Patent application number | Description | Published |
20090148681 | RADOME AND METHOD OF PRODUCING THE SAME - The present invention relates to a radome which has excellent transmission loss of radio waves and structural strength, which can be easily produced, and which has favorable workability, and a method of producing the same. The radome includes an olefin woven material and a glass cloth, in which the olefin woven material and the glass cloth are impregnated with a matrix resin to be integrated with each other, and the glass cloth is disposed closer to an inner side of the radome than the olefin woven material. As the olefin woven material, a woven material formed of an ultrahigh molecular weight polyethylene fiber can be used. As the matrix resin, an epoxy resin, a vinyl ester resin, an unsaturated polyester resin, or a silicone resin can be used. | 06-11-2009 |
20090242177 | COATING COMPOSITION, HEAT EXCHANGER, AND AIR-CONDITIONER - A coating composition according to the present invention includes silica microparticles and fluorine resin particles. The coating film formed on a surface of an article includes a silica film composed of the silica microparticles, in which the fluorine resin particles are dotted so as to partially expose from a surface of the silica film, an exposed area of the silica film is larger than an exposed area of the fluorine resin particles, and amount of natrium contained in the coating composition is made equal to or less than 0.5% in a ratio by weight to contained amount of the silica microparticles. | 10-01-2009 |
20100004425 | SOURCE MATERIAL FOR PREPARING LOW DIELECTRIC CONSTANT MATERIAL - A low dielectric constant material having an excellent water resistance obtained by heat-treating a borazine compound of the formula (1-2): | 01-07-2010 |
20100096114 | COATING COMPOSITION, AND ITS PRODUCTION, HEAT EXCHANGER AND AIR CONDITIONER - A coating composition including ultrafine silica particles having an average particle diameter of 15 nm or less and fluororesin particles, in which ultrafine silica particle content is 0.1 to 5 mass %, and the mass ratio of the ultrafine silica particles to the fluororesin particles is 70:30 to 95:5. According to the coating composition, there is provided a coating film which makes it possible to readily coat the surfaces of various articles without impairing the color tone and the texture and which is excellent in antisoiling performance and durability. | 04-22-2010 |
20100164072 | PLASMA CVD APPARATUS, METHOD FOR FORMING THIN FILM AND SEMICONDUCTOR DEVICE - A plasma CVD apparatus including a reaction chamber including an inlet for supplying a compound including a borazine skeleton, a feeding electrode, arranged within the reaction chamber, for supporting a substrate and being applied with a negative charge, and a plasma generating mechanism, arranged opposite to the feeding electrode via the substrate, for generating a plasma within the reaction chamber. A method forms a thin film wherein a thin film is formed by using a compound including a borazine skeleton as a raw material, and a semiconductor device includes a thin film formed by such a method as an insulating film. The apparatus and method enable to produce a thin film wherein low dielectric constant and high mechanical strength are stably maintained for a long time and insulating characteristics are secured. | 07-01-2010 |
20100181654 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, INSULATING FILM FOR SEMICONDUCTOR DEVICE, AND MANUFACTURING APPARATUS OF THE SAME - An object to provide an insulating film for a semiconductor device, which has characteristics of low permittivity, a low leak current, and high mechanical strength, undergoes small time-dependent change of these characteristics, and has excellent water resistance, and to provide a manufacturing apparatus of the same, and a manufacturing method of the semiconductor device using the insulating film. The production process comprises a film forming step of supplying a mixed gas containing a carrier gas and a raw material gas, which is a gasified material having borazine skeletal molecules, into a chamber, causing the mixed gas to be in a plasma state, applying a bias to the substrate placed in the chamber, and carrying out gas-phase polymerization by using the borazine skeletal molecule as a fundamental unit so as to form the insulating film on the substrate; and a reaction promoting step of, after the film forming step, bringing the bias applied to the substrate to a different magnitude from the bias in the film forming step, supplying the mixed gas while gradually reducing only the raw material gas, which is the gasified material having the borazine skeletal molecules, treating the insulating film with a plasma mainly comprising the carrier gas. | 07-22-2010 |
20110266660 | INSULATING FILM FOR SEMICONDUCTOR DEVICE, PROCESS AND APPARATUS FOR PRODUCING INSULATING FILM FOR SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, AND PROCESS FOR PRODUCING THE SEMICONDUCTOR DEVICE - An object is to provide an insulating film for a semiconductor device which has characteristics of a low permittivity, a low leakage current, and a high mechanical strength, undergoes less change in these characteristics with the elapse of time, and has an excellent water resistance, as well as to provide a process and an apparatus for producing the insulating film for a semiconductor device, a semiconductor device, and a process for producing the semiconductor device. A gas containing a raw material gas which gasified a predetermined alkylborazine compound is supplied in a chamber ( | 11-03-2011 |
20110290408 | METHOD OF MANUFACTURING PRINTED WIRING BOARD - A method of manufacturing a printed wiring board ( | 12-01-2011 |
20110300370 | COATING METHOD AND COATED ARTICLE - Provided is a coating method, including the steps of: applying a coating composition including inorganic fine particles and fluororesin particles in an aqueous medium onto a material to be coated; drying the coating composition on the material to be coated to remove the aqueous medium, thereby forming a porous film formed of the inorganic fine particles, the porous film having the fluororesin particles therein and having voids; and applying one or more water-soluble substances selected from the group consisting of a water-soluble surfactant and a water-soluble polymer onto the porous film, thereby filling the one or more water-soluble substances in the voids of the porous film. According to the coating method, there can be formed a coated article having a coating film which exhibits the excellent effect for inhibiting the attachment of oil stains for a long period and from which, even if oil stains are attached, the oil stains can be easily removed by wiping or washing with water. | 12-08-2011 |
20110315360 | COATING COMPOSITION, COATING METHOD, AIR CONDITIONER, VENTILATION FAN, AND ELECTRICAL EQUIPMENT - A coating composition having high dirt prevention properties and improved adhesiveness to hydrophobic surfaces such as those made of a plastic, and a coating method are provided. More specifically, provided is a coating composition, including: hydrophobic resin particles dispersed in an aqueous medium; hydrophilic inorganic fine particles; and an oxidizing agent containing at least one of a peroxide, a perchloric acid, a chlorate, a persulfuric acid, a superphosphoric acid, and a periodate, and also provided is a coating method including the steps of: preparing a first agent having hydrophilic inorganic fine particles and hydrophobic resin particles dispersed in an aqueous medium; preparing a second agent by adding, to the first agent, an oxidizing agent containing at least one of a peroxide, a perchloric acid, a chlorate, a persulfuric acid, a superphosphoric acid, and a periodate; applying the second agent onto a member to be coated; and drying the second agent on the member to be coated. | 12-29-2011 |
20120073628 | COATING AGENT FOR SOLAR CELL MODULE, AND SOLAR CELL MODULE AND PRODUCTION METHOD FOR THE SOLAR CELL MODULE - The present invention relates to a coating agent for a solar cell module obtained by dispersing silica fine particles (A) with an average particle diameter of 15 nm or less and low-refractive index resin particles (B) with a refractive index of 1.36 or less in an aqueous medium, in which the solid content is 5% by mass or less, and the mass ratio of the silica fine particles (A) to the low-refractive index resin particles (B) in the solid content (silica fine particles (A)/low-refractive index resin particles (B)) is more than 20/80 and less than 70/30. The coating agent for a solar cell module is capable of forming an anti-reflection film at room temperature with excellent reflectance-reducing effect, abrasion resistance and weather resistance. | 03-29-2012 |