Inazawa, JP
Hiroshi Inazawa, Kudamatsu-Shi JP
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20100319842 | MULTILAYER RESIN FILM, A RESIN-COATED METAL SHEET, A METHOD OF MANUFACTURING A MULTILAYER RESIN FILM AND A METHOD OF MANUFACTURING A RESIN-COATED METAL SHEET - A method for manufacturing a resin-coated metal sheet comprising: laminating two or more kinds of molten resins, to form a multilayer film; extruding the multilayer film through a multi-manifold die onto a metal sheet; wherein at least one kind of molten resin contains a coloring component; wherein said molten resins include a first resin having a high melt viscosity and a second resin having a low melt viscosity; wherein the multi-manifold die has plural resin passages through which plural resins pass; wherein the resin passage through which the first resin passes is maintained at a higher temperature than the resin passage through which the low melt viscosity resin passes; wherein the difference in melt viscosity of adjoining resin layers is 3,000 poises or less at a shear rate of 20 to 500 s | 12-23-2010 |
Hiroshi Inazawa, Yamaguchi JP
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20090068353 | METHOD FOR MANUFACTURING ORGANIC RESIN-COATED METAL SHEET AND APPARATUS OF MANUFACTURING ORGANIC RESIN-COATED METAL SHEET - The present invention provides particularly, in a method of manufacturing an organic resin-coated metal sheet by an extrusion lamination method, a method of removing an oligomer adhered to a roll with which a heat molten resin comes into contact while removing an oligomer and an apparatus of manufacturing an organic resin-coated metal sheet. In a manufacturing method of an organic-resin coated metal sheet which includes the steps of: continuously extruding an organic resin in a molten state by heating from a T-die in a film shape onto an elongated strip-shaped metal sheet; dropping a molten resin on pre-rolls arranged between the T-die and lamination rolls and bringing the molten resin into contact with the pre-rolls; and pressing the molten resin and the metal sheet by lamination rolls thus manufacturing the organic-resin coated metal sheet, an oligomer removing method is characterized in that electric conductive bodies are arranged parallel to the widthwise direction of the pre-rolls, and the molten resin is dropped onto the pre-rolls in a state that an electric current is supplied to the electric conductive bodies at predetermined intervals thus bringing the molten resin into contact with surfaces of the pre-rolls by electrostatic pinning whereby an oligomer adhered to the pre-rolls is transferred to a surface of the molten resin and is removed. | 03-12-2009 |
20090283200 | MANUFACTURING METHOD AND APPARATUS OF ORGANIC RESIN COATED METAL SHEET - [Problem] The present invention provides a manufacturing method and apparatus of an organic resin coated metal sheet which can surely remove resin portions projecting from both edges of a metal sheet. | 11-19-2009 |
20100224314 | LAMINATING ROLL, APPARATUS FOR PRODUCING METAL SHEET COATED WITH ORGANIC RESIN, AND PROCESS FOR PRODUCING METAL SHEET COATED WITH ORGANIC RESIN - The present invention aims at the continuous and stable production of an organic-resin-coated metal sheet in producing the organic-resin-coated metal sheet by an extrusion method using a laminating roll which can prevent resin portions (ear portions) protruding from the metal sheet being wound around shaft portions of the laminating roll. Using a laminating roll in which a width (A) of a region thereof coated with a lining material satisfies a relationship of 0≦A−B≦20 mm with respect to a width (B) of the metal sheet, a thermally melted organic resin is extruded and is applied to the metal sheet such that end portions of the organic resin in the widthwise direction protrude from outer portions of the laminating roll applied with the lining material, and the resin portions in a semi-molten state which protrude from respective edges of the metal sheet are removed by press-cutting. | 09-09-2010 |
20120213599 | Web Floating and Conveying Device and Method of Manufacturing Same - Provided is a web floating and conveying device which has excellent web quality maintaining property and excellent conveying-fluid precision control property in conveying a web film. A conveyance guide ( | 08-23-2012 |
20130099413 | FILM PRODUCTION APPARATUS AND METHOD FOR PRODUCING FILM - Provided is a film production apparatus and a method for producing film capable of exerting a good effect of preventing necking-in by minimizing the length of molten resin after extrusion through a die exit and before a contact with the surface of a chill roll. A film production apparatus configured to take up molten resin extruded downward from an exit bored in a die by a rotating chill roll located below the exit and to cool the molten resin for solidification by the chill roll to produce a film further includes a fluid providing unit that provides fluid to a space between the exit and the chill roll located below. The film production apparatus is configured to apply fluid pressure in a direction pushing back the molten resin existing in the space against displacement of the molten rein taken up in a rotational direction of the chill roll. | 04-25-2013 |
