Kohei Yamashita
Kohei Yamashita, Nagoya-Shi JP
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20120259086 | CYCLIC POLYPHENYLENE ETHER ETHER KETONE COMPOSITION AND METHOD FOR PRODUCING THE SAME - A cyclic poly (phenylene ether ether ketone) composition includes not less than 60% by weight of a cyclic poly (phenylene ether ether ketone) represented by the following Formula (I), which is characterized in that the cyclic poly (phenylene ether ether ketone) is a mixture of cyclic poly (phenylene ether ether ketone)s having different repeating numbers (m) and the composition has a melting point of not higher than 270° C.; and a method of producing a poly (phenylene ether ether ketone) characterized by heat-polymerizing the cyclic poly (phenylene ether ether ketone) composition: | 10-11-2012 |
20130331500 | THERMOPLASTIC RESIN COMPOSITION, AND MOLDED PRODUCT THEREOF - A thermoplastic resin composition is provided having excellent flowability, high crystallization characteristics, high transparency and excellent processability in melt processing to resin molded products, sheets, films, fibers and pipes. The thermoplastic resin composition includes 100 parts by weight of (A) a thermoplastic resin; and 0.5 to 50 parts by weight of (B) a cyclic poly(phenylene ether ketone) that is expressed by General Formula (I) given below and has phenylene ketone shown by -Ph-CO— and phenylene ether shown by -Ph-O— as are repeating structural unit: | 12-12-2013 |
20140128565 | PRODUCTION METHOD OF POLY (PHENYLENE ETHER ETHER KETONE) - There is provided a production method of poly(phenylene ether ether ketone). The production method makes a cyclic poly(phenylene ether ether ketone) composition subjected to thermal ring-opening polymerization in the presence of a metal alkoxide and/or a metal phenoxide. The cyclic poly(phenylene ether ether ketone) composition includes 60% by weight or more of cyclic poly(phenylene ether ether ketone) and has a melting point of 270° C. or lower. | 05-08-2014 |
Kohei Yamashita, Kanagawa JP
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20130249222 | DOOR CLOSER DEVICE - A door closer device comprises a sun gear pivotally mounted via a pivot shaft, a planetary gear which meshes with the sun gear to orbit the sun gear while turning on its own axis, a closing lever pivotally mounted via the pivot shaft and pivotally mounted with the planetary gear, and a sector gear which has an external teeth meshing with an output gear and an internal teeth meshing with the planetary gear. The closing lever swings about the pivot shaft to allow a latch to move from a half-latch position to a full-latch position where the latch fully engages with a striker. | 09-26-2013 |
20140000169 | VEHICLE DOOR CLOSER DEVICE | 01-02-2014 |
20140001778 | OPERATING DEVICE FOR A VEHICLE DOOR LATCH | 01-02-2014 |
Kohei Yamashita, Yokohama-Shi JP
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20140062101 | VEHICLE DOOR LATCH SYSTEM - In a vehicle, a striker engages with a latch which engages with a ratchet. A door of the vehicle is closed. A motion-transmitting path for transmitting power to the ratchet from an electric drive mechanism is provided. A release-canceling mechanism connects or cuts off the motion-transmitting path. When the ratchet is released from the latch, the door-cooperating lever cuts off the release-canceling mechanism to enable the ratchet to engage with the latch again. Hence the door is closed. | 03-06-2014 |
20140070549 | DOOR LATCH SYSTEM FOR VEHICLE - A door latch system for a vehicle includes: a latch interlocking mechanism arranged to be actuated in a release cancel direction from a neutral position to be interlocked with the pivot movement of the latch in a predetermined direction; and a release cancel mechanism arranged to be actuated from a connection state where an operation force transmitting path for transmitting the power of the electric driving mechanism to the ratchet is connected, to a disconnection state where the operation force transmitting path is disconnected, by the actuation of the latch interlocking mechanism in the release cancel direction from the neutral position, the release cancel mechanism being arranged to be actuated from the connection state to the disconnection state when the ratchet is in a release restriction state so as to enable the ratchet to return to the engagement position. | 03-13-2014 |
20150137532 | VEHICLE DOOR CLOSER DEVICE - A vehicle door closer device comprises a latch that is capable of engaging with a striker of a vehicle body; a ratchet that is capable of engaging with the latch; and a release-canceling mechanism that comprises a first release-output lever, a second release-output lever and a canceling lever. A locking knob is operated, and the canceling lever disconnects a motion transmitting path between the first release-output lever and the second release-output lever thereby enabling the ratchet to engage with the latch, so that a vehicle door can be closed. | 05-21-2015 |
Kohei Yamashita, Nagoya-Shi, Aichi JP
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20140155540 | MOLDING MATERIAL, MOLDING METHOD USING SAME, METHOD FOR PRODUCING MOLDING MATERIAL, AND METHOD FOR PRODUCING FIBER-REINFORCED COMPOSITE MATERIAL - Provided is a molding material comprising a composite of 1 to 50 wt % of a continuous reinforcing fiber bundle (A) and 0.1 to 20 wt % of a poly(phenylene ether ether ketone) oligomer (B); and 30 to 98.9 wt % of a thermoplastic resin (C) adhering to the composite, wherein the component (B) has a melting point of not higher than 270° C. Also provided are a method for molding the molding material, a method for producing the molding material, and a method for producing a fiber-reinforced composite material. | 06-05-2014 |
Kohei Yamashita, Miyagi JP
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20150318220 | PLASMA PROCESSING APPARATUS AND MEASUREMENT METHOD - There is provided a plasma processing apparatus, which includes: a processing chamber into which a target substrate is loaded and in which a dopant is implanted into the target substrate using a plasma of a gas which contains an element used as the dopant; a wall probe configured to measure a change in voltage corresponding to a density of charged particles in the plasma generated within the processing chamber; an OES (Optical Emission Spectrometer) configured to measure a light emission intensity of the dopant existing in the plasma; and a calculation unit configured to calculate a dose amount of the dopant implanted into the target substrate, based on a measurement result obtained at the wall probe and a measurement result obtained at the OES. | 11-05-2015 |