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公开(公告)号:US20240263314A1
公开(公告)日:2024-08-08
申请号:US18638651
申请日:2024-04-17
发明人: Jing FENG , Lin CHEN , Xiaoyu CHONG , Jianyu LI , Jianbo SONG , Luyang ZHANG , Jiankun WANG
IPC分类号: C23C28/04 , C04B35/80 , C04B35/83 , C04B41/45 , C04B41/50 , C04B41/51 , C04B41/52 , C08J5/24 , C23C4/11 , C23C14/20 , C23C14/30 , C23C14/58 , C23C24/04
CPC分类号: C23C28/042 , C04B35/80 , C04B35/83 , C04B41/4533 , C04B41/5072 , C04B41/5133 , C04B41/524 , C08J5/241 , C08J5/242 , C08J5/243 , C08J5/244 , C08J5/246 , C23C4/11 , C23C14/20 , C23C14/30 , C23C14/5853 , C23C24/04 , C04B2235/3826 , C04B2235/422 , C04B2235/5244 , C04B2235/5248
摘要: A UAV surface coating includes at least a bonding layer, an antioxidant layer, an oxygen-blocking propagation layer and a heat-insulation cooling layer. The coating is fabricated on a surface of a UAV machine body or covers on the surface of the UAV machine body through a composite material matrix. The UAV machine body is made of lightweight material, and the composite material matrix includes a resin-based composite matrix and a ceramic-based composite matrix. Wherein, a thickness of the bonding layer is from 20 μm to 200 μm, a thickness of the oxygen-blocking propagation layer is from 20 μm to 200 μm, and a thickness of the heat-insulation cooling layer is from 80 μm to 1000 μm.
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公开(公告)号:US12051521B2
公开(公告)日:2024-07-30
申请号:US17551175
申请日:2021-12-14
申请人: FENG CHIA UNIVERSITY
发明人: Jia-Lin Syu , Ying-Hung Chen , Ping-Yen Hsieh , Chu-Liang Ho
CPC分类号: H01B1/08 , C23C14/08 , C23C14/20 , C23C14/352 , H01B1/02
摘要: The invention discloses a flexible transparent conductive composite film and the manufacturing method thereof. The aforementioned flexible transparent conductive composite film is formed by depositing the first target material and the second target material in an alternating manner by HiPIMS. Therefore, the post-anneal step of the traditional method can be omitted, and the manufacturing efficiency of the flexible transparent conductive composite films is significantly improved.
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3.
公开(公告)号:US20240247364A1
公开(公告)日:2024-07-25
申请号:US18450956
申请日:2023-08-16
发明人: Ramkrishna RANE , Akshay VAID , Alphonsa JOSEPH , N. I. JAMNAPARA
CPC分类号: C23C14/35 , A61L15/42 , C23C14/20 , A61L2300/404
摘要: A cylindrical magnetron sputtering assembly for coating on a flexible polymeric substrates with an antimicrobial material, said assembly comprising a sputtering setup and a cylindrical magnetron assembly; said cylindrical magnetron assembly being mounted in said sputtering setup: wherein said cylindrical magnetron assembly comprises: at least one cylindrical anode with slots mounted on a top base plate; at least one central target cylindrical cathode positioned at the center of said anode; a mechanical assembly for moving plurality of said flexible polymeric substrates; said mechanical assembly comprising at least one winder, at least one unwinder, plurality of pulleys and plurality of motors; said sputtering setup comprising plurality of magnetic field coils, vacuum chamber and plurality of power supply. Also provided is process for producing antimicrobial coating on flexible polymeric substrates by the cylindrical magnetron sputtering assembly.
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公开(公告)号:US12012494B2
公开(公告)日:2024-06-18
申请号:US16956532
申请日:2018-12-12
发明人: Christopher Schirwitz , Michael Erkelenz , Birte Sämisch , Rainer Protte , Martin Döbler , Eckhard Wenz
CPC分类号: C08J7/06 , C08K3/04 , C08K3/34 , C08K3/38 , C08K7/24 , C23C14/20 , C23C14/58 , C08J2369/00 , C08J2423/26 , C08K2003/385 , C08K2201/003
摘要: The invention relates to a multilayer body comprising at least one substrate layer, a metal layer bonded directly thereto and optionally at least one protective layer atop the metal layer, wherein the substrate layer comprises a composition which is obtained by mixing polycarbonate, talc and a specific wax. It was shown that the multilayer bodies obtained are particularly suitable for use as reflectors and (housing) components for light sources and heat sources and displays.
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公开(公告)号:US11702730B2
公开(公告)日:2023-07-18
申请号:US17929830
申请日:2022-09-06
申请人: MINEBEA MITSUMI Inc.