Hitoshi Inazawa, Kanagawa-Ku JP
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20120066962 | EMULSIFIER FOR WATER-IN-OIL EMULSION FUEL - Provided is an emulsifier for a water-in-oil (W/O) emulsion fuel wherein reseparation between oil and water does not take place for a long period of time because of stable emulsion state with homogeneous dispersion. The emulsifier of the present invention for a water-in-oil emulsion fuel comprises following (1) to (7) components: (1) heavy oil A: 50 mL or more 100 mL, (2) heavy oil B: 100 mL or more 200 mL, (3) heavy oil C: 300 mL or more 450 mL, (4) methanol: 100 mL or more 150 mL, (5) ethanol: 100 mL or more 200 mL, (6) palm oil: 100 mL or more 150 mL, and (7) water: 100 mL or more 200 mL. | 03-22-2012 |
Hitoshi Inazawa, Yokohama City Kanagawa JP
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20140075826 | EMULSIFIER FOR WATER-IN-OIL EMULSION FUEL - An emulsifier for a water-in-oil (W/O) emulsion fuel wherein reseparation between oil and water does not take place for a long period of time because of a stable emulsion state with homogenous dispersion. The emulsifier for a water-in-oil emulsion fuel includes the following (1) to (7) components: (1) heavy oil A: 50 mL or more 100 mL, (2) heavy oil B: 100 mL or more 200 mL, (3) heavy oil C: 300 mL or more 450 mL, (4) methanol: 100 mL or more 150 mL, (5) ethanol: 100 mL or more 200 mL, (6) palm oil: 100 mL or more 150 mL, and (7) water: 100 mL or more 200 mL. | 03-20-2014 |
Johji Inazawa, Bunkyo-Ku JP
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20130045479 | METHODS FOR EVALUATING THE STAGE OF OVARIAN CANCER OR THE SURVIVAL RATE OF AN OVARIAN CANCER PATIENT - An object of the present invention is to provide a method for detecting cancer through identification of genes exhibiting characteristic behavior in the cases of cancer such as ovarian cancer, and a cell growth inhibitor. The present invention provides a method for detecting cancer, which comprises detecting canceration including malignancy of a specimen through detection of at least one alteration of a gene existing in a chromosomal region 2q14. 2, 3p24. 1, 3q26. 2, 3q29, 4q34. 2, 6q23, 9p21. 3, 11q13. 3, 13q22.1, 13q33. 1, 13q33. 3, 15q12, 15q15. 1, 17p12, 17p13. 1, 17p13. 3, 18q21. 1, 18q21. 2, 18q21. 31, 18q21. 32, 18q21. 33, 18q23, 20q13. 13, 20q13. 2, 20q13. 31, 20q13. 33, Xp11. 23, Xp13.1, Xp13. 3, Xp26. 2, Xp26. 3, or Xq28 in the specimen. | 02-21-2013 |
Koichi Inazawa, Aichi JP
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20100196639 | FLANGED FIBER-REINFORCED RESIN HOLLOW PART AND METHOD OF MOLDING THE SAME - Provided is a method capable of easily and inexpensively molding a flanged fiber-reinforced resin hollow part with a non-uniform cross-section and a bent portion with a sufficiently reduced weight and substantially uniform thickness. To this end, a hollow laminate ( | 08-05-2010 |
Koichi Inazawa, Nishikamo-Gun JP
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20100052203 | YARN LAYER FORMING APPARATUS, YARN LAYER FORMING METHOD, AND METHOD OF MANUFACTURING FIBER-REINFORCED MEMBER - A yarn layer forming apparatus includes: an annular braider that supplies braider yarn; an annular first supply device that supplies first yarn; an annular second supply device that supplies second yarn; and an actuating device that moves a mandrel. At least one of the first supply device and the second supply device is rotatable. A layer structure of yarn layers is formed on a peripheral surface of the mandrel. The layer structure of yarn layers includes at least yarn arrangement layers formed respectively by the first and second supply devices and a woven layer formed by the braider. | 03-04-2010 |
20100083815 | FIBER REINFORCED RESIN MEMBER AND METHOD OF MANUFACTURING THE SAME, AND APPARATUS MANUFACTURING FIBER FABRIC - An object of the present invention is to provide a high-quality fiber reinforced resin member that enables a longitudinal yarn to be laid out, without slipping, around an outer periphery of a mandrel having at least a bent portion, thus allowing both the longitudinal yarn and a diagonal yarn to be evenly laid out, and a method of manufacturing the fiber reinforced resin member, as well as an apparatus manufacturing a fiber fabric for the fiber reinforced resin member. A fiber reinforced resin member | 04-08-2010 |
Koichi Inazawa, Miyoshi-Shi JP
