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    • 2. 发明申请
      US20060065539A1 Anodic oxidation method and production for titanium oxide coating and method of supporting catalyst 失效
    • Anodic oxidation method and production for titanium oxide coating and method of supporting catalyst
    • 氧化钛涂层的阳极氧化法和生产方法及其催化剂的制备方法
    • US20060065539A1
    • 2006-03-30
    • US10526205
    • 2004-04-27
    • Hideo YoshidaKentaro AbeKiyohito Sakon
    • Hideo YoshidaKentaro AbeKiyohito Sakon
    • C25D9/00C25D11/00
    • C25D11/06B01J37/348C25D11/26
    • To provide an anodic oxidation method, a titanium oxide film manufacturing method and a catalyst carrying method which is suitable, for example, for anodic oxidation of aluminum, titanium and catalyst carrying on the surface of alumite (registered trademark), capable of generating an oxide film at a low cost and rapidly by eliminating the use of a strongly acid or strongly basic electrolytic solution and using a carbonated water as an electrolytic solution, capable of controlling the sealing treatment of oxide film through a simple method, capable of effecting the oxide film dyeing and catalyst carrying rationally and easily, and capable of effecting the catalyst carrying safely and surely without eroding a base material. An object (3) to be treated is electrolyzed in an electrolytic solution received in a treatment vessel (1) serving the object (3) as an anodic electrode. It is an anodic oxidation method in which an oxide film is generated on the surface of the object (3). A carbonated water of a predetermined acid concentration generated by dissolving a pressurized carbon dioxide in a predetermined quantity of water (7) is used as the electrolytic solution.
    • 为了提供阳极氧化法,可以使用氧化钛膜的制造方法和催化剂负载方法,该方法适用于例如在氧化铝(注册商标)的表面上承载的能够产生氧化物的铝,钛和催化剂的阳极氧化 薄膜,并且通过消除使用强酸或强碱性电解液并使用碳酸水作为电解液,能够通过简单的方法控制氧化膜的密封处理,能够实现氧化膜 染色和催化剂携带合理,容易,并且能够安全可靠地实现催化剂的输送,而不会侵蚀基材。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 4. 发明授权
      US07736442B2 Method for activating surface of base material and apparatus thereof 有权
    • Method for activating surface of base material and apparatus thereof
    • 激活基材表面的方法及其装置
    • US07736442B2
    • 2010-06-15
    • US11975263
    • 2007-10-18
    • Hideo YoshidaNobuyoshi SatoTakeshi SakoMasato SoneKentaro AbeKiyohito Sakon
    • Hideo YoshidaNobuyoshi SatoTakeshi SakoMasato SoneKentaro AbeKiyohito Sakon
    • B08B3/02
    • B08B3/04B08B3/02B08B7/02C25D5/34Y10S134/902
    • A method for activating the surface of a base material and an apparatus thereof, which is suited to be utilized for pretreatment in electrochemical treatment such as, for example, electroplating or the like, in which the surface of a base material such as metal can be subjected to degreasing treatment and oxide film removing treatment simultaneously, efficiently and rationally, in which productivity can be enhanced and the equipment cost can be reduced, and in which a waste solution can be rationalized so that the solution can be reutilized and the environmental pollution can be prevented. A method for activating the surface of a base material in which the surface of a member to be treated is subjected to degreasing treatment or oxide film removing treatment. Pressurized carbon dioxide is dissolved in a predetermined quantity of water, thereby preparing an oxide film removing solution having a predetermined acidic concentration.
