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    • 1. 发明授权
    • Pattern forming method and ink compostion
    • 图案形成方法和油墨组合
    • US5635006A
    • 1997-06-03
    • US540622
    • 1990-06-19
    • Hirotoshi WatanabeYutaka NishimuraKoji MatsuoNoboru AikawaMasahide Tsukamoto
    • Hirotoshi WatanabeYutaka NishimuraKoji MatsuoNoboru AikawaMasahide Tsukamoto
    • B41M1/10G02F1/1335H01J9/227H01J29/32B05D5/00
    • H01J29/327B41M1/10G02F1/133516H01J9/2277H01J9/2278
    • The fine-line pattern forming method is to form a pattern by transferring the pattern formed on the blanket of which surface is covered with an elastic material mainly composed of silicone resin, on a substrate on which a tack layer is formed. As an example thereof, the forming method of cathode-ray tube anode comprises a step of filling the groove of an intaglio with a graphite ink, a step of transferring the graphite ink in the groove of the intaglio on a blanket of which surface is covered with an elastic material mainly composed of silicone resin, a step of forming a tack layer on a substrate, a step of transferring and printing the pattern transferred on the blanket onto the substrate, a step of filling the groove of the intaglio with a phosphor ink, a step of transferring the ink in the groove of the intaglio on the blanket of which surface is covered with an elastic material mainly composed of silicone resin, a step of forming a tack layer on the substrate, a step of transferring and printing the pattern transferred on the blanket on the substrate on which the graphite pattern has been formed, a step of transferring an aluminum thin film possessing multiple pores as a metal-backed layer so as to cover a black matrix and a phosphor layer, and a step of firing the substrate covered with the aluminum thin film. The graphite ink comprises graphite powder, vehicle containing depolymerization type organic binder, and organic acid metal salt. The phosphor ink comprises phosphor powder and vehicle containing polymerization type organic binder.
    • 细线图案形成方法是在形成有粘性层的基板上,通过将主要由硅树脂构成的弹性材料覆盖在其表面的毯子上的图案转印而形成图案。 作为其示例,阴极射线管阳极的形成方法包括用石墨墨水填充凹版的凹槽的步骤,将石墨墨在凹版的凹槽中的表面覆盖的毯子上的步骤 主要由硅树脂构成的弹性材料,在基材上形成粘性层的步骤,将在橡皮布上转印的图案转印印刷到基材上的步骤,用荧光体墨水填充凹版的凹槽的步骤 将主要由硅树脂构成的弹性材料覆盖在表面的毯子上的凹版凹槽中的墨水转印到基板上形成粘着层的工序,转印印刷图案的步骤 转印在已经形成有石墨图案的基板上的橡皮布上,转印具有多个孔的铝薄膜作为金属背衬层以覆盖黑矩阵a 和荧光体层,以及烧制被铝薄膜覆盖的基板的步骤。 石墨油墨包括石墨粉,含有解聚型有机粘合剂的载体和有机酸金属盐。 荧光体油墨包含荧光体粉末和含有聚合型有机粘合剂的载体。
    • 3. 发明授权
    • Temperature sensor
    • 温度感应器
    • US08672541B2
    • 2014-03-18
    • US13213033
    • 2011-08-18
    • Masamichi ItoKoji MatsuoSatoshi Ishikawa
    • Masamichi ItoKoji MatsuoSatoshi Ishikawa
    • G01K7/00
    • G01K1/08G01K1/16G01K7/16G01K2205/04
    • A temperature sensor (100) includes a heat-sensitive element (21) having a thermistor sintered-body (22), an insulating support (31), an insulation sheath (41) and a housing tube (11). The insulating support (31) is in contact with the rear end of the heat-sensitive element (21) and the insulation sheath (41) is in contact with the rear end of the insulating support (31). The housing tube (11) accommodates the heat-sensitive element (21), the insulating support (31) and the insulation sheath (41). The housing tube (11) includes a sheath accommodation portion (14) which accommodates the insulation sheath (41) and a distal accommodation portion (13). The distal accommodation portion (13) is located toward the distal end of the housing tube (11) with respect to the sheath accommodation portion (14), is smaller in outside diameter than the sheath accommodation portion (14), and accommodates at least half of the insulating support (31) as measured from the axially distal end of the insulating support (31).
    • 温度传感器(100)包括具有热敏电阻烧结体(22)的热敏元件(21),绝缘支架(31),绝缘护套(41)和外壳管(11)。 绝缘支撑件(31)与热敏元件(21)的后端接触,并且绝缘护套(41)与绝缘支撑件(31)的后端接触。 容纳管(11)容纳热敏元件(21),绝缘支撑件(31)和绝缘护套(41)。 容纳管(11)包括容纳绝缘护套(41)和远端容纳部分(13)的护套容纳部分(14)。 远侧容纳部(13)相对于护套容置部(14)朝向容纳管(11)的前端侧配置,比护套容纳部(14)的外径小,容纳至少一半 的绝缘支撑件(31),其从绝缘支撑件(31)的轴向远端测量。
    • 4. 发明申请
    • SEMICONDUCTOR DEVICE MANUFACTURING METHOD
    • 半导体器件制造方法
    • US20100190336A1
    • 2010-07-29
    • US12693093
    • 2010-01-25
    • Takaharu ItaniKoji MatsuoKazuhiko Nakamura
    • Takaharu ItaniKoji MatsuoKazuhiko Nakamura
    • H01L21/285
    • H01L21/28518H01L29/665H01L29/66575H01L29/78
    • A semiconductor device manufacturing method has conducting first heating processing at a first heating temperature in an inert atmosphere under a first pressure in a first process chamber to silicide an upper part of the source-drain diffusion layer and form a silicide film; conducting second heating processing at a second heating temperature in an oxidizing atmosphere under a second pressure in a second process chamber to selectively oxidize at least a surface of the metal film on the element isolating insulation film and form a metal oxide film; conducting third heating processing at a third heating temperature which is higher than the first heating temperature and the second heating temperature in an atmosphere in a third process chamber to increase a concentration of silicon in the silicide film; and selectively removing the metal oxide film and an unreacted part of the metal film on the element isolating insulation film.