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20100288425 | METHOD OF MOLDING FIBER-REINFORCED PLASTIC HOLLOW PART - There is provided a method of molding a fiber-reinforced plastic hollow part that is capable of molding, with ease and at low costs, a fiber-reinforced plastic hollow part, which has a varying cross-section or a bent portion, in a state in which its weight is sufficiently reduced and in a state where its wall thickness is substantially uniform. A reinforcing fiber ( | 11-18-2010 |
Koichiro Inazawa, Yamanashi-Ken JP
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20100024983 | PLASMA ETCHING UNIT - The present invention is a plasma etching method including: an arranging step of arranging a pair of electrodes oppositely in a chamber and making one of the electrodes support a substrate to be processed in such a manner that the substrate is arranged between the electrodes, the substrate having an organic-material film and an inorganic-material film; and an etching step of applying a high-frequency electric power to at least one of the electrodes to form a high-frequency electric field between the pair of the electrodes, supplying a process gas into the chamber to form a plasma of the process gas by means of the electric field, and selectively plasma-etching the organic-material film of the substrate with respect to the inorganic-material film by means of the plasma; wherein a frequency of the high-frequency electric power applied to the at least one of the electrodes is 50 to 150 MHz in the etching step. | 02-04-2010 |
Koji Inazawa, Shiga Pref. JP
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20140334067 | Solid Electrolytic Capacitor Containing a Pre-Coat Layer - A solid electrolytic capacitor that contains an anode body formed from an electrically conductive powder, dielectric located over and/or within the anode body, an adhesion coating overlying the dielectric, and a solid electrolyte overlying the adhesion coating is provided. The powder has a high specific charge and in turn a relative dense packing configuration. Despite being formed from such a powder, the present inventors have discovered that the conductive polymer can be readily impregnated into the pores of the anode. This is accomplished, in part, through the use of a discontinuous precoat layer in the adhesion coating that overlies the dielectric. The precoat layer contains a plurality of discrete nanoprojections of a manganese oxide (e.g., manganese dioxide). | 11-13-2014 |
20140334068 | Solid Electrolytic Capacitor Containing a Multi-Layered Adhesion Coating - A solid electrolytic capacitor that contains an anode body, dielectric located over and/or within the anode body, an adhesion coating overlying the dielectric, and a solid electrolyte overlying the dielectric and adhesion coating that contains a conductive polymer. The adhesion coating is multi-layered and employs a resinous layer in combination with a discontinuous layer containing a plurality of discrete nanoprojections of a manganese oxide (e.g., manganese dioxide). | 11-13-2014 |
Osamu Inazawa, Itami-Shi JP
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20110297539 | WATER QUALITY ANALYZER - A water quality analyzer comprises: sensor electrodes | 12-08-2011 |
Ryohei Inazawa, Kiyosu-Shi JP
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20130153950 | GROUP III NITRIDE SEMICONDUCTOR LIGHT-EMITTING DEVICE - The light-emitting device has a semiconductor layer including a p-layer, a light-emitting layer, and an n-layer, which are formed of a Group III nitride semiconductor, and an n-electrode on the n-layer. The device also has a device isolation trench which runs along the outer periphery of the semiconductor layer and which provides the semiconductor layer with a mesa shape; and an insulation film continuously provided on first to third regions, the first region being an outer peripheral region of the n-layer, the second region being the side surface of the trench, and the third region being the bottom surface of the device isolation trench. The n-electrode consists of two pad portions and a wire trace portion. The outer peripheral wire trace portion is formed as a frame completely contouring the periphery of the device. | 06-20-2013 |
Ryohei Inazawa, Nishikasugai-Gun JP
