Kenji Adachi
Kenji Adachi, Ichikawa-Shi JP
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20100178471 | Light-absoring resin composition for use in laser welding, light-absorbing resin molded article, and method for manufacturing light-absorbing resin molded article - A light-absorbing resin composition for use in laser welding that retains transparency and enables stable laser welding to be performed. The light-absorbing resin composition for use in laser welding comprises a high-molecular-weight dispersant that has a glass transition temperature of 30° C. or higher and laser-light-absorbing nanoparticles. The laser-light-absorbing nanoparticles are nanoparticles of a hexaboride expressed by the general formula XB | 07-15-2010 |
20110091720 | Boride nanoparticle-containing fiber and textile product that uses the same - An object is to provide a fiber that absorbs heat with good efficiency, has excellent transparency and heat-retaining properties, and does not compromise the design characteristics of a textile product, and to provide a textile product in which the fiber is used. Hexaboride nanoparticles, a dispersion medium, and a dispersion agent for dispersing the nanoparticles are mixed together. The mixture is dispersed and dried to obtain a dispersion powder. The resulting dispersion powder is added to thermoplastic resin pellets, uniformly mixed, and thereafter melted and kneaded to obtain a master batch containing a heat-absorbing component. The master batch containing a heat-absorbing component is mixed with a similarly prepared master batch to which inorganic nanoparticles has not been added, and the mixture is melted, spun, and drawn to manufacture a multifilament yarn. The multifilament yarn is cut to fabricate staples, and the staples are used to manufacture a spun yarn having heat-absorbing effects. The spun yarn is used to obtain a knitted product having heat-retaining properties. | 04-21-2011 |
20150153478 | ELECTROCONDUCTIVE PARTICLE, VISIBLE LIGHT TRANSMITTING PARTICLE-DISPERSED ELECTRICAL CONDUCTOR AND MANUFACTURING METHOD THEREOF, TRANSPARENT ELECTROCONDUCTIVE THIN FILM AND MANUFACTURING METHOD THEREOF, TRANSPARENT ELECTROCONDUCTIVE ARTICLE THAT USES THE SAME, AND INFRARED-SHIELDING ARTICLE - Provided is an infrared-shielding nanoparticle dispersion that has a property whereby visible light is adequately transmitted, and light in the near-infrared region is adequately shielded. The infrared-shielding nanoparticles include a plural aggregate of electroconductive particles composed of a tungsten oxide expressed by the general formula WyOz (where W is tungsten, O is oxygen, and 2.2≦z/y≦2.999), and/or a composite tungsten oxide expressed by the general formula MxWyOz (where M is one or more elements selected from H, alkali metals, alkaline-earth metals, rare earth elements, Mg, Zr, Cr, Mn, Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt, Cu, Ag, Au, Zn, Cd, Al, Ga, In, Tl, Si, Ge, Sn, Pb, Sb, B, F, P, S, Se, Br, Te, Ti, Nb, V, Mo, Ta, Re, Be, Hf, Os, Bi, and I; W is tungsten; O is oxygen; 0.001≦x/y≦1.1; and 2.2≦z/y≦3.0). | 06-04-2015 |
Kenji Adachi, Chiba JP
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20090216492 | Solar radiation shielding member and solar radiation shielding member forming fluid dispersion - A solar radiation shielding member comprising solar radiation shielding fine particles, which has a transmittance having a maximum value at a wavelength of from 400 nm to 700 nm and a minimum value at a wavelength of from 700 nm to 1,800 nm, and, where the maximum value of the transmittance is represented by P, the minimum value thereof by B and the visible-light transmittance by VLT, has solar radiation shielding performance satisfying the following mathematical expression (1) at 60%≦VLT≦80% or satisfying the following mathematical expression (2) at 38%≦VLT≦55%: | 08-27-2009 |
Kenji Adachi, Urayasu-Shi JP
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20120301596 | METHOD FOR MANUFACTURING POLYMETHOXYFLAVONES THAT ARE HIGHLY STABLE OVER TIME AND HAVE REDUCED RESIDUAL PESTICIDE LEVELS - There is provided a method for manufacturing inexpensive, highly safe, highly stable, versatile polymethoxyflavones that can be used in food products and easily incorporated into a variety of pharmaceutical formulations, whereby in one pass, a large quantity of polymethoxyflavones can be isolated from other components in citrus peel oil, as well as a method for its use. The method for manufacturing polymethoxyflavones from citrus plant peel oil comprises a step of removing the volatile components in citrus plant peel oil by distillation to obtain a distillation residue, a step of distilling the residue with a thin-film vacuum distillation apparatus to obtain a fraction, a step of extracting the fraction with an aqueous ethanol solution to obtain an extract, and a step of contacting active carbon with the extract after removal of the insoluble oils in the extract for refining, as a method for manufacturing polymethoxyflavones that are highly stable over time and have reduced residual pesticide levels. | 11-29-2012 |
Kenji Adachi, Chiba-Shi JP
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20140113058 | FLAVOR DETERIORATION INHIBITOR AND INHIBITOR FOR THE GENERATION OF CITRAL DETERIORATION SMELL - A flavor deterioration inhibitor which comprises an extract obtained by extracting | 04-24-2014 |
Kenji Adachi, Koshi City JP
