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101. 发明授权

US09611559B2 Nano-structure and method of making the same 有权
公开(公告)号：US09611559B2
公开(公告)日：2017-04-04
申请号：US13822070
申请日：2010-10-21
申请人： Peter Mardilovich , Qingqiao Wei , Irina Nikolaevna Milonova , Anthony M. Fuller
发明人： Peter Mardilovich , Qingqiao Wei , Irina Nikolaevna Milonova , Anthony M. Fuller
IPC分类号： C25D1/00 , B81C1/00 , C25D11/12 , C25D11/24 , C25D11/26 , C25D11/04
CPC分类号： C25D1/006 , B81C1/00031 , B81C2201/013 , B81C2201/0197 , C25D11/045 , C25D11/08 , C25D11/10 , C25D11/12 , C25D11/24 , C25D11/26
摘要： A nano-structure includes an oxidized layer, and at least two sets of super nano-pillars positioned on the oxidized layer. Each of the at least two sets of super nano-pillars includes a plurality of super nano-pillars, where each set is separated a spaced distance from each other set.

102. 发明申请

US20170044684A1 COSMETIC ANODIC OXIDE COATINGS 审中-公开
标题翻译：化妆品阳极氧化涂料
公开(公告)号：US20170044684A1
公开(公告)日：2017-02-16
申请号：US15339813
申请日：2016-10-31
申请人： Apple Inc.
发明人： Masashige TATEBE , Jody R. AKANA , Takahiro OSHIMA , Peter N. RUSSELL-CLARKE , Ayumi HONGOU , Kenji HARA
IPC分类号： C25D11/22 , C25D11/24 , C25D11/08
CPC分类号： C25D11/22 , C25D11/045 , C25D11/08 , C25D11/10 , C25D11/12 , C25D11/18 , C25D11/20 , C25D11/24 , C25D11/243 , C25D11/246
摘要： The embodiments described herein relate to anodizing and anodized films. The methods described can be used to form opaque and white anodized films on a substrate. In some embodiments, the methods involve forming anodized films having branched pore structures. The branched pore structure provides a light scattering medium for incident visible light, imparting an opaque and white appearance to the anodized film. In some embodiments, the methods involve infusing metal complex ions within pores of an anodized. Once within the pores, the metal complex ions undergo a chemical change forming metal oxide particles. The metal oxide particles provide a light scattering medium for incident visible light, imparting an opaque and white appearance to the anodized film. In some embodiments, aspects of the methods for creating irregular or branched pores and methods for infusing metal complex ions within pores are combined.
摘要翻译：本文所述的实施例涉及阳极氧化和阳极氧化膜。所描述的方法可用于在基底上形成不透明和白色阳极氧化膜。在一些实施方案中，所述方法涉及形成具有支链孔结构的阳极氧化膜。支化孔结构为入射可见光提供光散射介质，赋予阳极氧化膜不透明和白色外观。在一些实施方案中，所述方法包括将金属络合物离子浸入阳极氧化的孔内。一旦在孔内，金属络合物离子经历化学变化形成金属氧化物颗粒。金属氧化物颗粒提供用于入射可见光的光散射介质，对阳极氧化膜赋予不透明和白色外观。在一些实施方案中，组合用于产生不规则或分支孔的方法和用于在孔内注入金属络合物离子的方法。

