Abstract: A trim component for a vehicle interior includes first and second skin layers, a core layer sandwiched between the first and second skin layers with the core layer having first and second sides, a first thermoplastic adhesive material including a polyamide disposed between the first skin layer and the core layer to adhere the first skin layer to the first side of the core layer, and a second thermoplastic adhesive material including a polyamide disposed between the second skin layer and the core layer to adhere the second skin layer to the second side of the core layer.

Abstract: A trim component for a vehicle interior includes first and second skin layers, a core layer sandwiched between the first and second skin layers with the core layer having first and second sides, a first thermoplastic adhesive material including a polyamide disposed between the first skin layer and the core layer to adhere the first skin layer to the first side of the core layer, and a second thermoplastic adhesive material including a polyamide disposed between the second skin layer and the core layer to adhere the second skin layer to the second side of the core layer.

Abstract: A trim component for a vehicle interior includes first and second skin layers, a core layer sandwiched between the first and second skin layers with the core layer having first and second sides, a first thermoplastic adhesive material including a polyamide disposed between the first skin layer and the core layer to adhere the first skin layer to the first side of the core layer, and a second thermoplastic adhesive material including a polyamide disposed between the second skin layer and the core layer to adhere the second skin layer to the second side of the core layer.

Abstract: The invention is directed at methods, materials, and articles for sound mitigation. The article for sound mitigation is a multi-layered composite article comprising a reinforcing substrate layer and a foam layer. The reinforcing substrate layer includes a fiber phase and a polymer phase. The fiber phase preferably includes one or more natural fibers. The natural fibers may be present at a concentration of about 60 wt. % or more, based on the total weight of the reinforcing substrate layer. The polymer phase is preferably a continuous phase and preferably has a glass transition temperature sufficiently high so that the panel maintains its stiffness at elevated temperatures. The concentration of the polymer phase may be about 10 wt. % or more, based on the total weight of the reinforcing substrate layer. Preferably both the foam layer and the reinforcing substrate layer are effective in reducing the transmission of a sound.

Abstract: The present invention related to composited articles for a sunshade and methods for producing the composite articles. The composite article comprises a reinforcing substrate layer including a fiber phase and a polymer phase; and a cover stock layer. The fiber phase may be a discrete phase or a continuous phase and includes one or more natural fiber. The concentration of natural fibers is about 60 weight percent or more, based on the total weight of the reinforcing substrate layer. The polymer phase has a glass transition temperature of about 100° C. or more. The concentration of the polymer phase should be sufficiently high so that it forms a continuous phase. For example, the concentration of the polymer phase may be about 10 weight percent or more, based on the total weight of the reinforcing substrate layer. The reinforcing substrate layer may have a thickness of about 4 mm or less.