SHOWDA DENKO K.K. Patent applications |
Patent application number | Title | Published |
20110020729 | CATALYST, PRODUCTION PROCESS THEREFOR AND USE THEREOF - Catalysts of the present invention are not corroded in acidic electrolytes or at high potential and have excellent durability and high oxygen reducing ability. | 01-27-2011 |
20100290148 | Magnetic recording medium for thermally assisted magnetic recording - A magnetic recording medium used for the thermally assisted magnetic recording system which fires a laser beam at a magnetic recording medium to partially heat the medium and applies a magnetic field from the outside to the part heated to lower the coercivity for recording. The magnetic recording medium is configured by a glass substrate on which a heat radiation layer, heat retention layer, intermediate layer, and recording layer are stacked. Further, the heat retention layer is configured by a member having an effective refractive index lower than the effective refractive index of the recording layer and having an temperature diffusion coefficient determined by the specific heat, density, and heat conductivity rate higher than glass and lower than metal. The material with a high temperature diffusion coefficient is used lowered in temperature diffusion coefficient using a porous structure or granular structure. | 11-18-2010 |
20100099903 | PROCESS FOR PRODUCTION OF ALLYL ACETATE PRODUCTION CATALYST - An allyl acetate production catalyst comprising at least (a) palladium, (b) gold, (c) a compound containing at least one element selected from copper, nickel, zinc and cobalt, (d) an alkali metal salt compound and (e) a carrier, is produced by a process comprising step 1 in which a homogeneous solution of a palladium-containing compound and a gold-containing compound is supported on a carrier by contact therewith, step 2 in which the carrier obtained in step 1 is contacted with an alkali solution for impregnation, step 3 in which the carrier obtained in step 2 is subjected to reduction treatment, and step 4 in which a compound containing at least one element selected from copper, nickel, zinc and cobalt and an alkali metal salt compound are supported onto the carrier obtained in step 3. The obtained allyl acetate production catalyst has minimal reduction in activity and improved selectivity, when used for production of allyl acetate from propylene, oxygen and acetic acid. | 04-22-2010 |
20100093907 | Fine Pattern Transfer Material - A transfer material that can favorably form a fine pattern by nanoimprinting. The nanoimprinting transfer material is a fine pattern resin composition that includes an organosilicon compound and a metal compound of a metal from groups 3 through 14 of the periodic table. | 04-15-2010 |
20090266585 | Flame-Retardant Composition for Solder Resist and Cured Product Thereof - There is provided a flame retardant composition for a solder resist which is halogen-free and has a high level of flame retardance and flexibility, while exhibiting excellent heat resistance, moisture resistance and high-temperature reliability. The flame retardant composition for a solder resist according to the invention comprises (A) an alkali-soluble resin comprising either or both (A1) a carboxyl group-containing epoxy (meth)acrylate or (A2) a carboxyl group-containing urethane (meth)acrylate obtained by reacting an epoxy resin with two or more epoxy groups in the molecule (a), an unsaturated group-containing monocarboxylic acid (b) and a polybasic acid anhydride (c), (B) a compound having an ethylenic unsaturated group in the molecule, (C) a photopolymerization initiator, (D) a phosphorus-containing epoxy resin having a specific structure and (E) a hydrated metal compound. The composition of the invention can be suitably used as a solder resist or cover lay film for an FPC. | 10-29-2009 |
20090255656 | Brazed Pipe and Method of Manufacturing the Same - A method of manufacturing a brazed pipe comprises steps A to D. In the step A, on an upper surface of the right-hand side edge portion of a material plate | 10-15-2009 |