103. 发明申请

US20170028591A1 MOLD, METHOD FOR PRODUCING MOLD, ANTI-REFLECTION FILM AND METHOD FOR PRODUCING ANTI-REFLECTION FILM 审中-公开
标题翻译：模具，用于生产模具的方法，防反射膜和用于生产抗反射膜的方法
公开(公告)号：US20170028591A1
公开(公告)日：2017-02-02
申请号：US15303049
申请日：2015-04-09
申请人： Sharp Kabushiki Kaisha
发明人： Takahiro NAKAHARA , Miho YAMADA , Kiyoshi MINOURA
IPC分类号： B29C33/38 , B29C35/08 , B29C33/42 , C23C14/18 , B29C33/76 , C25D11/04 , C23F1/36 , B29C59/04 , B29C33/60
CPC分类号： B29C33/3842 , B29C33/38 , B29C33/3828 , B29C33/424 , B29C33/56 , B29C33/60 , B29C33/76 , B29C35/0805 , B29C59/046 , B29C2033/426 , B29C2035/0827 , B29K2033/08 , B29K2105/20 , B29K2667/003 , B29K2905/02 , B29K2995/0018 , C23C14/185 , C23F1/20 , C23F1/36 , C25D11/04 , C25D11/12 , C25D11/16 , C25D11/24 , G02B1/118
摘要： A manufacturing method of a mold includes the steps of: providing an aluminum base in the shape of a hollow cylinder which is made of a Al—Mg—Si based aluminum alloy, the aluminum base being mechanically mirror-finished; performing a frosting treatment on a surface of the aluminum base with an aqueous solution which contains a salt of hydrogen fluoride and ammonium; thereafter, forming an inorganic material layer on the surface of the aluminum base and forming an aluminum film on the inorganic material layer, thereby forming a mold base; and alternately repeating anodization and etching on a surface of the aluminum film of the mold base, thereby forming an inverted moth-eye structure which has a plurality of micro recessed portions.
摘要翻译：模具的制造方法包括以下步骤：提供由Al-Mg-Si基铝合金制成的中空圆筒形状的铝基座，铝基座机械镜面抛光; 用含有氟化氢和铵盐的水溶液对铝基材的表面进行结霜处理; 然后，在铝基材的表面上形成无机材料层，在无机材料层上形成铝膜，形成模具基体; 并且在模座的铝膜的表面上交替重复阳极氧化和蚀刻，从而形成具有多个微凹部的反转蛾眼结构。

104. 发明授权

US09551793B2 Ordering structure of scintillator and fabrication method 有权
标题翻译：闪烁体的订购结构及制作方法
公开(公告)号：US09551793B2
公开(公告)日：2017-01-24
申请号：US14312251
申请日：2014-06-23
申请人： NATIONAL CHUNG-SHAN INSTITUTE OF SCIENCE AND TECHNOLOGY
发明人： Ker-Jer Huang , Deng-Horng Tsai , Tsan-Nan Yang , Soon-Lin Chen , Chien-Chon Chen
IPC分类号： C25D11/02 , G01T1/20 , G01T1/00 , C25D1/02 , B44C1/22 , C23C18/18 , C23C18/16 , C25D11/04 , C25D11/08 , C25D11/12 , C25D11/16 , C25D11/24 , C25D11/26 , C25F3/20 , C23C18/36 , C23G1/12 , G01T1/202
CPC分类号： G01T1/003 , B44C1/227 , C23C18/1616 , C23C18/1879 , C23C18/36 , C23G1/125 , C25D1/02 , C25D11/045 , C25D11/08 , C25D11/12 , C25D11/16 , C25D11/24 , C25D11/26 , C25F3/20 , G01T1/2006 , G01T1/202
摘要： An ordering structure scintillator of scintillator and fabrication method is disclosed. The ordering structure scintillator of scintillator comprises: a tubular template, which consists of a plurality of thin film oxidized metal tubes; a plurality of scintillators, filled in the thin film oxidized metal tubes; and a package layer, formed on the surface of the tubular template for protecting the tubular template. In addition, through the fabrication method, the ordering structure scintillator of scintillator can be made by anodic treatment and die casting technology with low cost and rapid production; moreover, the film oxidized metal tubes of the tubular template can be further manufactured to nano tubes by adjusting electrolyte composition, electrolysis voltage, and processing time of anodic treatment, and the aperture size, the thickness and the vessel density of the nano tube can be controlled and ranged from 10 nm to 500 nm, 0.1 μm to 1000 μm, and 108 to 1012 tube/cm2, respectively.
摘要翻译：公开了闪烁体的排序结构闪烁体和制造方法。闪烁体的有序结构闪烁体包括：管状模板，由多个薄膜氧化金属管组成; 多个闪烁体，填充在薄膜氧化金属管中; 以及形成在管状模板的表面上用于保护管状模板的封装层。另外，通过制造方法，可以通过阳极处理和压铸技术以低成本，快速的生产制造闪烁体的有序结构闪烁体; 此外，可以通过调节电解质组成，电解电压和阳极处理的处理时间，将管状模板的膜氧化金属管进一步制造成纳米管，并且可以将纳米管的孔径，厚度和容器密度控制范围为10nm至500nm，0.1μm至1000μm，108至1012管/ cm2。