发明人: Toshiaki Asakawa , Yuta Aizawa , Shinya Toda , Shintaro Takata , Shinichi Niwa
CPC分类号: C23C14/20 , C23C14/0063 , C23C14/0652 , C23C14/08 , C23C14/10 , G01B7/16 , G01L1/22 , G01L1/2281
摘要: A strain gauge includes a flexible substrate and a functional layer formed of a metal, an alloy, or a metal compound, the functional layer being directly on one surface of the substrate. The strain gauge includes a resistor formed of a film that includes Cr, CrN, and Cr2N and that is formed with α-Cr as a main component. The functional layer includes a function of promoting crystal growth of α-Cr and forming an α-Cr based film.
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公开(公告)号:US20230183850A1
公开(公告)日:2023-06-15
申请号:US17998360
申请日:2021-05-10
申请人: The Provost, Fellows, Foundation Scholars, and the other Members of Board, Of The College Of The Hol
CPC分类号: C23C14/04 , H01B13/0036 , C23C14/30 , C23C14/20 , D01D5/003
摘要: The present invention relates to methods of preparing nanowire networks, as well as to nanowire networks prepared thereby. The method comprises (a) providing a substrate coated with a film of a first polymer; (b) depositing nanofibers of a second polymer onto the film to form a patterned layer comprising a nanofibre network structure; (c) depositing a layer of a first metal onto the patterned layer; (d) performing a solvent development step to selectively remove the nanofibers leaving a negative pattern exposing the first polymer film; (e) performing an etching step to remove the exposed polymer film; (f) depositing a second metal or oxide thereof onto the negative pattern to form a tem plated nanowire network; and (g) performing a lift-off step to expose the nanowire network.
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7.
公开(公告)号:US11661507B2
公开(公告)日:2023-05-30
申请号:US17930839
申请日:2022-09-09
CPC分类号: C08L23/12 , C08J5/18 , H01G4/14 , H01G4/32 , C08J2323/12 , C08J2423/12 , C23C14/20
摘要: A polypropylene film which is capable of suppressing blocking in a rolled polypropylene film. The polypropylene film has a first surface and a second surface, contains a polypropylene resin as a main component, and is configured such that: the Svk value (SvkA) of the first surface is 0.005 μm or more and 0.030 μm or less; the Spk value (SpkA) of the first surface is more than 0.035 μm and 0.080 μm or less; the Svk value (SvkB) of the second surface is 0.005 μm or more and 0.030 μm or less; and the Spk value (SpkB) of the second surface is 0.015 μm or more and 0.035 μm or less.
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公开(公告)号:US11655377B2
公开(公告)日:2023-05-23
申请号:US16707363
申请日:2019-12-09
摘要: An inorganic paint pigment may include a fluid matrix, and paint flakes carried within the fluid matrix. Each paint flake may include a common aluminum layer having a first major surface and a second major surface opposing the first major surface, a first plasmonic aluminum reflector layer carried by the first major surface, and a second plasmonic aluminum reflector layer carried by the second major surface.
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公开(公告)号:US20180327612A1
公开(公告)日:2018-11-15
申请号:US16031003
申请日:2018-07-10
申请人: CELGARD, LLC
CPC分类号: C09D5/24 , C08J2323/06 , C08J2323/12 , C23C14/20
摘要: In one aspect, microporous membranes are described herein demonstrating composite architectures and properties suitable for electronic and/or optical applications. In some embodiments, a composite membrane described herein includes a microporous polymeric matrix or substrate having an interconnected pore structure and an index of refraction and an electrically conductive coating deposited over one or more surfaces of the microporous polymeric matrix. In other embodiments, the pores are filled and the membranes are substantially transparent.
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公开(公告)号:US20180133991A1
公开(公告)日:2018-05-17
申请号:US15646148
申请日:2017-07-11
申请人: OurPet's Company
发明人: Steven Tsengas
IPC分类号: B29D22/00 , A01K5/01 , A01K7/00 , A01K1/01 , B29C45/00 , B29C49/42 , B29C43/02 , B29C51/26 , C23C14/20 , C25D3/00
CPC分类号: B29D22/003 , A01K1/0107 , A01K5/0114 , A01K7/00 , B29C43/02 , B29C45/0053 , B29C49/42 , B29C51/261 , B29C69/00 , C23C14/20 , C23C14/205 , C23C18/1233 , C23C18/20 , C25D3/00 , C25D7/00
摘要: A variety of pet related products are provided formed initially of plastic and finalized with a metallized surface finish. The pet product is molded using injection molding, rotational molding, vacuum forming, blow molding, compression molding, thermoforming or other plastic forming techniques that can provide a structure having a shape that cannot be readily or economically shaped by metal stamping or other conventional metalworking method. The semi finished plastic part is then subjected to a metallizing process in an individualized non-contiguous manner, where a thin metallic layer is deposited on at least one of the product surfaces. The resultant pet product item simulates the appearance metal, and may provide the durability, cleanability and the general antimicrobial nature resulting metal surfaces.
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