Ashibe
Emi Ashibe, Kyoto JP
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20140179016 | Reagent for Measuring Degree of Oxidative Stress and Method of Measuring Degree of Oxidative Stress - The present invention provides a reagent for measuring a degree of oxidative stress that includes a compound represented by the following general formula (I) or a salt thereof, and a method of measuring a degree of oxidative stress using the reagent for measuring a degree of oxidative stress. In the general formula (I), R | 06-26-2014 |
Maiko Ashibe, Chiyoda-Ku JP
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20130189956 | USER VERIFICATION DEVICE AND USER VERIFICATION METHOD - A user verification device and a user verification method that perform appropriate user verification in accordance with a network environment. The user verification device includes a storage module for storing a verification method and user information utilized for user verification, a reception module for receiving a request for user verification, a network type determination module for determining a network type that the user verification device uses for communication, a location information acquisition module for acquiring location information of the user verification device, a verification method extraction module for extracting the stored verification method based on the determined network type, a user information extraction module for extracting the stored user information based on the determined network type and the acquired location information, and a processing module for processing user verification based on the extracted verification method and the extracted user information. | 07-25-2013 |
Tsunenori Ashibe, Kanagawa-Ken JP
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20090052954 | ELECTROPHOTOGRAPHIC ENDLESS BELT, ELECTROPHOTOGRAPHIC APPARATUS, AND ELECTROPHOTOGRAPHIC ENDLESS BELT MANUFACTURING METHOD - The object of the present invention is to provide an electrophotographic endless belt exhibiting high uniformity in transfer and high stability in running, and an electrophotographic apparatus having the electrophotographic endless belt. The present invention provides: an electrophotographic endless belt formed of a thermoplastic resin composition, characterized in that, assuming that the maximum heating shrinkage factor when a slice of the electrophotographic endless belt is hot-pressed in a temperature range higher than a melting point of the thermoplastic resin composition by 10° C. to 120° C. is L (%), 15≦L≦80 is established, and assuming that the maximum tensile rupture distortion attained by performing a heating tensile test using a slice hot-pressed at a temperature giving the maximum heating shrinkage factor in a temperature range of 80° C. to 200° C. is S, 0.10≦(S+1)/L≦0.17 is established; an electrophotographic apparatus having the electrophotographic endless belt; and a method of manufacturing the electrophotographic endless belt. | 02-26-2009 |
Tsunenori Ashibe, Yokohama-Shi JP
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20160070182 | ELECTRO-CONDUCTIVE MEMBER, PROCESS CARTRIDGE, ELECTROPHOTOGRAPHIC APPARATUS, AND ADDITION-CURABLE SILICONE RUBBER MIXTURE - There is provided an electro-conductive member for electrophotography. The electro-conductive member for electrophotography includes, in sequence, an electro-conductive base, an electro-conductive elastic layer, and a resin layer. The elastic layer contains a cured product of an addition-curable silicone rubber mixture having a specific composition. The addition-curable silicone rubber mixture contains an organopolysiloxane that contains an alkenyl group attached to a silicon atom in its molecule, an organopolysiloxane that contains a hydrogen atom attached to a silicon atom in its molecule, carbon black, and spherical solid inorganic particles. | 03-10-2016 |
Yuichi Ashibe, Osaka JP
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20090082210 | SUPERCONDUCTING-CABLE CORE AND SUPERCONDUCTING CABLE - The invention offers a superconducting-cable core that comprises a superconducting conductor and an insulating layer covering the outer circumference of the superconducting conductor. The superconducting-cable core is classified longitudinally into a cable portion and a jointing-structure-forming portion that is located at each end of the cable portion and that serves as the portion in which a complementary insulating structure is formed when jointed with another conducting member. Of the superconducting-cable core, the jointing-structure-forming portion is at least within the range from the end of the superconducting-cable core to the end of the complementary insulating structure. The jointing-structure-forming portion has an insulating layer whose insulation performance is higher than that of the insulating layer of the cable portion, so that even when the cable itself cannot be designed with a sufficient margin in its insulation, a highly reliable joint can be formed. | 03-26-2009 |
Yuuichi Ashibe, Osaka JP
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20090025979 | Coupling structure of superconducting cable - A coupling structure of a superconducting cable is formed at an end portion of the superconducting cable having a superconducting layer and an outer peripheral layer formed thereon. The superconducting layer is coupled to a coupling member. A holding member | 01-29-2009 |
20100021113 | Method of constructing a normal joint structure of a superconducting cable - Provided is a method of constructing a normal joint structure for connecting superconducting cables having a cable core and an optical fiber arranged along the cable core. With the method, which includes the steps of: pulling out an optical fiber from the end of each of two superconducting cables to be connected together and splicing the optical fibers thus pulled out; returning the excess length of the pulled-out optical fiber to a superconducting cable side upon the completion of splicing; and connecting the cable cores, it is possible to reduce the quantity of optical fiber housed in a joint box, and accordingly to downsize the joint box. | 01-28-2010 |