A resin-coated metal sheet for a container includes: a metal sheet; a first resin coating layer provided on an inner face of the metal sheet after forming; and a second resin coating layer provided on an outer face of the metal sheet after forming, the second resin coating layer containing: polyester resin having a melting point of 230° C. to 254° C. as a main component; and a lubricant component, a melting point of the lubricant component being 80° C. to 230° C., an average particle diameter of the lubricant component present on a surface of the second resin coating layer being 17.0 nm or less.

The present disclosure is directed to provide a multilayer film for use in an air bag, which provides sufficient adhesiveness and blocking tendency in a well-balanced manner. The multilayer film for use in an air bag according to the present disclosure includes an adhesive layer and an outer layer. The adhesive layer includes a resin having a glass transition temperature from 0° C. to 80° C. and a melting point from 100° C. to 160° C. The outer layer includes a resin having a melting point higher than the melting point of the resin included in the adhesive layer by 20° C. or higher. Further, an air bag according to the present disclosure includes a synthetic fiber fabric and the aforementioned multilayer film for use in an air bag, in which the adhesive layer in multilayer film is laminated with the synthetic fiber fabric.

A safety surface material for a playground facility employing a monolithically mixed and troweled Thermoplastic Olefin (TPO) polypropylene/polyurethane cushion course base layer—which, for water park/spray park use is overlain by a Thermoplastic Rubber wear course top.

A composite laminate includes a first layer of a fabric material, a second layer of the fabric material, and an internal layer disposed between the first layer of the fabric material and the second layer of the fabric material. The internal layer includes a polymer mixture with one or more polymers, graphene, and a binder and a plurality of fibers dispersed in the polymer mixture.

A flooring underlayment including a multi-layer fibrous structure having one or more lapped layers; one or more facing layers; and a plurality of granules scattered on and/or embedded in one or more layers of the fibrous structure. The plurality of granules may be scattered on and/or embedded in at least one of the one or more lapped layers. The fibrous structure may include a granule support layer located beneath the plurality of granules. The granule support layer may be positioned on the lapped layer. The granules may be deposited on the granule support layer. The present teachings also include a flooring assembly including the fibrous structure and one or more flooring surfaces.

A prepreg comprising the following constituent elements (A), (B), and (C), the constituent element (C) being present in a surface layer of the prepreg: Constituent element (A): a reinforcing fiber base material; Constituent element (B): an epoxy resin composition containing a curing agent, the epoxy resin composition being cured within the range of from 90° C. to 140° C. (inclusive); and Constituent element (C): particles of a thermoplastic resin having a melting point or a glass transition temperature within the range of from 90° C. to 140° C. (inclusive).

A high thermal conductivity prepreg is provided. The high thermal conductivity prepreg includes a high thermal conductivity reinforcing material and a dielectric material layer formed on the surface of the high thermal conductivity reinforcing material, wherein the high thermal conductivity reinforcing material is prepared by a process which includes the following steps: (a) providing a precursor aqueous solution, the precursor aqueous solution includes a precursor selected from the group of organic salts, inorganic salts, and combinations thereof; (b) subjecting the precursor aqueous solution to a hydrolysis reaction to form an intermediate product aqueous solution; (c) subjecting the intermediate product aqueous solution to a condensation polymerization reaction to form a pretreatment solution; (d) impregnating a reinforcing material with the pretreatment solution; and (e) oven-drying the impregnated reinforcing material to obtain the high thermal conductivity reinforcing material.

A composite foam article is disclosed herein. The composite foam article comprises a polyurethane foam core presenting a first surface and a second surface facing opposite the first surface. A first skin is disposed on the first surface and a second skin is disposed on the second surface. The first and second skins comprise a plurality of fibers and a polymeric binder. The composite foam article also comprises at least one supplemental layer comprising an ethylene and acrylic acid copolymer dispersed in and/or disposed between any of said aforementioned skins and core.

The present invention provides a composite panel, containing a substrate layer and at least one functional layer disposed above and/or below the substrate layer. The composite panel of present invention is environmentally friendly with zero formaldehyde, elastic and comfortable to touch, and has good appearance. The composite panel of the present invention may subject to surface treatments in accordance with actual needs to provide better functionality and practicality.

The present disclosure is directed to provide a multilayer film for use in an air bag, which provides sufficient adhesiveness and blocking tendency in a well-balanced manner. The multilayer film for use in an air bag according to the present disclosure includes an adhesive layer and an outer layer. The adhesive layer includes a resin having a glass transition temperature from 0° C. to 80° C. and a melting point from 100° C. to 160° C. The outer layer includes a resin having a melting point higher than the melting point of the resin included in the adhesive layer by 20° C. or higher. Further, an air bag according to the present disclosure includes a synthetic fiber fabric and the aforementioned multilayer film for use in an air bag, in which the adhesive layer in multilayer film is laminated with the synthetic fiber fabric.