Anti-condensation compositions and laminates comprising a cellulosic material selected from a cellulose ester and a cellulose ether and a polymer of an oxazoline, and processes for making such anti-condensation compositions without the need for saponification. Such compositions have now been shown to exhibit extremely desirable anti-condensation characteristics, with a low degree of hazing and increased hardness.

Anti-condensation compositions and laminates comprising a cellulosic material selected from a cellulose ester and a cellulose ether and a polymer of an oxazoline, and processes for making such anti-condensation compositions without the need for saponification. Such compositions have now been shown to exhibit extremely desirable anti-condensation characteristics, with a low degree of hazing and increased hardness.

The inventive concept relates to a laminated film and a method of laminating films, and the disclosed laminated film includes at least two films sequentially stacked and bonded to each other, wherein each of the films may be each independently a gastric film or an enteric film.

The inventive concept relates to a laminated film and a method of laminating films, and the disclosed laminated film includes at least two films sequentially stacked and bonded to each other, wherein each of the films may be each independently a gastric film or an enteric film.

A melamine resin decorative sheet of the present invention includes a laminate structure of a surface layer and a core layer, in which the surface layer is configured of a surface layer material composed of a surface layer base material which carries a resin containing a melamine resin on a first surface side that serves as a design surface and which carries a solid content of a thermoplastic emulsion resin on a second surface side that contacts with the core layer, and in which the core layer is configured of a heat dissipative material layer.

Provided is a nonaqueous electrolyte secondary battery laminated separator that is excellent in on-heating shape retainability and ion permeability and that allows a reduction in occurrence of a current leakage despite being thin.

An object of the invention is to provide an optical film having thermochromic properties capable of regulating the near-infrared shield factor depending on the temperature environment, having a low haze value, and having excellent cracking resistance and adhesiveness even if put to use for an extended period of time, and a method for manufacturing the optical film. The optical film of the invention includes, on a transparent substrate, an optically functional layer containing at least vanadium dioxide-containing fine particles and a binder resin, wherein the number average particle size of all the particles including primary particles and secondary particles of the vanadium dioxide-containing fine particles in the optically functional layer is less than 200 nm.

A method of forming a structure includes positioning a first layer component onto a portion of a top surface of a second layer component and positioning a third layer component onto a portion of a bottom surface of the second layer component to form a layered material assembly. The first layer component and the third layer component are configured to be manufactured of a first fabric and a bio-based resin product, and the second layer component is configured to be manufactured of a second material and the bio-based resin product. The method includes exposing the layered material assembly to one or more curing conditions to create a cured material assembly, and forming the cured material assembly into the structure configured to be disposed onboard an aircraft system.

A method of forming a structure includes positioning a first layer component onto a portion of a top surface of a second layer component and positioning a third layer component onto a portion of a bottom surface of the second layer component to form a layered material assembly. The first layer component and the third layer component are configured to be manufactured of a first fabric and a bio-based resin product, and the second layer component is configured to be manufactured of a second material and the bio-based resin product. The method includes exposing the layered material assembly to one or more curing conditions to create a cured material assembly, and forming the cured material assembly into the structure configured to be disposed onboard an aircraft system.