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20100081256 | Method for producing group III nitride compound semiconductor element - A method for producing a Group III nitride compound semiconductor element includes growing an epitaxial layer containing a Group III nitride compound semiconductor using a different kind of substrate as an epitaxial growth substrate, adhering a supporting substrate to the top surface of the epitaxial growth layer through a conductive layer, and then removing the epitaxial growth substrate by laser lift-off. Before adhesion of the epitaxial layer and the supporting substrate, a first groove that at least reaches an interface between the bottom surface of the epitaxial layer and the epitaxial growth substrate from the top surface of the epitaxial layer formed on the epitaxial growth substrate and acts as an air vent communicating with the outside of a wafer when the epitaxial layer and the supporting substrate are joined to each other. Next, the epitaxial layer is divided into each chip by separating the epitaxial growth substrate by laser lift-off, and then removing the epitaxial layer serving as the outer periphery of each chip. Next, the outer peripheral side surface of the epitaxial layer of each chip is at least completely covered with an insulating protective film. Next, the supporting substrate is separated into each chip. | 04-01-2010 |
Ryohei Inazawa, Aichi-Ken JP
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20100248407 | Method for producing group III nitride-based compound semiconductor device - Provided is a method for producing a Group III nitride-based compound semiconductor light-emitting device, wherein a contact electrode is formed on an N-polar surface of an n-type layer through annealing at 350° C. or lower. In the case where, in a Group III nitride-based compound semiconductor device produced by the laser lift-off process, a contact electrode is formed, through annealing at 350° C. or lower, on a micro embossment surface (i.e., a processed N-polar surface) of an n-type layer from vanadium, chromium, tungsten, nickel, platinum, niobium, or iron, when a pseudo-silicon-heavily-doped layer is formed on the micro embossment surface (i.e., N-polar surface) of the n-type layer through treatment with a plasma of a silicon-containing compound gas, and treatment with a fluoride-ion-containing chemical is not carried out, ohmic contact is obtained, and low resistance is attained. | 09-30-2010 |
Shinji Inazawa, Osaka-Shi, Osaka JP
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20130224566 | MOLTEN-SALT BATTERY AND MOLTEN-SALT BATTERY CONNECTED BODY - This molten-salt battery is provided with a battery container for housing a power generation element that contains molten salt. The battery container is provided with a container body ( | 08-29-2013 |
20130224568 | MOLTEN SALT BATTERY - A plurality of rectangular plate-like negative electrodes and a plurality of rectangular plate-like positive electrodes are laterally stacked so as to face each other alternately with rectangular plate-like separators being respectively interposed therebetween, and are housed in a battery container formed of an aluminum alloy. The inner surface of the battery container is insulated by forming an alumite coating film thereon. Rectangular tabs (lead wires) for drawing a current from the positive electrodes are connected to one another via a tab lead, and rectangular tabs for drawing a current from the negative electrodes are connected to one another via a tab lead. | 08-29-2013 |
Susumu Inazawa, Kanagawa-Ku JP
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20120066962 | EMULSIFIER FOR WATER-IN-OIL EMULSION FUEL - Provided is an emulsifier for a water-in-oil (W/O) emulsion fuel wherein reseparation between oil and water does not take place for a long period of time because of stable emulsion state with homogeneous dispersion. The emulsifier of the present invention for a water-in-oil emulsion fuel comprises following (1) to (7) components: (1) heavy oil A: 50 mL or more 100 mL, (2) heavy oil B: 100 mL or more 200 mL, (3) heavy oil C: 300 mL or more 450 mL, (4) methanol: 100 mL or more 150 mL, (5) ethanol: 100 mL or more 200 mL, (6) palm oil: 100 mL or more 150 mL, and (7) water: 100 mL or more 200 mL. | 03-22-2012 |
20140075826 | EMULSIFIER FOR WATER-IN-OIL EMULSION FUEL - An emulsifier for a water-in-oil (W/O) emulsion fuel wherein reseparation between oil and water does not take place for a long period of time because of a stable emulsion state with homogenous dispersion. The emulsifier for a water-in-oil emulsion fuel includes the following (1) to (7) components: (1) heavy oil A: 50 mL or more 100 mL, (2) heavy oil B: 100 mL or more 200 mL, (3) heavy oil C: 300 mL or more 450 mL, (4) methanol: 100 mL or more 150 mL, (5) ethanol: 100 mL or more 200 mL, (6) palm oil: 100 mL or more 150 mL, and (7) water: 100 mL or more 200 mL. | 03-20-2014 |
Yasunori Inazawa, Tokyo JP
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20140303296 | FLAME-RETARDANT RESIN COMPOSITION COMPRISING A POLYCARBONATE-POLYDIORGANOSILOXANE COPOLYMER RESIN AND MOLDED ARTICLE THEREOF - A thermoplastic resin composition having good balance among impact resistance, flame retardancy, heat resistance and flowability all of which are required for thin molded articles high-dimensionally. | 10-09-2014 |