Patents by Inventor Go Kawamura
Go Kawamura has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10898951Abstract: Powder particles for forming a homogeneous green body having a sufficient strength and a process for producing a green body by using the powder particles. A green body is shaped by using powder particles of composite particles in which thermoplastic resin particles are scattered on surfaces of large particles in an amount within a predetermined volume ratio range with respect to the large particles, and loaded to form resin pools in contact point peripheral areas of adjoining ones of the large particles and form voids in areas other than the contact point peripheral areas when the thermoplastic resin particles are melted. A green body packed with the powder particles each having a small amount of the thermoplastic resin particles attached thereon is placed under a melting condition of the thermoplastic resin particles, the thermoplastic resin is melted and gathers around contact points (or proximal points) of the adjoining powder particles.Type: GrantFiled: December 11, 2016Date of Patent: January 26, 2021Assignee: National University Corporation TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Hiroyuki Muto, Atsunori Matsuda, Go Kawamura, Tatsuya Matsusaki
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Publication number: 20190160439Abstract: [Problem] To provide a device for manufacturing composite particles constructed by flow paths having relatively great widths and capable of controlling an adsorption ratio of particles, and to provide a method for manufacturing composite particles using this manufacturing device. [Solution] A device for manufacturing composite particles includes at least one first inlet flow path (2) for supplying a first fluid, at least one second inlet flow path (3) for supplying a second fluid, and a mixing flow path (5) for merging the first fluid and the second fluid supplied respectively from the first inlet flow path and the second inlet flow path and allowing the two kinds of fluids to flow down for a predetermined length while mixing the two kinds of fluids. The mixing flow path is a continuous flow path and has a heterogeneous cross-sectional flow path area in a continuity direction thereof.Type: ApplicationFiled: July 27, 2017Publication date: May 30, 2019Applicant: National University Corporation TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Hiroyuki MUTO, Atsushi YOKOI, Naoto KIMURA, GO KAWAMURA, Atsunori MATSUDA
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Publication number: 20180369908Abstract: Powder particles for forming a homogeneous green body having a sufficient strength and a process for producing a green body by using the powder particles. A green body is shaped by using powder particles of composite particles in which thermoplastic resin particles are scattered on surfaces of large particles in an amount within a predetermined volume ratio range with respect to the large particles, and loaded to form resin pools in contact point peripheral areas of adjoining ones of the large particles and form voids in areas other than the contact point peripheral areas when the thermoplastic resin particles are melted. A green body packed with the powder particles each having a small amount of the thermoplastic resin particles attached thereon is placed under a melting condition of the thermoplastic resin particles, the thermoplastic resin is melted and gathers around contact points (or proximal points) of the adjoining powder particles.Type: ApplicationFiled: December 11, 2016Publication date: December 27, 2018Applicant: National University Corporation TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Hiroyuki MUTO, Atsunori MATSUDA, Go KAWAMURA, Tatsuya MATSUSAKI
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Patent number: 9603756Abstract: A composite material for an absorbent article and a method for manufacturing said composite material, said composite material being obtained by causing an absorbent material to adhere by electrostatic interaction to a substrate material, the surface of the absorbent material being positively or negatively charged in a prescribed solvent selected from among a nonpolar organic solvent, a polar organic solvent, and a water/polar organic solvent mixture; and the surface of the composite material being charged to an electrical charge opposite to that of the surface of the substrate material, in the prescribed solvent. The substrate material has a fiber substrate or a plastic substrate, and a polyelectrolyte layer provided on the surface layer; and/or the absorbent material has an absorbent-particle substrate or an absorbent fiber substrate, and a polyelectrolyte layer provided on the surface layer.Type: GrantFiled: November 4, 2014Date of Patent: March 28, 2017Assignee: UNICHARM CORPORATIONInventors: Akihiro Kimura, Hiroyuki Muto, Norio Hakiri, Hideyo Yoshikawa, Atsunori Matsuda, Go Kawamura
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Publication number: 20160287451Abstract: A composite material for an absorbent article and a method for manufacturing said composite material, said composite material being obtained by causing an absorbent material to adhere by electrostatic interaction to a substrate material, the surface of the absorbent material being positively or negatively charged in a prescribed solvent selected from among a nonpolar organic solvent, a polar organic solvent, and a water/polar organic solvent mixture; and the surface of the composite material being charged to an electrical charge opposite to that of the surface of the substrate material, in the prescribed solvent. The substrate material has a fiber substrate or a plastic substrate, and a polyelectrolyte layer provided on the surface layer; and/or the absorbent material has an absorbent-particle substrate or an absorbent fiber substrate, and a polyelectrolyte layer provided on the surface layer.Type: ApplicationFiled: November 4, 2014Publication date: October 6, 2016Inventors: Akihiro KIMURA, Hiroyuki MUTO, Norio HAKIRI, Hideyo YOSHIKAWA, Atsunori MATSUDA, Go KAWAMURA