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20140034584 | PROCESS LIQUID SUPPLY APPARATUS OPERATING METHOD, PROCESS LIQUID SUPPLY APPARATUS AND NON-TRANSITORY STORAGE MEDIUM - According to an embodiment of the present disclosure, a process liquid supply apparatus operating method is provided. The method includes filling a filter unit with a process liquid from an upstream side of the filter unit to a downstream side of the filter unit after newly mounting or replacing the filter unit and repeating a depressurization filtering process and a pressurization filtering process for a predetermined number of times. The depressurization filtering process depressurizes the process liquid in the downstream side of the filter unit and thereby allows the process liquid to permeate through the filter unit. The pressurization filtering process pressurizes the process liquid from the upstream side of the filter unit and thereby allows the process liquid to permeate through the filter unit. | 02-06-2014 |
Kenji Adachi, Ehime-Ken JP
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20140019025 | SOOT ACCUMULATION COMPUTING AND DISPLAYING DEVICE - A soot accumulation computing and displaying device, including: a first calculating part that is configured to calculate a first inferred value of a present accumulation amount of the soot, based on a main fuel injection amount and a post fuel injection amount; a second calculating part that is configured to calculate a second inferred value of a present accumulation amount of the soot, based on a driving time of the internal-combustion engine, which is estimated to a present time from a starting time of a latest regeneration processing of the filter among regeneration processings of the filter conducted in past; a determining part that is configured to determine a maximum inferred value among the first and second inferred values; and a displaying part that is configured to perform displaying with regards to the maximum inferred value determined by the determining part. | 01-16-2014 |
Kenji Adachi, Hitachinaka-Shi JP
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20150076619 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - Variations in the contact area between contact plugs are suppressed to suppress fluctuations in contact resistance. In three third interlayer insulating films, a contact hole is self-alignedly formed to extend through the portions thereof interposed between two wiring portions and the portions thereof interposed between two gate wiring portions and reach a first polysilicon plug. In the contact hole, a second polysilicon plug is formed to come in contact with the first polysilicon plug. | 03-19-2015 |
Kenji Adachi, Tokyo JP
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20150078414 | METHOD OF TESTING SEMICONDUCTOR DEVICE AND APPARATUS OF TESTING SEMICONDUCTOR DEVICE - According to one embodiment, in a method of testing a semiconductor device, the semiconductor device has a semiconductor element and a substrate which are bonded by bonding material including metal fine particles. Image data of a heat distribution in the semiconductor device are temporally acquired while heating the semiconductor device. A time change of a fractal dimension based on the image data is calculated. An inclination of the time change of the fractal dimension is calculated. The inclination and a reference inclination set in advance are compared. Whether or not the semiconductor device is good is determined. | 03-19-2015 |
Kenji Adachi, Miyagi JP
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20150079790 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD - This semiconductor device manufacturing method is provided with: a film-forming step wherein a silicon nitride layer or a silicon oxide layer is formed such that a side wall portion of a silicon-containing layer, which is formed on a substrate and patterned, is covered with the silicon nitride layer or the silicon oxide layer; and a plasma etching step wherein the silicon-containing layer is selectively removed, and the silicon nitride layer or the silicon oxide layer formed on the side wall portion is left. In the plasma etching step, an etching gas containing SF | 03-19-2015 |
Kenji Adachi, Settsu-Shi, Osaka JP
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20150314266 | ADSORBENT FOR ORGANIC FLUORO-COMPOUND COMPRISING CYCLODEXTRIN-SUPPORTED POLYMER - The present invention is to provide a material that is capable of selectively adsorbing organic fluoro-compounds such as perfluorooctane sulfonic acid, allows the adsorbed organic fluoro-compounds to be recovered, and is reusable as an adsorbent, specifically to provide a polymer in which cyclodextrin is supported on the surface of a water-insoluble polymer, and an adsorbent containing the same, and a method of use of the same as a selective adsorbent of, in particular, an organic fluoro-compound. | 11-05-2015 |
20150329701 | NON-IONIC SURFACTANT COMPOSITION AND FLUOROPOLYMER AQUEOUS DISPERSION - A nonionic surfactant composition including: a nonionic surfactant that contains a molecule having a C10-C22 alkyl group and/or alkenyl group as a hydrophobic group, a polyoxyalkylene chain as a hydrophilic group, no aromatic ring, no C9-C14 alkyl group derived from an alcohol that is produced from a higher olefin derived from a mixture of propylene and butene through an oxo process, and no C13 alkyl group derived from an alcohol that is produced from a higher olefin derived from a propylene tetramer through an oxo process. The nonionic surfactant has a hydrodynamic radius of 5.0 to 8.0 nm at 40° C. in an aqueous solution in which a nonionic surfactant concentration is 0.1 kg/L in the nonionic surfactant composition, the radius being measured by a dynamic light scattering method. | 11-19-2015 |
Kenji Adachi, Osaka JP
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20160093807 | FULLERENE DERIVATIVE AND N-TYPE SEMICONDUCTOR MATERIAL - The present invention is a material that exhibits excellent properties as an n-type semiconductor, in particular for use in organic thin-film solar cells. The present invention relates to a fullerene derivative represented by formula (1): | 03-31-2016 |