Patent application number | Description | Published |
20090111952 | (Meth)acrylate-grafted polyether polyol, and production process and use thereof - A (meth)acrylate-grafted polyether polyol produced by reacting 40 to 95 parts by weight of a polyoxyalkylene polyol and 5 to 60 parts by weight of a vinyl monomer, both relative to 100 parts by weight of the sum total of the polyoxyalkylene polyol and the vinyl monomer, and 0.1 to 5 moles of an alkyl peroxide as a radical initiator per mole of the hydroxyl group in the polyoxyalkylene polyol, wherein the polyoxyalkylene polyol has a hydroxyl number of 25 mg KOH/g or less, and the vinyl monomer contains a (meth)acrylate and/or a hydroxyl-containing (meth)acrylate in an amount of 50% by weight or higher. The (meth)acrylate-grafted polyether polyol is excellent in colorless-transparency, compatibility, mechanical strength, weather resistance, and blending resistance, and therefore is useful as a raw material for a polyurethane resin cured article. | 04-30-2009 |
20100036050 | CURABLE RESIN AND CURABLE COMPOSITION - Provided are a vinyl monomer-grafted alkoxysilane-modified oxyalkylene resin which is useful as a raw material for a modified silicone based elastic adhesive and excellent in storage stability and adhesiveness and furthermore, cures with moisture excellently within a short time period, a production method for the resin, and a curable composition containing the resin. Specifically disclosed is a vinyl monomer-grafted alkoxysilane-modified oxyalkylene resin, which is produced by a method including grafting of a vinyl monomer by using an oxyalkylene based polymer as a raw material, in which the vinyl monomer includes a vinyl monomer containing 50 wt % or more of one or more of kinds of (meth)acrylic monomers, and the vinyl monomer is subjected to a graft reaction by using an alkyl peroxide as a radical reaction initiator. | 02-11-2010 |
Patent application number | Description | Published |
20090123732 | Electroconductive Metal Film and Production Method Thereof - A method of producing an electroconductive metal film and an electroconductive metal film produced thereby, the production method being capable of forming an electroconductive metal film having a low resistance by utilizing a compression treatment even when a conventional electroconductive metal film forming coating liquid (fine metal particle colloidal dispersion) is adopted and subjected to a drying treatment or heat treatment at a low temperature. The method includes adopting an electroconductive metal film forming coating liquid containing therein fine metal particles as a main component; coating the coating liquid onto a substrate; subsequently drying the coated coating liquid; and applying a compression treatment to the dried residual to form an electroconductive metal film on the substrate. | 05-14-2009 |
20090184637 | Dispersion-Type Electroluminescent Element and Method for Manufacturing the Same - A dispersion-type EL element is a dispersion-type electroluminescent element with at least a transparent coating layer, a transparent conductive layer, a phosphor layer, a dielectric layer and a rear electrode layer sequentially formed on a base film surface. The transparent coating layer can be peeled off the surface of the base film. The transparent conductive layer is formed by applying a coating liquid composed mainly of conductive oxide particles and a binder on a surface of the transparent coating layer, applying compression processing to the applied layer and then curing the compressed layer. | 07-23-2009 |
20090202747 | FLEXIBLE TRANSPARENT CONDUCTIVE FILM, FLEXIBLE FUNCTIONAL DEVICE, AND METHODS FOR PRODUCING THESE - In a flexible transparent conductive film which consists essentially of a base film and a transparent conductive layer formed by coating the base film with a transparent conductive layer forming coating fluid, the base film is constituted of a plastic film having been provided with gas barrier function, and the transparent conductive layer is chiefly composed of conductive fine oxide particles and a binder matrix, and has been subjected to compressing. Also disclosed is a flexible functional device which has the above flexible transparent conductive film and formed thereon any functional device selected from a liquid-crystal display device, an organic electroluminescent device, a dispersion-type inorganic electroluminescent device and an electronic paper device. The flexible transparent conductive film and the flexible functional device have gas barrier function and a superior flexibility, and are utilizable in thin-gauge equipments such as cards. | 08-13-2009 |
20090278440 | Dispersion-type electroluminescent element and method for manufacturing the same - A dispersion-type EL element formed on a thin or flexible transparent plastic film and a method for manufacturing the same are provided. The dispersion-type electroluminescent element is a dispersion-type electroluminescent element with at least a transparent conductive layer, a phosphor layer, a dielectric layer, and a rear electrode layer sequentially formed on a transparent plastic film surface, in which a thickness of the transparent plastic film is less than 50 μm, and the transparent conductive layer is formed by applying compression processing to an applied layer formed by applying a transparent conductive layer forming application liquid mainly composed of conductive oxide particles and a binder on the transparent plastic film surface and then, curing the compressed layer. | 11-12-2009 |
20090302756 | Film with Transparent Conductive Layer, Flexible Functional Element and Flexible Dispersion-Type Electroluminescent Element, and Method for Producing the Same and Electronic Device by the Use Thereof - An object of the present invention is to provide various flexible functional elements such as a film with a transparent conductive layer which is excellent in flexibility, more specifically, a film with the transparent conductive layer formed on a thin and flexible base film, and a flexible functional element selected from any of a liquid crystal display element, an organic EL element, and an electronic paper element as well as a flexible dispersion-type EL element, using the film with the transparent conductive layer, and a method for producing the same. | 12-10-2009 |
20100247810 | FLEXIBLE TRANSPARENT CONDUCTIVE FILM AND FLEXIBLE FUNCTIONAL ELEMENT USING THE SAME - A flexible transparent conductive film includes a base film | 09-30-2010 |
20100304048 | FLEXIBLE TRANSPARENT CONDUCTIVE FILM, FLEXIBLE FUNCTIONAL DEVICE, AND METHODS FOR PRODUCING THESE - In a flexible transparent conductive film having a base film and a transparent conductive layer formed by coating the base film surface with a transparent conductive layer forming coating fluid, the base film is constituted of a plastic film of 3 to 50 μm in thickness having been provided with gas barrier function, the flexible transparent conductive film has a backing film laminated to one side of the base film in such a way as to be peelable at the interface thereof with the base film, the transparent conductive layer provided on the base film surface on its side opposite to the backing film is chiefly composed of conductive fine oxide particles and a binder matrix, and the transparent conductive layer has been subjected to compressing together with the base film and the backing film. Also disclosed is a flexible functional device which has the above flexible transparent conductive film and formed thereon any functional device selected from a liquid-crystal display device, an organic electroluminescent device, a dispersion-type inorganic electroluminescent device and an electronic paper device. | 12-02-2010 |