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    • 2. 发明授权
    • Transparent conductive film and method for manufacturing the same
    • 透明导电膜及其制造方法
    • US07867636B2
    • 2011-01-11
    • US11562561
    • 2006-11-22
    • Osamu NakagawaraHiroyuki SetoYutaka Kishimoto
    • Osamu NakagawaraHiroyuki SetoYutaka Kishimoto
    • H01B5/14
    • C23C14/086C23C14/34Y10T428/31507
    • A ZnO-based transparent conductive film is produced by growing ZnO doped with a group III element oxide on a substrate and has a region with a crystal structure in which a c-axis grows along a plurality of different directions. The transparent conductive film produced by growing ZnO doped with a group III element oxide on a substrate has a ZnO (002) rocking curve full width at half maximum of about 13.5° or more. ZnO is doped with a group III element oxide so that the ratio of the group III element oxide in the transparent conductive film is about 7% to about 40% by weight. The transparent conductive film is formed on the substrate with a SiNx thin film provided therebetween. The transparent conductive film is formed on the substrate by a thin film formation method with a bias voltage applied to the substrate.
    • 通过在衬底上生长掺杂有III族元素氧化物的ZnO并且具有其中c轴沿多个不同方向生长的晶体结构的区域来制造ZnO基透明导电膜。 通过在衬底上生长掺杂有III族元素氧化物的ZnO生长的透明导电膜具有半峰全宽为13.5°或更大的ZnO(002)摇摆曲线。 ZnO掺杂有III族元素氧化物,使得透明导电膜中III族元素氧化物的比例为约7%至约40%重量。 透明导电膜形成在衬底上,其间设置有SiNx薄膜。 透明导电膜通过薄膜形成方法在衬底上形成,其中偏置电压施加到衬底。
    • 4. 发明申请
    • TRANSPARENT CONDUCTIVE FILM AND METHOD FOR MANUFACTURING THE SAME
    • 透明导电薄膜及其制造方法
    • US20080050595A1
    • 2008-02-28
    • US11562561
    • 2006-11-22
    • Osamu NAKAGAWARAHiroyuki SETOYutaka KISHIMOTO
    • Osamu NAKAGAWARAHiroyuki SETOYutaka KISHIMOTO
    • H01B5/14
    • C23C14/086C23C14/34Y10T428/31507
    • A ZnO-based transparent conductive film has practicable moisture resistance, desired characteristics of a transparent conductive film, and excellent economy. The transparent conductive film is produced by growing ZnO doped with a group III element oxide on a substrate and has a region with a crystal structure in which a c-axis grows along a plurality of different directions. The transparent conductive film produced by growing ZnO doped with a group III element oxide on a substrate has a ZnO (002) rocking curve full width at half maximum of about 13.5° or more.ZnO is doped with a group III element oxide so that the ratio of the group III element oxide in the transparent conductive film is about 7% to about 40% by weight.The transparent conductive film is formed on the substrate with a SiNx thin film provided therebetween.The transparent conductive film is formed on the substrate by a thin film formation method with a bias voltage applied to the substrate.
    • ZnO系透明导电膜具有实用的耐湿性,透明导电膜的期望特性,经济性优异。 透明导电膜通过在衬底上生长掺杂有III族元素氧化物的ZnO并且具有其中c轴沿多个不同方向生长的晶体结构的区域来制造。 通过在衬底上生长掺杂有III族元素氧化物的ZnO生长的透明导电膜具有半峰全宽为13.5°或更大的ZnO(002)摇摆曲线。 ZnO掺杂有III族元素氧化物,使得透明导电膜中III族元素氧化物的比例为约7%至约40%重量。 透明导电膜形成在衬底上,其间设置有SiNx薄膜。 透明导电膜通过薄膜形成方法在衬底上形成,其中偏置电压施加到衬底。
    • 9. 发明授权
    • Electrode wire for electric spark cutting
    • 用于电火花切割的电极线
    • US5028756A
    • 1991-07-02
    • US422650
    • 1989-10-17
    • Shigeo EzakiHiroyuki SetoHiroshi Hasegawa
    • Shigeo EzakiHiroyuki SetoHiroshi Hasegawa
    • B23H7/08
    • B23H7/08
    • A tungsten alloy is used as a material of an electrode wire for electric spark cutting. The tungsten alloy comprises one or more elements selected from the group consisted of Y, La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu and oxides thereof. An electrode wire made of such a tungsten alloy handles an improved processing speed and the accuracy of the cut surface is also improved. The number of failures due to breaking of the electrode wire has been reduced and the tensile strength of the electrode wire has been increased. The same effect can be attained when a molybdenum alloy containing one or more oxides of elements selected from the group consisted of Al, Si and K is used as an alloying component in the alloy for making the electrode wire for electric spark cutting.
