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    • 3. 发明授权
    • Corrosion control method and apparatus for reinforcing steel in concrete structures
    • 混凝土结构钢筋腐蚀控制方法及装置
    • US07905993B2
    • 2011-03-15
    • US11942955
    • 2007-11-20
    • Miki Funahashi
    • Miki Funahashi
    • C23F13/08C23F13/12C25B11/04C25B11/06C25B11/08C25B11/10
    • C23F13/20C23F13/16C23F2201/02E04C5/015
    • Mixed-metal-oxide (MMO) coated precious-metal tape is installed directly on concrete surfaces using an electrically conductive adhesive, thereby obviating the need for slots, holes, cementitious grout or additional concrete. The electrically conductive adhesive is preferably formed by disposing mixed-metal-oxide (MMO) coated precious-metal particles in an adhesive layer. The tape anodes may be installed on the concrete surfaces including a shallow concrete cover or congested reinforcing steel without developing an electrical short circuit between the anode and the reinforcing steel. Overall the invention provides for quick and low cost installation on many concrete structures. Interconnections between the tape anodes and bare metal distribution elements may be made with conductive adhesive or spot welding.
    • 使用导电粘合剂将混合金属氧化物(MMO)涂覆的贵金属胶带直接安装在混凝土表面上,从而避免需要槽,孔,水泥浆料或附加混凝土。 导电粘合剂优选通过在粘合剂层中设置混合金属氧化物(MMO)的贵金属颗粒来形成。 带状阳极可以安装在混凝土表面上,包括浅混凝土覆盖物或拥挤的钢筋,而不会在阳极和钢筋之间形成电气短路。 总体上,本发明提供了在许多混凝土结构上快速和低成本安装。 带状阳极和裸露金属分配元件之间的互连可以由导电粘合剂或点焊制成。
    • 6. 发明授权
    • Electrolytic electrode and process of producing the same
    • 电解电极及其制造方法
    • US07232508B2
    • 2007-06-19
    • US10839246
    • 2004-05-06
    • Masashi Hosonuma
    • Masashi Hosonuma
    • C25B11/10
    • C25B11/041C23C18/1216C23C18/1241C23C18/1279C23C18/1295C25B11/0405C25B11/0442C25D17/10
    • An electrolytic electrode having an interlayer having more excellent peeling resistance and corrosion resistance and longer electrolytic life than conventional electrolytic electrodes and capable of flowing a large amount of current at the industrial level and a process of producing the same are provided. The electrolytic electrode includes a valve metal or valve metal alloy electrode substrate on the surface of which is formed a high-temperature oxidation film by oxidation, and which is coated with an electrode catalyst. The high-temperature oxidation film is integrated with the electrode substrate, whereby peeling resistance is enhanced. Further, by heating the high-temperature oxidation film together with the electrode catalyst, non-electron conductivity of the interlayer is modified, thereby making it possible to flow a large amount of current.
    • 提供一种具有中间层的电解电极,其具有比常规电解电极更好的耐剥离性,耐腐蚀性和更长的电解寿命,并且能够在工业级流动大量电流及其制造方法。 电解电极包括阀金属或阀金属合金电极基板,其表面通过氧化形成高温氧化膜,并且涂覆有电极催化剂。 高温氧化膜与电极基板一体化,从而提高耐剥离性。 此外,通过与电极催化剂一起加热高温氧化膜,改变了中间层的非电子传导性,从而可以流过大量的电流。
    • 9. 发明授权
    • Electrolysis cell
    • 电解池
    • US5879522A
    • 1999-03-09
    • US919075
    • 1997-08-22
    • Aly H. ShaabanEric K. Dobyne
    • Aly H. ShaabanEric K. Dobyne
    • C25B1/04C25B9/16C25B9/00C25B11/03C25B11/04C25B11/10
    • C25B9/168C25B1/04Y02E60/366
    • An electrolysis cell for the efficient production of hydrogen and oxygen is described which comprises a substantially closed housing defining therewithin anode and cathode chambers and having first and second inlets and outlets for flowing electrolyte through the anode and cathode chambers; an ion exchange membrane within the housing separating the anode chamber from the cathode chamber; first and second electrically conductive sheet members disposed within the respective anode and cathode chambers adjacent the membrane and substantially coextensive therewith; discrete electrically conducting ultramicroelectrode particles, preferably in the 5 to 10 micron size range, disposed within the anode and cathode chambers and defining the anode and cathode of the cell; and a source of DC electrical current operatively connected to the first and second sheet members.
    • 描述了用于有效生产氢和氧的电解池,其包括在阳极和阴极室中限定的基本上封闭的壳体,并且具有用于使电解液通过阳极室和阴极室流动的第一和第二入口和出口; 所述壳体内的离子交换膜将所述阳极室与所述阴极室分离; 第一和第二导电片部件设置在相邻的阳极和阴极室中,并且与膜基本上共同延伸; 分离的导电超微电极颗粒,优选地在5至10微米尺寸范围内,设置在阳极和阴极室内并限定电池的阳极和阴极; 以及可操作地连接到第一和第二片状部件的DC电流源。
    • 10. 发明授权
    • Combination inner plate and outer envelope electrode
    • 组合内板和外包络电极
    • US5783053A
    • 1998-07-21
    • US797146
    • 1997-02-10
    • Charles P. TombaJoseph J. ScarpucciAndy W. Getsy
    • Charles P. TombaJoseph J. ScarpucciAndy W. Getsy
    • C25B11/02C25B11/03C25B11/10H01R43/02
    • C25B11/02C25B11/03Y10T29/4921Y10T29/49213Y10T29/49732Y10T29/49742
    • Electrodes in plate form can be electrocatalytically coated and secured to a current distributor, such as by welding to a base plate, and may be serviceable, e.g., as anodes, in cells electrolyzing brine. Recoating of plate electrodes can require removal from the cell, removal of old coating, application of fresh coating, then returning and securing the freshly coated electrodes to the cell. There are now provided envelopes for covering the original electrode plates. The original plates thus do not need to be separated from a base member of the cell. The envelopes can have an electrocatalytic coating on their outer surfaces. The resulting electrodes are thus a combination of an old inner plate and a new outer envelope, with an outer surface coating on the envelope. The envelopes can be secured to the inner plate and/or to a current distributor such as a base plate.
    • 板形电极可以电催化涂覆并固定到电流分配器上,例如通过焊接到基板上,并且可以在电解盐水的电池中在诸如阳极的情况下使用。 平板电极的回收可能需要从电池中取出,去除旧涂层,施加新鲜涂层,然后将新涂布的电极返回并固定到电池。 现在提供用于覆盖原始电极板的信封。 因此,原始板不需要与电池的基底部件分离。 信封可以在其外表面上具有电催化涂层。 所得到的电极因此是旧的内板和新的外封套的组合,其外表面涂层在外壳上。 信封可以固定到内板和/或固定到诸如基板的电流分配器。