105. 发明申请

US20160376725A1 METHOD FOR PERFORMING ELECTROPOLISHING TREATMENT ON ALUMINUM MATERIAL 审中-公开
标题翻译：铝材料电解处理方法
公开(公告)号：US20160376725A1
公开(公告)日：2016-12-29
申请号：US15102985
申请日：2014-10-31
申请人： NIPPON LIGHT METAL COMPANY, LTD.
发明人： Yusuke SEKI , Ken EBIHARA
IPC分类号： C25F3/20 , C25D11/24 , C25D11/18 , C25D11/20
CPC分类号： C25F3/20 , C25D11/04 , C25D11/06 , C25D11/18 , C25D11/20 , C25D11/24
摘要： Provided is a method of performing electropolishing treatment on an aluminum material, which is capable of easily producing an aluminum material having an excellent outer appearance with luster and uniformity on an industrial scale. The method of performing electropolishing treatment on an aluminum material includes immersing the aluminum material in an electrolytic treatment solution in an electrolytic treatment tank, and applying an electrolysis voltage through use of the aluminum material as an anode, to thereby perform electropolishing treatment on a surface of the aluminum material, the method including: performing, as pretreatment for the electropolishing treatment, anodic oxidation treatment; performing, during the electropolishing treatment, bubble-diffusion-preventing treatment; and performing, as post-treatment for the electropolishing treatment, film peeling treatment for an electropolishing film.
摘要翻译：提供一种对铝材进行电解抛光处理的方法，其能够容易地以工业规模生产具有优异外观的铝合金材料，具有光泽和均匀性。对铝材进行电解抛光处理的方法包括将铝材浸入电解处理槽中的电解处理液中，并通过使用铝材作为阳极施加电解电压，从而对其表面进行电解抛光处理该铝材料的方法包括：进行电抛光处理的预处理，进行阳极氧化处理; 在电抛光处理期间进行气泡扩散防止处理; 作为电抛光处理的后处理，进行电抛光膜的剥离处理。

106. 发明授权

US09512536B2 Methods for forming white anodized films by metal complex infusion 有权
标题翻译：通过金属络合物输注形成白色阳极氧化膜的方法
公开(公告)号：US09512536B2
公开(公告)日：2016-12-06
申请号：US14040528
申请日：2013-09-27
申请人： Apple Inc.
发明人： Masashige Tatebe , Jody R. Akana , Takahiro Oshima , Peter N. Russell-Clarke , Ayumi Hongou , Kenji Hara
IPC分类号： C25D11/22 , C25D11/04 , C25D11/20 , C25D11/24 , C25D11/10 , C25D11/18
CPC分类号： C25D11/22 , C25D11/045 , C25D11/08 , C25D11/10 , C25D11/12 , C25D11/18 , C25D11/20 , C25D11/24 , C25D11/243 , C25D11/246
摘要： The embodiments described herein relate to anodizing and anodized films. The methods described can be used to form opaque and white anodized films on a substrate. In some embodiments, the methods involve forming anodized films having branched pore structures. The branched pore structure provides a light scattering medium for incident visible light, imparting an opaque and white appearance to the anodized film. In some embodiments, the methods involve infusing metal complex ions within pores of an anodized. Once within the pores, the metal complex ions undergo a chemical change forming metal oxide particles. The metal oxide particles provide a light scattering medium for incident visible light, imparting an opaque and white appearance to the anodized film. In some embodiments, aspects of the methods for creating irregular or branched pores and methods for infusing metal complex ions within pores are combined.
摘要翻译：本文所述的实施例涉及阳极氧化和阳极氧化膜。所描述的方法可用于在基底上形成不透明和白色阳极氧化膜。在一些实施方案中，所述方法涉及形成具有支链孔结构的阳极氧化膜。支化孔结构为入射可见光提供光散射介质，赋予阳极氧化膜不透明和白色外观。在一些实施方案中，所述方法包括将金属络合物离子浸入阳极氧化的孔内。一旦在孔内，金属络合物离子经历化学变化形成金属氧化物颗粒。金属氧化物颗粒提供用于入射可见光的光散射介质，对阳极氧化膜赋予不透明和白色外观。在一些实施方案中，组合用于产生不规则或分支孔的方法和用于在孔内注入金属络合物离子的方法。

