or more wireless transmission windows adjacent the antenna. The carbon fiber material and the non-carbon fiber material may have the same tow size to prevent the appearance of seams.

An IHS chassis houses a wireless communications device with an antenna. A IHS chassis wall includes aesthetic fiber layers that are free of a carbon fiber material and that provide both an inner and outer surface of the chassis wall. A plurality of composite fiber layers are located between the aesthetic fiber layers, with each composite fiber layer including a first fiber layer section with a carbon fiber material, and one or more second fiber layer sections that are free of a carbon fiber material and include a non-carbon fiber material that extends between the carbon fiber material in the first fiber layer section. The the one or more second fiber layer sections align to provide one or more wireless transmission windows adjacent the antenna. The carbon fiber material and the non-carbon fiber material may have the same tow size to prevent the appearance of seams.

A coated composite component includes, in this order, a composite component, a fluorine-containing film and/or a fluorine-containing woven fabric, knitted fabric or crocheted fabric, and a tear-off fabric. A method for producing a coated composite component including, in this order, a composite component, a fluorine-containing film and/or a fluorine-containing woven fabric, knitted fabric or crocheted fabric, and a tear-off fabric.

The present invention describes various methods for manufacturing gel composite sheets using segmented fiber or foam reinforcements and gel precursors. Additionally, rigid panels manufactured from the resulting gel composites are also described. The gel composites are relatively flexible enough to be wound and when unwound, can be stretched flat and made into rigid panels using adhesives.

A seaming tape for joining pieces of floor-covering together, such as carpet or resilient floor covering material, and a method for using the same to join adjacent pieces of planar material is provided. The seaming tape can include an upper mesh tape portion and a lower blocking tape portion that is narrower in width than the mesh tape portion. The mesh tape portion can further include a pressure-sensitive adhesive to hold the blocking tape portion in position.

A laminated transparency includes a first ply having a No. 1 surface and a No. 2 surface. A second ply is spaced from the first ply and has a No. 3 surface and a No. 4 surface, with the No. 2 surface facing the No. 3 surface. A polymeric interlayer is positioned between the first and second plies. At least one failure strip is incorporated into the interlayer to provide a predetermined failure orientation for the transparency.

There is provided a composite structure, comprising a base member(s) made of metallic material, and a reinforcement member(s) made of fiber reinforced plastic including reinforcement fibers which are aligned in a uni-direction, wherein at least one slit is formed on the reinforcement member(s) so as to extend in an orientation direction of the reinforcement fibers.