A polymer film comprises a polymer composition containing (A) a cyclic olefin polymer and (B) a chlorine-containing polymer. The chlorine-containing polymer (B) may comprise a vinylidene chloride-series polymer. The cyclic olefin polymer (A) may comprise a cyclic olefin copolymer. The ratio of the chlorine-containing polymer (B) relative to 100 parts by weight of the cyclic olefin polymer (A) may be 0.5 to 60 parts by weight. The film has a moderate releasability from an electrolyte membrane and an electrode membrane of a polymer electrolyte fuel cell and a moderate adhesion to the electrolyte membrane and the electrode membrane and can adhere to a commonly-used substrate film without interposition of an adhesive layer such as an easily adhesive layer. The film is thus suitable as a release film for producing a membrane electrode assembly of a polymer electrolyte fuel cell.

A laminate film includes a substrate layer; and a metal oxide layer which is provided on one surface or both surfaces of the substrate layer and contains a metal oxide. Further, the oxygen permeability measured under defined conditions is 20 ml/m.sup.2.Math.day.Math.MPa or less and the water vapor permeability measured under conditions of a temperature of 40 C. and a humidity of 90% RH is 2.5 g/m.sup.2.Math.day or greater. In addition, when the K beam intensity of a metal constituting the metal oxide which is obtained by performing fluorescence X-ray analysis on the metal oxide layer is set to A and the K beam intensity of the metal which is obtained by performing fluorescence X-ray analysis on a metal layer formed of the metal constituting the metal oxide is set to B, A/B is equal to or greater than 0.20 and equal to or less than 0.97.

Disclosed are hot-melt, curl-free methods, structures, and compositions. One embodiment provides an optionally oriented base film having a first side and a second side, wherein the optionally oriented base film base film is transparent or opaque. Further, the composition includes a water-based primer applied to the first side. Further still, the composition includes a water-based coating applied to the first side having the water-based primer disposed thereon, wherein the water-based coating has a weight of at least 0.1 g/m.sup.2, wherein the composition is curl-free and has a barrier to one or more migratory additives and components in a hot-melt adhesive on the first side.

Object:

To provide heat-expandable microspheres with which large-diameter foamed particles which are lightweight and have enhanced strength, cushioning properties, and the like can be formed.

Resolution Means:

Heat-expandable microspheres having a foaming agent encapsulated in an outer shell of a polymer, the heat-expandable microspheres having an average particle size (D50) before foaming of from 100 to 500 m, and a coefficient of variation of a particle size distribution before foaming (logarithmic scale) of not greater than 15%.

A polymer film comprises a polymer composition containing (A) a cyclic olefin polymer and (B) a chlorine-containing polymer. The chlorine-containing polymer (B) may comprise a vinylidene chloride-series polymer. The cyclic olefin polymer (A) may comprise a cyclic olefin copolymer. The ratio of the chlorine-containing polymer (B) relative to 100 parts by weight of the cyclic olefin polymer (A) may be 0.5 to 60 parts by weight. The film has a moderate releasability from an electrolyte membrane and an electrode membrane of a polymer electrolyte fuel cell and a moderate adhesion to the electrolyte membrane and the electrode membrane and can adhere to a commonly-used substrate film without interposition of an adhesive layer such as an easily adhesive layer. The film is thus suitable as a release film for producing a membrane electrode assembly of a polymer electrolyte fuel cell.

There is provided a sheet-shaped sealing material that has excellent shock absorbency, sealing properties, cold and heat resistance, and light resistance even if the thickness is small. The sheet-shaped sealing material according to the present invention comprises: a silicone resin (A); and a plurality of particles (B) dispersed in the silicone resin and each having a cavity portion therein. The thickness of the sheet-shaped sealing material is, for example, 0.05 to 4 mm. The plurality of particles (B) comprise, for example, foamed particles that is thermally expanded.

Heat sealable food packaging films, methods for the production thereof, and food packages comprising heat sealable food packaging films are provided. The heat sealable food packaging film includes a humidity-dependent permeable film having a moisture vapor transmission rate that increases with an increase in relative humidity (RH). An outer coating comprises a coating material on at least one surface of the humidity-dependent permeable film. The coating material is selected from a nanoclay dispersed in a poly-vinylidene chloride (PVdC) polymer or a stretchable urethane polymer, a stretchable acrylic polymer, or a combination of stretchable urethane polymer and stretchable acrylic polymer. The coating material may further comprise an anti-blocking agent. The heat sealable food packaging film is biaxially oriented.

There is described a method of manufacturing a security article, said method comprising the steps of: introducing into an offset printing device a transparent film comprising a non-fibrous substrate layer of regenerated cellulose; disposing an opacification layer on at least a portion of at least one surface of said film by a first offset printing step; and disposing printed information on at least a portion of said opacification layer by a second offset printing step.

A material includes from 40 to 60% by volume of polymer matrix relative to the total volume of the material, and from 40 to 60% by volume, relative to the total volume of the material, of expanded thermoplastic microspheres. The membrane is composed of block polymers or copolymers. The microspheres are coated with a layer composed of nanoparticles of silicon dioxide and/or of titanium dioxide. A method for manufacturing is provided for making the material and the use of this material is provided for ensuring the floatability and/or for thermally insulating all or part of a submarine pipeline.

A sheathing system that envelops a building structure includes a multi-layer panel having at least one structural layer formed of a non-wood material, such as polycarbonate. The panel also includes at least one layer of a high R-value insulation material. The insulation layer includes a coated insulation product with a reduced fluorinated blowing agent concentration, while maintaining acceptable thermal properties. The coated insulation product includes a foam product that is coated with a barrier coating. The barrier coating includes a polymer having a minimum degree of crystallinity and at least one additive.