107. 发明申请

US20160258069A1 ALUMINUM NANOWIRE ARRAYS AND METHODS OF PREPARATION AND USE THEREOF 审中-公开
标题翻译：纳米铝制阵列及其制备和使用方法
公开(公告)号：US20160258069A1
公开(公告)日：2016-09-08
申请号：US15059200
申请日：2016-03-02
申请人： The Trustees of Boston College
发明人： Nathan T. Nesbitt , Michael J. Naughton
IPC分类号： C23F1/16
CPC分类号： C25F3/20 , C25B1/003 , C25D11/022 , C25D11/045 , C25D11/16 , C25D11/24 , H01L21/0223 , H01L29/66818 , H01L31/0352
摘要： The invention provides a novel, template-free process for the fabrication of metal nanowires of novel dimensions. The unconventional method produces highly ordered and freestanding aluminum nanowire arrays.
摘要翻译：本发明提供了一种用于制造新颖尺寸的金属纳米线的新颖的，无模板的方法。非常规方法产生高度有序和独立的铝纳米线阵列。

108. 发明申请

US20160177104A1 METAL MEMBER HAVING EXCELLENT CORROSION RESISTANCE, METHOD FOR PRODUCING THE SAME, AND MATERIAL AND METHOD FOR REPAIRING METAL MEMBER 有权
标题翻译：具有优异耐腐蚀性的金属构件及其制造方法，以及用于修复金属构件的材料和方法
公开(公告)号：US20160177104A1
公开(公告)日：2016-06-23
申请号：US14763346
申请日：2015-02-10
申请人： SUZUKI MOTOR CORPORATION
发明人： Masahiro Fujita , Shintaro Ono
IPC分类号： C09D5/08
CPC分类号： C09D5/084 , C09D5/086 , C23C22/66 , C23C22/83 , C25D11/08 , C25D11/24
摘要： An object is to provide an environmentally benign metal member having excellent corrosion resistance which exhibits a long-lasting corrosion resistance effect even in a saltwater environment or the like in which a water current is present, without requiring an external factor such as ultraviolet light. Provided is a metal member having excellent corrosion resistance in which at least a surface is made of an aluminum-based metal, the metal member comprising a corrosion protection film containing a poorly water-soluble lithium compound on the surface or a solid material containing a poorly water-soluble lithium compound on the surface.
摘要翻译：本发明的目的是提供一种耐腐蚀性优异的环境友好的金属构件，即使在存在水流的盐水环境等中也不会产生紫外线等外部因素，因此具有持久的耐腐蚀性。提供一种具有优异耐腐蚀性的金属构件，其中至少表面由铝基金属制成，金属构件包括在表面上含有难溶于水的锂化合物的腐蚀保护膜或含有不良的固体材料水溶性锂化合物在表面。

