ORGANIC ELECTROLUMINESCENT DEVICE AND REFRIGERATOR
    14.
    发明申请
    ORGANIC ELECTROLUMINESCENT DEVICE AND REFRIGERATOR 有权
    有机电致发光器件和制冷器

    公开(公告)号:US20160161178A1

    公开(公告)日:2016-06-09

    申请号:US14903730

    申请日:2014-07-08

    Abstract: The present invention relates to an organic electroluminescent device comprising a substrate, an organic electroluminescent element, and a photocatalyst layer, wherein the organic electroluminescent element includes: a first conductive layer provided on the substrate; an organic electroluminescent layer provided on the first conductive layer; and a second conductive layer provided on the organic electroluminescent layer, wherein the photocatalyst layer covers all or part of a light-emitting region of the organic electroluminescent element, and contains a photocatalyst and a co-catalyst, and wherein an absolute value of the difference (|R1-R2|) between the refractive index (R1) of the photocatalyst and the refractive index (R2) of the co-catalyst at a wavelength of 589 nm is 0 to 0.35.

    Abstract translation: 本发明涉及一种有机电致发光器件,其包括基底,有机电致发光元件和光催化剂层,其中所述有机电致发光元件包括:设置在所述基底上的第一导电层; 设置在所述第一导电层上的有机电致发光层; 以及设置在所述有机电致发光层上的第二导电层,其中所述光催化剂层覆盖所述有机电致发光元件的全部或部分发光区域,并且含有光催化剂和助催化剂,并且其中所述差异的绝对值 光催化剂的折射率(R1)与589nm波长的助催化剂的折射率(R2)之间的比(| R1-R2 |)为0〜0.35。

    RARE-EARTH PERMANENT MAGNET AND METHOD FOR MANUFACTURING RARE-EARTH PERMANENT MAGNET
    15.
    发明申请
    RARE-EARTH PERMANENT MAGNET AND METHOD FOR MANUFACTURING RARE-EARTH PERMANENT MAGNET 审中-公开
    稀土永磁体及制造稀土永磁体的方法

    公开(公告)号:US20140241929A1

    公开(公告)日:2014-08-28

    申请号:US14241511

    申请日:2012-09-25

    Abstract: There are provided a rare-earth permanent magnet and a manufacturing method of the rare-earth permanent magnet with improved magnetic performance which is achieved through milling-ability-improved fine wet-milling step. In the method, coarsely milled magnet material is finely wet-milled in an organic solvent together with an organometallic compound expressed with a structural formula of M-(OR)x (M including at least one of Nd, Al, Cu, Ag, Dy, Tb, V, Mo, Zr, Ta, Ti, W, and Nb, R representing a substituent group consisting of a straight-chain or branched-chain hydrocarbon with carbon chain length of 2-16, and x representing an arbitrary integer) to obtain magnet powder and to make the organometallic compound adhere to particle surfaces of the magnet powder. Subsequently, the magnet powder having adhesion of the organometallic compound to particle surfaces thereof is formed into a formed body and sintered so as to obtain a permanent magnet 1.

    Abstract translation: 提供了一种稀土永磁体和具有改进的磁性能的稀土永磁体的制造方法,其通过研磨能力改善的细湿法研磨步骤来实现。 在该方法中,将粗磨的磁体材料与有机金属化合物一起在有机溶剂中与结构式M-(OR)x(M包括Nd,Al,Cu,Ag,Dy中的至少一种) ,Tb,V,Mo,Zr,Ta,Ti,W和Nb,R代表由碳链长度为2-16的直链或支链烃构成的取代基,x表示任意整数) 得到磁体粉末,使有机金属化合物附着在磁铁粉末的粒子表面。 随后,将有机金属化合物与其颗粒表面粘附的磁铁粉末形成为成形体并烧结以获得永磁体1。

    RARE-EARTH PERMANENT MAGNET AND METHOD FOR MANUFACTURING RARE-EARTH PERMANENT MAGNET
    17.
    发明申请
    RARE-EARTH PERMANENT MAGNET AND METHOD FOR MANUFACTURING RARE-EARTH PERMANENT MAGNET 审中-公开
    稀土永磁体及制造稀土永磁体的方法

    公开(公告)号:US20140145808A1

    公开(公告)日:2014-05-29

    申请号:US14233286

    申请日:2013-03-08

    Abstract: There are provided a rare-earth permanent magnet and a manufacturing method of a rare-earth permanent magnet capable of preventing deterioration of magnet properties. In the method, magnet material is milled into magnet powder. Next, a mixture 12 is prepared by mixing the magnet powder and a binder, and the mixture 12 is formed into a sheet-like shape to obtain a green sheet 14. Thereafter, magnetic field orientation is performed to the green sheet 14, which is then held for several hours in a non-oxidizing atmosphere at a pressure higher than normal atmospheric pressure, at 200 through 900 degrees Celsius for calcination. Thereafter, the calcined green sheet 14 is sintered at a sintering temperature. Thereby a permanent magnet 1 is manufactured.

    Abstract translation: 提供了一种能够防止磁体特性劣化的稀土永磁体和稀土永磁体的制造方法。 在该方法中,将磁体材料研磨成磁铁粉末。 接下来,通过混合磁体粉末和粘合剂来制备混合物12,并将混合物12形成为片状,得到生片14.此后,对生片14进行磁场取向 然后在高于正常大气压的压力的非氧化性气氛中,在200-900摄氏度下煅烧数次。 然后,烧结的生片14在烧结温度下烧结。 由此制造永磁体1。

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