The present disclosure relates to compositions, laminates, films and/or composites made from polymers, such as thermoplastic polyurethane (TPU). The films have one or more optical layers made from materials that allow the transmission of visible light and reflect or absorb UV light. A composite having an infrared (IR) cutoff layer, and a polymer layer desirably having an ultraviolet (UV) absorber is disposed between layers of glass or artificial glass, combined with polycarbonate (PC) or polyethylene terephalate (PET) layers.

A packaging material for a cell including a laminated article having at least a coating layer, a barrier layer, and a sealant layer in the stated order, wherein: the coating layer has at least three layers including a first, second and third coating layer, and is disposed so that the first coating layer is positioned as the outermost layer and the third coating layer is positioned on the barrier-layer-side; and the first coating layer, the second coating layer, and the third coating layer are formed from a cured product of a resin composition containing a heat-curing resin and a curing accelerator so as to sufficiently exhibit a specific hardness, whereby the thickness can be reduced, exceptional chemical resistance, moldability, and inter-layer adhesion between the barrier layer and the coating layer can be obtained, and the lead time can be reduced to enable an improvement in production efficiency.

Described herein is a multilayered article (10) and methods of making and using such articles. The multilayered article (10) comprises: (a) a microsphere layer (11) comprising a plurality of microspheres disposed in a monolayer; (b) a bead bonding layer (12) comprising a first major surface and a second opposing major surface and the plurality of microspheres is partially embedded in the first major surface of the bead bonding layer, and comprises a thermoset polyurethane having a glass transition temperature of at least 35 C.; (c) a primer layer (14) disposed on the second major surface of the bead bonding layer wherein the primer layer comprises a copolymer of polyurea and polyurethane and wherein the primer layer is covalently attached to the bead bonding layer via urea linkages; and (d) an elastomeric layer (16) disposed on the primer layer opposite the bead bonding layer, wherein the elastomeric layer comprises a polyurethane thermoplastic elastomer.

A vehicle having a space filling panel including a polystyrene layer, a polyurethane layer, and a polyethylene cover where the polyethylene cover forms a vacuum sealed space. The polystyrene layer and the polyurethane layer are both positioned in the polyethylene cover's vacuum sealed space. In another embodiment, a space filling panel for a vehicle includes a polystyrene layer comprising a plurality of polyurethane chips. The polystyrene layer having the plurality of polyurethane chips is enclosed in a vacuum sealed space formed by a polyethylene cover.

A powder resin layered nonwoven material and a method of construction thereof are provided. The method includes forming a nonwoven web; applying a powder resin material on the nonwoven web to form a coated portion of the nonwoven web; and cross-lapping the nonwoven web to sandwich separate powder resin layers of the powder resin material between layers of the nonwoven web.

A method for manufacturing polymeric decorative panels includes, in order, the steps of a) inkjet printing an image on a first thermoplastic foil using an aqueous pigmented inkjet ink; b) applying a second thermoplastic foil on the inkjet printed image; c) heat pressing the first and second thermoplastic foils into a decorative laminate; and d) cutting the laminate into a decorative panel; wherein the aqueous pigmented inkjet ink contains polymeric resin particles and a self-dispersing colour pigment; and at least one of the first and second thermoplastic foils is a transparent foil.

The present disclosure relates to compositions, laminates, films and/or composites made from polymers, such as thermoplastic polyurethane (TPU), and windows incorporating the same. The films may have one or more optical layers made from materials that allow the transmission of visible light and reflect or absorb ultraviolet (UV) light. A composite having an infrared (IR) cutoff layer, and a polymer layer desirably having UV absorber may be disposed between layers of glass or artificial glass, combined with polycarbonate (PC) or polyethylene terephalate (PET) layers.

A vehicle having a space filling panel including a polystyrene layer, a polyurethane layer, and a polyethylene cover where the polyethylene cover forms a vacuum sealed space. The polystyrene layer and the polyurethane layer are both positioned in the polyethylene cover's vacuum sealed space. In another embodiment, a space filling panel for a vehicle includes a polystyrene layer comprising a plurality of polyurethane chips. The polystyrene layer having the plurality of polyurethane chips is enclosed in a vacuum sealed space formed by a polyethylene cover.

A decorative sheet which comprises, on a base film layer, a second picture layer that is partially provided and a surface protective layer that is present on and in contact with the second picture layer and covers the entire surface of the base film layer including the region where the second picture layer is formed and the region where the second picture layer is not formed. The decorative sheet is characterized in that: a binder resin for a second picture ink that constitutes the second picture layer is a thermoplastic resin; the surface protective layer is formed of a crosslinking-cured product of an ionizing radiation curable resin composition that contains a polycarbonate (meth)acrylate and/or an acrylic silicone (meth)acrylate; and a low gloss pattern layer that has a low luster region is formed in the surface protective layer right above the second picture layer by the interaction between the ionizing radiation curable resin and the thermoplastic resin. A decorative resin molded article which is obtained using the decorative sheet.

A multilayer nonwoven fabric includes: an elastic nonwoven fabric containing a specific low crystalline polypropylene; and a mixed fiber spunbonded nonwoven fabric disposed on at least one surface of the elastic nonwoven fabric, wherein the mixed fiber spunbonded nonwoven fabric contains a long fiber of a thermoplastic elastomer (A) and a long fiber of a thermoplastic elastomer (B) other than the thermoplastic elastomer (A), in a ratio of 10 to 90% by mass:90 to 10% by mass ((A):(B), with the proviso that (A)+(B)=100% by mass).