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公开(公告)号:US12037507B2
公开(公告)日:2024-07-16
申请号:US17287772
申请日:2019-11-05
Inventor: Keiko Ohtsuka , Morio Yonekawa , Hajime Kimura , Ken Yoshioka , Nobuhiro Kanamaru , Masaki Suwa , Kazumi Machida
IPC: C08K3/22 , C08F212/34 , C08F234/00 , C09D7/61 , C09D125/18 , C09D145/00 , H01B3/30 , H01C7/00
CPC classification number: C09D125/18 , C08F212/34 , C08F234/00 , C08K3/22 , C09D7/61 , C09D145/00 , H01B3/303 , H01C7/005 , C08K2003/2227 , C08K3/22 , C08L65/00
Abstract: This invention provides a resin composition for preparing an allylphenol-maleimide copolymer used for a protective film for an electronic component including: (A) an allyl group-containing phenol compound having a rigid structure; (B) an N-aromatic maleimide group-containing compound having a rigid structure; and (C) an N-aliphatic maleimide group-containing compound having a flexible structure.
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公开(公告)号:US20240010813A1
公开(公告)日:2024-01-11
申请号:US18251966
申请日:2021-11-05
Inventor: Atsutaka KATO , Mari YAMAMOTO , Masanari TAKAHASHI , Futoshi UTSUNO , Hiroyuki HIGUCHI
IPC: C08K3/32 , C08L53/02 , H01M10/052 , H01M10/0562 , H01M4/13 , H01M4/62 , H01B1/10
CPC classification number: C08K3/32 , C08L53/02 , H01M10/052 , H01M10/0562 , H01M4/13 , H01M4/622 , H01B1/10 , C08L2207/04 , C08L2203/20 , H01M2300/0068
Abstract: A resin composition containing a compound including phosphorus and sulfur as constituent elements and having a disulfide bond, and a thermoplastic resin.
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公开(公告)号:US20220376291A1
公开(公告)日:2022-11-24
申请号:US17626939
申请日:2020-07-17
Inventor: Atsutaka KATO , Mari YAMAMOTO , Masanari TAKAHASHI , Futoshi UTSUNO , Hiroyuki HIGUCHI
IPC: H01M10/0562 , C01B25/14 , H01M4/62
Abstract: A compound comprising phosphorus atoms and sulfur atoms as constituent elements and having a peak in Raman spectroscopy, the peak being attributable to a disulfide bond bonding between two phosphorus atoms.
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公开(公告)号:US20220373427A1
公开(公告)日:2022-11-24
申请号:US17705575
申请日:2022-03-28
Inventor: Akira HOSOYAMA , Yuji NAKAURA , Yoshikado YAMAUCHI
IPC: G01M7/02
Abstract: The present invention proposes a parameter that appropriately characterizes non-Gaussianity in a random vibration test and realizes vibration control using the parameter. A vibration control system calculates a KRS of a response waveform. The system compares a reference KRS as a target and the response KRS, and controls a characteristic of a phase used to generate a waveform for control such that the response KRS becomes equal to the reference KRS. Upon generation of the waveform for control, the waveform for control is generated by applying an appropriate random phase to each frequency component of an amplitude corresponding to PSD for control. The system controls a characteristic of this random phase (for example, standard deviation of phase distribution, or the like) per frequency, and controls the KRS of the waveform for control. The system deforms the waveform for control on the basis of an equalization characteristic, for which a transfer function of the system is taken into consideration, and calculates a drive waveform. The system sequentially updates the equalization characteristic on the basis of the response waveform and the drive waveform. The calculated drive waveform is converted into a drive signal by a D/A convertor 26, is amplified by an amplifier 28, and is provided to a vibration generator 2.
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公开(公告)号:US20220117083A1
公开(公告)日:2022-04-14
申请号:US17417506
申请日:2019-12-18
Inventor: Kohei HAYASHI , Soichi OBATA , Yasuhiro SHIROTANI , Masashi NITANI , Mayumi UNO , Kazuki MAEDA
Abstract: The present invention relates to a patterned fiber substrate comprising: a fiber substrate; and a pattern consisting of a functional material and formed on the fiber substrate, wherein at least a part of the functional material that constitutes the pattern is present in inside of the fiber substrate, the fiber substrate has a contact angle of 100 to 170° with pure water on its surface, and the pattern has a narrowest line width of 1 to 3000 μm.
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Patent Agency Ranking
公开(公告)号:US20210388227A1
公开(公告)日:2021-12-16
申请号:US17287772
申请日:2019-11-05
Inventor: Keiko OHTSUKA , Morio YONEKAWA , Hajime KIMURA , Ken YOSHIOKA , Nobuhiro KANAMARU , Masaki SUWA , Kazumi MACHIDA
IPC: C09D125/18 , C09D145/00 , C08F234/00 , C08F212/34 , C08K3/22 , C09D7/61 , H01B3/30 , H01C1/14 , H01C7/00
Abstract: This invention provides a resin composition for preparing an allylphenol-maleimide copolymer used for a protective film for an electronic component including: (A) an allyl group-containing phenol compound having a rigid structure; (B) an N-aromatic maleimide group-containing compound having a rigid structure; and (C) an N-aliphatic maleimide group-containing compound having a flexible structure.
