The present disclosure is directed to a physically crosslinked, closed cell continuous multilayer foam structure comprising at least one foam polypropylene/polyethylene layer with a TPU cap layer. The multilayer foam structure can be obtained by coextruding a multilayer structure comprising at least one foam composition layer with at least one cap composition layer, irradiating the coextruded structure with ionizing radiation, and continuously foaming the irradiated structure.

A composite glass pane that contains two glass panes or two polymer panes or one glass pane and one polymer pane and has at least one polymer film bonded therebetween, wherein a first type of polymer film having a first stiffness is arranged in a first, larger areal region of the composite glass pane and a second type of polymer film having a second, higher stiffness than the first polymer film is arranged in at least one second areal region.

Ballistic resistant composite materials having high positive buoyancy in water are provided. More particularly, provided are foam-free, buoyant composite materials fabricated using dry processing techniques. The materials comprise fibrous plies that are partially coated with a particulate binder that is thermopressed to transform a portion of the binder into raised, discontinuous patches bonded to fiber/tape surfaces, while another portion of the particulate binder remains on the fibers/tapes as unmelted particles. The presence of the unmelted binder particles maintains empty spaces within the composite to materials which increases the positive buoyancy of the composites in water.

A composite fabric includes a nonwoven fabric layer having non-bonded areas and a structured film layer discontinuously bonded to the nonwoven fabric layer. The discontinuously bonded nonwoven fabric layer and the structured film layer share an overlapping area with at least one set of coincident bond sites. The discontinuously bonded nonwoven fabric does not have another bonding pattern in the overlapping area distinct from the at least one set of coincident bond sites. A method of forming a composite fabric is also described. The method includes forming a fiber layer including a mat of at least partially unconsolidated fibers, positioning a structured film layer and the fiber layer such that they overlap, and discontinuously bonding the mat into a discontinuously bonded nonwoven fabric while simultaneously bonding the structured film layer to the nonwoven fabric layer. An apparatus for forming a composite fabric is also described.

Disclosed is an electronic device including a glass member having a flat portion and a side portion extending from an edge of the flat portion in at least a partially slanted or curved manner. The side portion includes a first curved portion extending from the flat portion, a second curved portion extending from the first curved portion and connected to the flat portion through the first curved portion, and at least one processing portion formed by at least a part of a border region between the first curved portion and the second curved portion. The at least one processing portion has a different refractive index from at least another portion of the side portion.

Disclosed generally herein is a laminated vehicle glazing including first and second glass sheets and a polymer interlayer interposed therebetween. The interlayer includes a major part and a stiff part adjacent to the major part. The stiff part does not surround the major part, such that the major part is along at least one edge of the laminated vehicle glazing. The stiff part includes at least one layer made of a material that has a higher Young's modulus than that of the material used in the major part. Young's modulus in the thickness direction of the stiff part is higher than that of the major part.

Methods are provided for making a nanofiber-coated fiber. The method(s) include: providing a base fiber; depositing a nanofreckle on the base fiber; and growing a nanofiber at the nanofreckle. In another aspect, nanofiber-coated fibers are provided, produced by the above-noted methods making a nanofiber-coated fiber.

Methods are provided for making a nanofiber-coated fiber. The method(s) include: providing a base fiber; depositing a nanofreckle on the base fiber; and growing a nanofiber at the nanofreckle. In another aspect, nanofiber-coated fibers are provided, produced by the above-noted methods making a nanofiber-coated fiber.

An anisotropic conductive film which suppresses occurrence of short circuit at the time of anisotropic conductive connection, prevents reduction in capturing capability of electrically conductive particles, enables favorable pushing of electrically conductive particles and exhibits not only favorable initial conductivity but also favorable conduction reliability, contains a first electrically conductive particle group and a second electrically conductive particle group, each including a plurality of electrically conductive particles, in an insulating binder. The first electrically conductive particle group and the second electrically conductive particle group are present in a first region and a second region, respectively, which differ from each other in the thickness direction of the anisotropic conductive film and are parallel to the plane direction. Moreover, the first electrically conductive particle group and the second electrically conductive particle group differ from each other in an existence state of the electrically conductive particles.

An article of apparel and method of making the article of apparel for a wearer is disclosed herein. In at least one embodiment, the article of apparel comprises a fabric defining a first, inner surface facing the wearer, and a second, outer surface opposite the first surface. A plurality of compression areas are formed along the inner fabric surface, each compression area comprising compressed yarns. A sealing agent effective to reduce the air permeability of the fabric is applied to each compression area. The sealing agent secures the yarns in a compressed state.