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Patent number: 9115251Abstract: A composite membrane that can be used as an electrolyte membrane of a fuel cell is produced from a resin material that contains at least polybenzimidazole and from a composite material that is produced from of hydrogen sulfate and heteropoly acid. The composite membrane has a basic structure of an aromatic hydrocarbon that does not contain fluorine and has good efficiency, even at a low doping level, so it can be used for the electrolyte membrane of a medium temperature dry fuel cell. Phosphoric acid is doped into the composite membrane. Characteristics of the relationship between output current density and output voltage for an electrolyte membrane that is made from the created composite membrane (a specimen 4) are better than for a specimen 8, in which the amount of phosphoric acid doping is equivalent.Type: GrantFiled: May 24, 2012Date of Patent: August 25, 2015Assignee: NATIONAL UNIVERSITY CORPORATION TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Atsunori Matsuda, Song-Yul Oh, Toshihiro Yoshida, Go Kawamura, Junichi Hamagami, Mototsugu Sakai
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Publication number: 20150190840Abstract: A device and process for producing composite particles capable of adding a control agent for controlling a surface charge of particles such as a polymer electrolyte without being in excess or short. The production device includes a reservoir tank holding liquid containing either a first group or a second group of particles; a dispersion state measuring mechanism measuring a dispersion state of the particles in the liquid held in the reservoir tank; a dispersion state storage storing the dispersion state measured by the dispersion state measuring mechanism when a control agent for controlling a surface charge of the particles contained in the liquid in the reservoir tank is added into the reservoir tank; and an information output outputting information indicating that the dispersion state of the particles in the liquid in the reservoir tank is a desired state, based on the dispersion state stored in the dispersion state storage.Type: ApplicationFiled: March 29, 2012Publication date: July 9, 2015Applicant: National University Corporation Toyohashi University of TechnologyInventors: Hiroyuki Muto, Norio Hakiri, Atsunori Matsuda, Go Kawamura
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Publication number: 20130177835Abstract: By using a composite material that is produced from an acid salt of an oxo acid compound and an azole compound, a proton conductor with good proton conductivity properties under medium temperature, non-humidified conditions may be achieved. The composite material may be produced by mechanical milling of the acid salt of the oxo acid compound and the azole compound using a planetary ball mill The structure of the composite material obtained by the mixing processing may be different from that of a mixture of the acid salt of the oxo acid compound and the azole compound. Therefore, it may be possible to produce the proton conductor that has good proton conductivity properties under medium temperature, non-humidified conditions with a simple method of mechanical mixing.Type: ApplicationFiled: July 22, 2011Publication date: July 11, 2013Applicant: National University Corporation TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Song-Yul Oh, Toshihiro Yoshida, Go Kawamura, Atsunori Matsuda, Hiroyuki Muto, Daisuke Uchihori
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Publication number: 20120231354Abstract: A composite membrane that can be used as an electrolyte membrane of a fuel cell is produced from a resin material that contains at least polybenzimidazole and from a composite material that is produced from of hydrogen sulfate and heteropoly acid. The composite membrane has a basic structure of an aromatic hydrocarbon that does not contain fluorine and has good efficiency, even at a low doping level, so it can be used for the electrolyte membrane of a medium temperature dry fuel cell. Phosphoric acid is doped into the composite membrane. Characteristics of the relationship between output current density and output voltage for an electrolyte membrane that is made from the created composite membrane (a specimen 4) are better than for a specimen 8, in which the amount of phosphoric acid doping is equivalent.Type: ApplicationFiled: May 24, 2012Publication date: September 13, 2012Applicant: NATIONAL UNIVERSITY CORPORATION TOYOHASHI UNIVERSITY OF TECHNOLOGYInventors: Atsunori MATSUDA, Song-Yul OH, Toshihiro Yoshida, Go Kawamura, Junichi Hamagami, Mototsugu Sakai
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Patent number: 4699851Abstract: The present invention relates to a solid electrolyte comprising a heteropolyacid, the principal component of which is a heteropolytungstic acid and/or heteropolymolybdic acid containing carbon as a hetero atom.This heteropolyacid is stable and can be easily molded and its preparation is simple.Type: GrantFiled: August 25, 1986Date of Patent: October 13, 1987Assignee: Hitachi, Ltd.Inventors: Tetsuichi Kudo, Go Kawamura, Akira Ishikawa
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Patent number: 4634585Abstract: The present invention relates to a heteropoly acid containing carbon as a hetero atom. This heteropoly acid is useful as catalysts or starting materials for various reactions, color forming material or counter electrode material for electrochromic display element or the like.Type: GrantFiled: May 24, 1985Date of Patent: January 6, 1987Assignee: Hitachi, Ltd.Inventors: Tetsuichi Kudo, Go Kawamura, Akira Ishikawa
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Patent number: 4457987Abstract: A liquid fuel cell including an anode made of carbon powders, which contains therein an electrode catalyzer and is adapted to be supplied with a liquid fuel, a cathode supplied with oxygen, and a separator interposed between the anode and the cathode. In order to improve cell performance, the anode is formed from carbon powders bonded with a binder, the carbon powders having particle sizes passing through a 50 Tyler mesh screen, in which at least thirty percent by volume of the carbon powders are unable to pass through a 100 Tyler mesh screen.Type: GrantFiled: September 17, 1982Date of Patent: July 3, 1984Assignee: Hitachi, Ltd.Inventors: Tatsuo Horiba, Seizi Takeuchi, Kohki Tamura, Go Kawamura, Tetsuichi Kudo
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Patent number: 4414182Abstract: Hydrogen is generated by contacting an alkaline aqueous solution of formaldehyde with at least one catalyst selected from the group consisting of molybdenum, tungsten, molybdenum carbides, tungsten carbides, molybdenum nitrides, tungstenum borides, copper, silver, gold and compounds of copper, silver and gold.Hydrogen can be generated at ambient temperature under atmospheric pressure and, therefore, complicated steps or complicated devices are unnecessary.Type: GrantFiled: February 2, 1982Date of Patent: November 8, 1983Assignee: Hitachi, Ltd.Inventors: Hiroshi Okamoto, Tetsuichi Kudo, Go Kawamura