    • 用于激活基材表面的方法及其装置,其适用于电化学处理例如电镀等中的预处理,其中诸如金属的基材的表面可以是 同时进行脱脂处理和氧化膜除去处理,能够高效合理地提高生产性,并且可以降低设备成本,并且其中废溶液可以合理化以使溶液可再利用并且环境污染可以 被阻止 一种激活基材的表面的方法,其中待处理部件的表面进行脱脂处理或氧化膜去除处理。 将加压的二氧化碳溶解在预定量的水中,从而制备具有预定酸性浓度的氧化膜去除溶液。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 5. 发明授权
      US07300527B2 Method for activating surface of base material and apparatus thereof 失效
    • Method for activating surface of base material and apparatus thereof
    • 激活基材表面的方法及其装置
    • US07300527B2
    • 2007-11-27
    • US10297878
    • 2002-11-06
    • Hideo YoshidaNobuyoshi SatoTakeshi SakoMasato SoneKentaro AbeKiyohito Sakon
    • Hideo YoshidaNobuyoshi SatoTakeshi SakoMasato SoneKentaro AbeKiyohito Sakon
    • B08B3/02
    • B08B3/04B08B3/02B08B7/02C25D5/34Y10S134/902
    • A method for activating the surface of a base material and an apparatus thereof, which is suited to be utilized for pretreatment in electrochemical treatment such as, for example, electroplating or the like, in which the surface of a base material such as metal can be subjected to degreasing treatment and oxide film removing treatment simultaneously, efficiently and rationally, in which productivity can be enhanced and the equipment cost can be reduced, and in which a waste solution can be rationalized so that the solution can be reutilized and the environmental pollution can be prevented. A method for activating the surface of a base material in which the surface of a member to be treated is subjected to degreasing treatment or oxide film removing treatment. Pressurized carbon dioxide is dissolved in a predetermined quantity of water, thereby preparing an oxide film removing solution having a predetermined acidic concentration.
    • 用于激活基材表面的方法及其装置,其适用于电化学处理例如电镀等中的预处理,其中诸如金属的基材的表面可以是 同时进行脱脂处理和氧化膜除去处理,能够高效合理地提高生产性,并且可以降低设备成本,并且其中废溶液可以合理化以使溶液可再利用并且环境污染可以 被阻止 一种激活基材的表面的方法,其中待处理部件的表面进行脱脂处理或氧化膜去除处理。 将加压的二氧化碳溶解在预定量的水中,从而制备具有预定酸性浓度的氧化膜去除溶液。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 6. 发明授权
      US07201972B2 Metal thin film dispersing a super-fine diamond particle, a metal material having the metal thin film, and a method for preparing the same 有权
    • Metal thin film dispersing a super-fine diamond particle, a metal material having the metal thin film, and a method for preparing the same
    • 分散超细金刚石颗粒的金属薄膜,具有金属薄膜的金属材料及其制备方法
    • US07201972B2
    • 2007-04-10
    • US10460660
    • 2003-06-13
    • Shigeru ShiozakiMasato SoneHideo YoshidaKiyohito SakonTadamasa Fujimura
    • Shigeru ShiozakiMasato SoneHideo YoshidaKiyohito SakonTadamasa Fujimura
    • B32B5/16B32B5/02B32B15/00C25C5/00
    • C25D15/02Y10T428/12486
    • There is provided a metal thin film comprising a metal plate and a diamond particle dispersed in the metal plate. According to the present invention, the metal thin film has a film thickness of 5 nm to 35000 nm. The diamond particle is dispersed almost homogeneously over the direction of the film thickness of the metal thin film. The metal thin film has the diamond particle at a concentration of 1 to 12%. According to the present invention, based on conversion into an equivalent circle, the diamond particle has a first particle size distribution with respect to a first particle of a first particle size of 16 nm or less, at a first number average existence rate of 50% or more; the diamond particle has a second particle size distribution with respect to a second particle having a second particle size of 50 nm or more, at a second number average existence rate of substantially 0%; and the diamond particle has a third particle size distribution with respect to a third particle having a third particle size of 2 nm or less, at a third number average existence rate of substantially 0%.
    • 提供了金属薄膜,其包括分散在金属板中的金属板和金刚石颗粒。 根据本发明,金属薄膜的膜厚为5nm〜35000nm。 金刚石颗粒在金属薄膜的膜厚方向上几乎均匀地分散。 金属薄膜的浓度为1〜12%的金刚石粒子。 根据本发明,基于转换为等效圆,金刚石颗粒相对于第一粒径为16nm或更小的第一粒子以第一数均分子存在率为50%具有第一粒度分布, 或者更多; 所述金刚石颗粒相对于具有第二粒径为50nm或更大的第二颗粒的​​第二粒度分布,其第二数均分子存在率基本为0%; 并且所述金刚石颗粒相对于第三粒径为2nm以下的第三粒子具有基本上为0%的第三数均分率的第三粒度分布。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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