    • 钨合金用作电火花切割用电极线材料。 钨合金含有选自Y,La,Ce,Pr,Nd,Pm,Sm,Eu,Gd,Tb,Dy,Ho,Er,Tm,Yb,Lu及其氧化物中的一种以上的元素。 由这种钨合金制成的电极线处理改进的处理速度,并且还提高了切割表面的精度。 由于电极线断裂导致的故障次数减少,电极线的拉伸强度增加。 当在用于电火花切割的电极线的合金中使用含有选自Al,Si和K的一种或多种选自Al,Si和K的元素的氧化物作为合金成分时,可以获得相同的效果。
    • 10. 发明授权
    • Mounting structures for front pillar trims
    • 前柱装饰件的安装结构
    • US08840136B2
    • 2014-09-23
    • US13818436
    • 2012-08-08
    • Toshikatsu MasatsuguHiroyuki SetoTakahiro Narikiyo
    • Toshikatsu MasatsuguHiroyuki SetoTakahiro Narikiyo
    • B60R21/213B60R13/02B60N3/02B60R21/215
    • B60R21/213B60N3/026B60R13/025B60R2021/21518
    • A front pillar trim mounting structure has a front pillar (10), a front pillar trim (30), an airbag (60), and an assist grip (70). The front pillar is provided in the front portion of a vehicle. The front pillar trim (30) covers the front pillar (10) from the inner side of the vehicle. The airbag (60) is located between the front pillar (10) and the front pillar trim (30). The assist grip (70) is attached to the front pillar (10), and is installed on a vehicle inner surface of the front pillar trim (30). The front pillar trim (30) has a first front pillar trim (40), a second front pillar trim (50), and an engagement mechanism (54). The assist grip (70) is installed on the first front pillar trim (40). The second front pillar trim (50) is provided with an opening where the first front pillar trim (40) is installed. The engagement mechanism (54) detachably connects the second front pillar trim (50) to first front pillar trim (40). The engagement mechanism (54) is configured to allow the second front pillar trim (50) to move with respect to the front pillar (10) by releasing the second front pillar trim (50) by an expansion pressure of the airbag (60) at a time of inflation of the airbag (60), so that a gap for deployment of the airbag (60) is formed between the second front pillar trim (50) and the front pillar (10).
    • 前柱装饰安装结构具有前支柱(10),前柱装饰件(30),气囊(60)和辅助把手(70)。 前支柱设置在车辆的前部。 前支柱装饰件(30)从车辆内侧覆盖前支柱(10)。 气囊(60)位于前支柱(10)和前柱装饰件(30)之间。 辅助把手(70)附接到前支柱(10),并安装在前柱装饰件(30)的车辆内表面上。 前柱装饰件(30)具有第一前柱装饰件(40),第二前柱装饰件(50)和接合机构(54)。 辅助把手(70)安装在第一前柱装饰件(40)上。 第二前柱装饰件(50)设置有第一前柱装饰件(40)安装的开口。 接合机构(54)将第二前柱装饰件(50)可拆卸地连接到第一前柱装饰件(40)。 接合机构(54)构造成允许第二前柱装饰件(50)相对于前柱(10)移动,通过在气囊(60)的膨胀压力下释放第二前柱装饰件(50) 安全气囊(60)的膨胀时间,使得在第二前柱装饰件(50)和前支柱(10)之间形成用于展开安全气囊(60)的间隙。