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    • 2. 发明授权
    • Electrochemical device using solid polymer electrolytic film
    • 电化学装置采用固体高分子电解膜
    • US06599403B2
    • 2003-07-29
    • US09730600
    • 2000-12-07
    • Akira IkedaKenro MitsudaHisatoshi FukumotoKuraki Kitazaki
    • Akira IkedaKenro MitsudaHisatoshi FukumotoKuraki Kitazaki
    • C25B900
    • B01D53/326B01D53/26
    • The object of the present invention is to provide a thin and light electrochemical device using a solid polymer electrolytic film, which is capable of maintaining its steady performance for a long time even at a high humidity condition and a process for preparing the same. The device comprises inserting and pressuring the jointed electrochemical device 10 between a pair of pressing plates 30 and 31, wherein the jointed electrochemical device 10 is obtained by jointing the anode and the cathode having a catalytic layer on a base substrate of conductive porous material to both sides of the solid polymer electrolytic film, and wherein the pressing plates have the opening part having an area smaller than an electrochemical reaction part formed by facing the anode and the cathode.
    • 本发明的目的是提供一种使用固体聚合物电解质膜的薄且轻的电化学装置,即使在高湿度条件下也能够长时间保持其稳定性能及其制备方法。 该装置包括在一对压板30和31之间插入和加压接合的电化学装置10,其中通过将具有催化层的阳极和阴极在导电多孔材料的基底上连接到两者上而获得接合的电化学装置10 固定聚合物电解质膜的侧面,并且其中,所述压板的开口部的面积比由阳极和阴极形成的电化学反应部的面积小。
    • 4. 发明授权
    • Method for manufacturing a strain detector
    • 制造应变检测器的方法
    • US4935263A
    • 1990-06-19
    • US285554
    • 1988-12-16
    • Hiroshi SatohYoshihiko UtsuiKuraki KitazakiTakashi TaniguchiKiyoshi Hayashi
    • Hiroshi SatohYoshihiko UtsuiKuraki KitazakiTakashi TaniguchiKiyoshi Hayashi
    • G01L3/10
    • G01L3/102G01L3/103
    • A strain detector which has a driven shaft for receiving a stress; a high magnetostrictive rate magnetic layer made of one of Co--B, Co--P, Co--Ni--B, Ni--Fe--P, and Co--Ni--P formed by electroless plating on the outer periphery of the driven shaft; and a detecting coil disposed through a gap on the periphery of the magnetic layer for detecting a variation in the permeability by a strain responsive to the stress of the magnetic layer, a method for manufacturing the strain detector which has the steps of forming a high magnetostrictive plating layer made of one of Co--B, Co--P, Co--Ni--B, Ni--Fe--P and Co--Ni--P by electroless plating on the periphery of the driven shaft; and selectively removing the plating layer to obtain a magnetic layer made of a plurality of magnetic pieces aligned in parallel at a predetermined angle with respect to the central axis of the driven shaft. Thus, the strain detector has high accuracy, high sensitivity and high reliability, and the method for manufacturing the strain detector can inexpensively manufacture the strain detector in good mass productivity.
    • 具有用于承受应力的从动轴的应变检测器; 由驱动轴的外周上通过化学镀形成的Co-B,Co-P,Co-Ni-B,Ni-Fe-P和Co-Ni-P中的一个构成的高磁致伸缩率磁性层; 以及检测线圈,其设置在所述磁性层的周围的间隙上,用于通过响应于所述磁性层的应力的应变检测所述磁导率的变化,制造所述应变检测器的方法具有以下步骤:形成高磁致伸缩 在驱动轴的周围通过无电解电镀由Co-B,Co-P,Co-Ni-B,Ni-Fe-P和Co-Ni-P中的一种制成的镀层; 并且选择性地去除镀层以获得由相对于从动轴的中心轴线以预定角度平行排列的多个磁性片制成的磁性层。 因此,应变检测器具有高精度,高灵敏度和高可靠性,并且制造应变检测器的方法可以以良好的批量生产率廉价地制造应变检测器。