    • 半导体器件制造方法在第一处理室中在第一压力下在惰性气氛中在第一加热温度下进行第一加热处理,以硅化源极 - 漏极扩散层的上部并形成硅化物膜; 在第二处理室中在第二压力的氧化气氛中在第二加热温度下进行第二加热处理,以选择性地氧化元件隔离绝缘膜上的金属膜的至少一个表面,并形成金属氧化物膜; 在第三处理室的气氛中,在高于第一加热温度和第二加热温度的第三加热温度下进行第三加热处理,以增加硅化物膜中硅的浓度; 并且在元件隔离绝缘膜上选择性地除去金属氧化物膜和金属膜的未反应部分。
    • 6. 发明授权
    • Aqueous ballpoint pen refill and process for producing the same
    • 水性圆珠笔笔芯及其制作方法
    • US6056463A
    • 2000-05-02
    • US340829
    • 1999-06-28
    • Akane NishioKoji MatsuoShinko MukodaKoichi Murakawa
    • Akane NishioKoji MatsuoShinko MukodaKoichi Murakawa
    • B43K7/00B43K7/02B43K15/02B43K27/00C09D11/18
    • B43K7/005B43K15/02B43K27/00B43K7/02
    • There are provided an aqueous ballpoint pen refill which can produce tasteful writings or drawings with a plurality of colors and which gives an attractive impression, since the inks in the ink reservoir constitute an interesting pattern and also a process for producing the same. A plurality of aqueous inks Ia and Ib with different colors are charged into an ink reservoir having a point tip at the front end to form a vertical or horizontal layered structure or a spiral structure; the aqueous inks containing pigments as coloring agents respectively and each having a viscosity of 45 mPa.multidot.S or more; the specific gravity difference of the inks being not more than 0.05. Injection needles connected respectively to front ends of a plurality of ink tanks are inserted to the transparent ink reservoir, and the plurality of inks with different colors are injected while the injection needles are drawn out of the ink reservoir.
    • 提供了一种水性圆珠笔笔芯,其可以产生具有多种颜色的雅致的书写或绘图,并且由于墨水储存器中的墨水构成有趣的图案,并且其制造方法也产生了吸引人的印象。 多个具有不同颜色的水性墨水1a和1b被装入到在前端具有尖端的墨水储存器中以形成垂直或水平分层结构或螺旋结构; 水性油墨分别含有颜料作为着色剂,各自具有45mPaxS以上的粘度; 油墨的比重差不大于0.05。 分别连接到多个墨罐的前端的注射针被插入到透明墨水容器中,并且注射针从墨水容器中抽出时,注入不同颜色的多种墨水。
    • 10. 发明授权
    • Synthetic quartz glass and production process
    • 合成石英玻璃及生产工艺
    • US06705115B2
    • 2004-03-16
    • US09747953
    • 2000-12-27
    • Koji MatsuoHisatoshi OtsukaKazuo Shirota
    • Koji MatsuoHisatoshi OtsukaKazuo Shirota
    • C03B1914
    • C03B19/1423C03B2201/075C03B2201/12C03B2201/23C03B2207/06C03B2207/20C03B2207/36C03C3/06C03C2201/12C03C2201/23C03C2203/40
    • A process for producing synthetic quartz glass using a burner composed of a plurality of concentric nozzles involves the steps of feeding a silica-forming raw material gas and a fluorine compound gas to a reaction zone from a center nozzle, feeding oxygen gas from a second nozzle outside the center nozzle, and feeding oxygen gas and/or hydrogen gas from a third nozzle. The silica-forming raw material gas is hydrolyzed to form fine particles of silica, which particles are deposited on a rotatable substrate so as to form a porous silica matrix, which is then fused to give the quartz glass. The flow rate of the oxygen gas fed from the second nozzle and the flow rate of the raw material gas are controlled so as to provide a 1.1- to 3.5-fold stoichiometric excess of oxygen. The excess oxygen suppresses Si—Si bond formation in the quartz glass, enabling the production of synthetic quartz glass having a high transmittance in the vacuum ultraviolet region.
    • 使用由多个同心喷嘴构成的燃烧器来生产合成石英玻璃的方法包括以下步骤:将来自中心喷嘴的二氧化硅生成原料气体和氟化合物气体供给到反应区域,从第二喷嘴 在中心喷嘴外部,并且从第三喷嘴供给氧气和/或氢气。 二氧化硅形成原料气体被水解以形成二氧化硅细颗粒,该颗粒沉积在可转动的基底上,以便形成多孔二氧化硅基质,然后熔化以得到石英玻璃。 控制从第二喷嘴供给的氧气的流量和原料气体的流量,从而提供1.1-3.5倍化学计量的过量的氧气。 过量的氧抑制石英玻璃中的Si-Si键的形成,能够在真空紫外线区域中制造具有高透射率的合成石英玻璃。