A composite ballistic panel provides cost-effective ballistic protection against projectiles. The composite ballistic panel comprises a composite ballistic assembly with an impact/strip layer that alters the projectile during striking contact with the projectile by flattening the projectile, distorting the shape of the projectile, reducing rotation of the projectile, reducing the velocity of the projectile, and inducing yaw to the projectile; a non-ballistic deflection layer that forms a cavity to inhibit propagation of the projectile's shock wave; and a containment layer that stops and captures the projectile within the composite ballistic assembly. Additionally, the composite ballistic panel may have a protection layer and a boundary edge to enhance capture of the projectile and ballistic characteristics, and an intermediate layer that acts as spacer between layers.

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.

The present invention is directed to an acoustical baffle that has use in vehicle interiors, such as an interior headliner. In particular, the baffle can provide improved acoustics while maintaining a desired airflow resistance and can be configured to provide for different sound attenuation characteristics at selected locations of the baffle construction.

Production process of a composite product (1) comprising a core (2), a first layer (3) comprising a sheet impregnated with a solid polyurethane material, and a polymer-based film (7) applied to the first layer (3), wherein the process comprises: producing a semi-finished product comprising the core (2) and the sheet impregnated by a liquid mixture precursor of the solid polyurethane material; adhering the film (7) to a first half-mould (11) by applying a depression between the film (7) and the half-mould (11); pressing two half-moulds (11, 12) against each other with the semi-finished product interposed between two shaping surfaces (13), so that the film (7) comes into contact with the liquid mixture; with the semi-finished product in the mould, thermosetting the liquid mixture to transform it into the polyurethane solid material so that the film (7) firmly adheres to the first layer (3) and thus producing the composite product (1).

The present invention relates to a resin composition containing a phosphate ester-based flame retardant (A) having an aromatic hydrocarbon group containing two or more aromatic ring structures and a polyphenylene ether derivative (B) having an ethylenically unsaturated bond-containing group at both ends.

Proposed is a flexible composite cover window including a transparent glass-fabric reinforced plastic film that adheres to a rear surface or a front surface of the glass, in order to improve the pen-drop impact resistance of a glass cover window used in a flexible display. An effect of the embodiment is to provide a flexible cover window in which the glass-fabric reinforced plastic film protects the glass against impact applied to the glass or offsets the impact such that the pen-drop impact resistance is improved and strength and flexibility are secured.

A water-based adhesive which comprises a dispersed polymer and an emulsified silicone resin polymer. The adhesive is postcrosslinkable via reactive groups.

A fire resistant panel member and a related method for producing a fire resistant panel member where the panel member includes a first layer, a second layer covering at least a portion of a surface of the first layer, the first and second layers each comprising a pigmented polyester resin and a first organic peroxide, a third layer covering at least a portion of a surface of the second layer, a substantially rigid core member covering at least a portion of a surface of the third layer, and a fourth layer covering at least a portion of a surface of the core member, the third and fourth layers each comprising a polyester resin, a flame retardant, a second organic peroxide, and a fiber material, wherein the panel member is configured to have an ASTM E84 Class I fire and smoke rating.

Disclosed herein is a method of manufacturing an improved cover board product with a panel. In some embodiments, the method includes preparing fragments into an assembly; mixing the fragments and an adhesive into a blended core furnish; applying the adhesive to a top side of a bottom layer fabric in the assembly; forming a core mat of the blended core furnish on top of the adhesive; applying the adhesive to a top side of the core mat; applying a surface layer fabric on the top side of the adhesive; pressing the assembly; and cutting and trimming the assembly to form panels.

An uninsulated duct for use in interior spaces that do not require insulation includes a polymer core and a fire resistant barrier layer surrounding the polymer core. The fire resistant barrier layer is made of a material that makes the uninsulated duct one that meet the UL 181 Class 1 duct rating in terms of flame spread index and developed smoke. With the use of the fire resistant barrier layer, a polymer core, which is flammable, can be made part of the flexible uninsulated duct while still achieving the UL 181 Class 1 duct standard rating.