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公开(公告)号:US11046787B2
公开(公告)日:2021-06-29
申请号:US16612552
申请日:2018-05-09
Inventor: Joji Kadota , Yasuyuki Agari , Hiroshi Hirano , Akinori Okada , Takaaki Imai
IPC: C08B15/00 , C08G63/08 , C08K5/3432
Abstract: Provided are a polylactide-grafted cellulose nanofiber that is suitable as a molding material, and a production method thereof. A polylactide-grafted cellulose nanofiber includes grafted cellulose having a graft chain bonding to cellulose constituting a cellulose nanofiber, wherein the graft chain is a polylactide, and a ratio of an absorbance derived from C═O of the polylactide to an absorbance derived from O—H of the cellulose on an infrared absorption spectrum is no less than 0.01 and no greater than 1,000. In addition, a production method of a polylactide-grafted cellulose nanofiber includes carrying out graft polymerization of a lactide to cellulose constituting a cellulose nanofiber in the presence of an organic polymerization catalyst which includes an amine and a salt obtained by reacting the amine with an acid. As the organic polymerization catalyst, 4-dimethylaminopyridine and 4-dimethylaminopyridinium triflate are preferred.
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公开(公告)号:US20200344880A1
公开(公告)日:2020-10-29
申请号:US16962171
申请日:2018-12-25
Inventor: Mayumi UNO , Kazuki MAEDA , Masashi NITANI , Busang CHA , Junichi TAKEYA
Abstract: A flexible substrate and an electronic device having high flexibility as a whole including an element mounting portion and a connection terminal portion, and a production method of the electronic device are provided. The flexible substrate includes a flexible base, and a conductive wiring made of a conductive organic compound formed on the base, wherein part of the conductive wiring serves as a connection part with another electronic member. Further, an electronic device 100 includes flexible bases 11 and 21, conductive wirings 13 and 23 made of a conductive organic compound formed on the bases, and electronic elements 12 and 22 connected to the conductive wirings, wherein part of the conductive wiring serves as a connection part 30 with another substrate.
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9.发明申请公开(公告)号:US20200206796A1
公开(公告)日:2020-07-02
申请号:US16469780
申请日:2017-12-28
Applicant: ISHIZAKI PRESS INDUSTRIAL CO., LTD. , OSAKA RESEARCH INSTITUTE OF INDUSTRIAL SCIENCE AND TECHNOLOGY
Inventor: Taizo ISHIZAKI , Naruaki SHINOMIYA , Nobuhiko SHIRAKAWA
Abstract: The manufacturing apparatus for a metal component includes: a preheating portion configured to locally induction-heat a metal plate; and a stamping portion configured to stamp the metal plate. The preheating portion includes a heating coil. The heating coil is arranged such that an axial direction of the heating coil is along a movement direction of the pressing portion and the heating coil faces, in the axial direction, an area where an amount of deformation is relatively large in a processing region of the metal plate to be stamped by the stamping portion. The heating coil is configured such that at least a part of the area where the amount of deformation is relatively large in the processing region of the metal plate is heated to a higher temperature than an area where the amount of deformation is relatively small in the processing region.
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公开(公告)号:US12084745B2
公开(公告)日:2024-09-10
申请号:US17192125
申请日:2021-03-04
Inventor: Ryusuke Tsubota , Yohei Oka , Akira Okamoto , Takayuki Nakamoto , Takahiro Sugahara , Naruaki Shinomiya , Mamoru Takemura , Sohei Uchida
IPC: C22C1/04 , B22F3/24 , B22F10/00 , B22F10/25 , B22F10/28 , B22F10/32 , B22F10/36 , B22F10/64 , B33Y10/00 , B33Y70/00 , C22C9/00 , C22C9/06 , C22F1/08 , B22F10/80 , B22F12/41 , B22F12/67 , B33Y80/00
CPC classification number: C22C1/0425 , B22F3/24 , B22F10/00 , B22F10/28 , B22F10/64 , B33Y70/00 , C22C9/00 , C22C9/06 , C22F1/08 , B22F2003/248 , B22F10/25 , B22F10/32 , B22F10/36 , B22F10/80 , B22F12/41 , B22F12/67 , B22F2998/10 , B33Y10/00 , B33Y80/00 , Y02P10/25 , B22F2998/10 , B22F10/00 , B22F2003/248 , B22F2998/10 , B22F10/28 , B22F2003/248
Abstract: A copper alloy powder is a copper alloy powder for additive manufacturing. The copper alloy powder contains more than 1.00 mass % and not more than 2.80 mass % of chromium, and a balance of copper. A method for producing an additively-manufactured article includes a first step of preparing a copper alloy powder containing more than 1.00 mass % and not more than 2.80 mass % of chromium and a balance of copper and a second step of producing the additively-manufactured article from the copper alloy powder, and the additively-manufactured article is produced such that forming a powder layer including the copper alloy powder, and solidifying the copper alloy powder at a predetermined position in the powder layer to form a shaped layer are sequentially repeated to stack such shaped layers to thus produce the additively-manufactured article.
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