109. 发明申请

US20160153104A1 METHOD FOR MANUFACTURING METAL-FILLED MICROSTRUCTURE 审中-公开
标题翻译：制造金属填充微结构的方法
公开(公告)号：US20160153104A1
公开(公告)日：2016-06-02
申请号：US15019370
申请日：2016-02-09
申请人： FUJIFILM Corporation
发明人： Kosuke YAMASHITA
IPC分类号： C25D1/20 , H01L23/00
CPC分类号： C25D1/20 , C25D1/006 , C25D1/10 , C25D3/38 , C25D11/045 , C25D11/20 , C25D11/24 , H01L24/27 , H01R12/7076 , H01R2201/20 , H05K3/32 , H05K2203/162
摘要： An object of the present invention is to provide a method for manufacturing a metal-filled microstructure, capable of easily filling micropores with metal and suppressing the generation of residual stress caused by metal filling. A method for manufacturing a metal-filled microstructure according to the present invention includes: an anodic oxidation treatment step of anodically oxidizing a single surface of an aluminum substrate to form an anodic oxidation film on the single surface of the aluminum substrate, the anodic oxidation film including micropores, which are present in a thickness direction, and a barrier layer which is present in a bottom portion of the micropores; a barrier layer removal step of removing the barrier layer of the anodic oxidation film after the anodic oxidation treatment step; a metal filling step of filling the inside of the micropores with metal through an electroplating treatment after the barrier layer removal step; and a substrate removal step of removing the aluminum substrate to obtain a metal-filled microstructure after the metal filling step.
摘要翻译：本发明的目的是提供一种能够容易地用金属填充微孔并抑制由金属填充引起的残余应力的产生的金属填充微结构的制造方法。根据本发明的制造金属填充微结构的方法包括：阳极氧化处理步骤，阳极氧化铝基板的单面以在铝基板的单个表面上形成阳极氧化膜，阳极氧化膜包括存在于厚度方向的微孔和存在于微孔的底部的阻挡层; 在阳极氧化处理步骤之后去除阳极氧化膜的阻挡层的阻挡层去除步骤; 在阻挡层去除步骤之后通过电镀处理用金属填充微孔内部的金属填充步骤; 以及去除铝基板以在金属填充步骤之后获得金属填充的微结构的基板去除步骤。

110. 发明授权

US09304445B2 Developing roller, developing device, image forming apparatus, and manufacturing method of developing roller 有权
标题翻译：显影辊，显影装置，成像装置和显影辊的制造方法
公开(公告)号：US09304445B2
公开(公告)日：2016-04-05
申请号：US14574266
申请日：2014-12-17
申请人： KYOCERA Document Solutions Inc.
发明人： Masashi Fujishima , Yuji Kamiyama , Tamotsu Shimizu , Shizuka Okada , Sakae Saito , Yasuhiro Oishi
IPC分类号： G03G15/09 , G03G15/08 , C23C28/00 , C25D11/18 , C25D9/06
CPC分类号： G03G15/09 , C08K2003/2237 , C09D5/24 , C09D7/61 , C09D7/67 , C23C28/00 , C25D9/06 , C25D11/024 , C25D11/08 , C25D11/10 , C25D11/18 , C25D11/24 , G03G15/0808 , G03G15/0818 , G03G15/0928
摘要： A developing roller includes a roller main body disposed to face, without contact, an outer circumferential surface of an image carrier. The roller main body includes an aluminum oxide thin film and a resin coat layer, the aluminum oxide thin film being formed on an outer circumferential surface of a base body that is made of a metal including aluminum, the resin coat layer being formed on a surface of the aluminum oxide thin film that has been subjected to a predetermined heating process, the resin coat layer being made of a resin material and having electric conductivity.
摘要翻译：显影辊包括辊状主体，其被设置为面对而不接触图像载体的外周表面。辊主体包括氧化铝薄膜和树脂涂层，氧化铝薄膜形成在由包括铝的金属制成的基体的外周面上，树脂涂层形成在表面上的已经进行了预定加热处理的氧化铝薄膜，树脂涂层由树脂材料制成并具有导电性。

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