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    • 1. 发明授权
    • Lithographic plate material
    • 平版印刷材料
    • US06564712B2
    • 2003-05-20
    • US09880860
    • 2001-06-15
    • Hironori SatoJunichi NoudaToshimichi Katsuoka
    • Hironori SatoJunichi NoudaToshimichi Katsuoka
    • B41N114
    • B41N3/03B41C1/1091Y10T428/31
    • There is provided a lithographic plate material with which a lithographic plate is prepared by the hot-melt transfer recording method utilizing an ink ribbon. The lithographic plate material has an image-receptive layer for hot-melt transfer recording that has a water retention property or can be imparted with a water retention property on a support, and the image-receptive layer has a surface roughness (JIS-B06011994) of 0.15 &mgr;m or more in terms of arithmetic mean deviation Ra and 1.00-3.00 &mgr;m in terms of 10-point height of irregularities Rz. It shows good transfer of the ink layer of ink ribbon and excellent fixation of the ink layer, and it enables production of a printing plate having excellent printing durability.
    • 提供了一种平版印刷材料,通过使用墨带的热熔转印记录方法制备平版印刷版。 平版印刷版材料具有用于热熔转印记录的图像接受层,其具有保水性或在支持体上具有保水性,并且图像接收层具有表面粗糙度(JIS-B06011994) 以算术平均偏差Ra计算为0.15μm以上,在10s的不规则高度Rz为1.00-3.00μm。 表现出墨带的油墨层的良好转印和油墨层的优异的固着,并且能够生产具有优异的印刷耐久性的印刷版。
    • 2. 发明授权
    • Lithographic plate materials and method for making lithographic plates using the same
    • 平版印刷材料及使用其制造平版印刷版的方法
    • US06508170B2
    • 2003-01-21
    • US09814112
    • 2001-03-22
    • Toshimichi KatsuokaJunichi NoudaHironori Sato
    • Toshimichi KatsuokaJunichi NoudaHironori Sato
    • B41N114
    • B41C1/1066
    • There is provided a lithographic plate material which can be desensitized by distilled water or a fountain solution used for other lithographic plates, without desensitizing using an etching solution, and with less scumming in non-image portions of the print. The lithographic plate material has an image-receptive layer formed on a support and containing polyvinyl alcohol cross-linked by tetra alkoxy silane hydroxylate, titanium oxide microparticles, and silica having an average particle size of 1 nm to 100 nm. The image-receptive layer has a surface with an arithmetic mean roughness of not less than 0.40 &mgr;m and less than 1.20 &mgr;m, a contact angle of less than 50 degrees with distilled water at room temperature, and ink-receptiveness for hot-melt and lipophilic ink.
    • 提供了一种平版印刷材料,其可以通过蒸馏水或用于其它平版印刷版的润版液进行脱敏,而不会使用蚀刻溶液脱敏,并且在印刷品的非图像部分中具有较少的浮渣。 平版印刷版材料具有在载体上形成的图像接收层,并且含有通过四烷氧基硅烷羟基化物,氧化钛微粒和平均粒径为1nm至100nm的二氧化硅交联的聚乙烯醇。 图像接收层具有算术平均粗糙度不小于0.40μm和小于1.20μm的表面,在室温下与蒸馏水接触角小于50度,以及用于热熔和亲脂性的油墨接受性 墨水。
    • 7. 发明授权
    • Method for manufacturing multilayer wiring substrate
    • 多层布线基板的制造方法
    • US08580066B2
    • 2013-11-12
    • US13372088
    • 2012-02-13
    • Erina YamadaHironori Sato
    • Erina YamadaHironori Sato
    • B29C65/52B32B37/02B32B37/12B32B38/10B32B38/04B32B43/00C09J5/00
    • H05K3/4682H01L2924/15174H05K3/0097H05K2201/09536H05K2201/0959H05K2203/1536Y10T156/1056
    • A method for manufacturing a reliable multilayer wiring substrate at a relatively low cost having little or no warpage or distortion is provided. In certain embodiments an insulation core made of an insulation material that is more rigid than that of resin insulation layers is prepared. A through hole is formed through core upper and lower surfaces of the insulation core, and a through hole conductor is formed therein. A plate-like substrate is prepared, and resin insulation layers and at least one conductor layer are laminated on the substrate to form a first buildup layer. The insulation core is laminated on the first buildup layer so as to electrically connect the conductor layer and the through hole conductor. Resin insulation layers and at least one conductor layer are then laminated on the insulation core. Lastly, the substrate is separated from the first buildup layer to yield a multilayer wiring substrate.
    • 提供了具有很少或没有翘曲或变形的成本较低的可靠的多层布线基板的制造方法。 在某些实施例中,制备由绝缘材料制成的绝缘芯,该绝缘芯比树脂绝缘层更硬。 通过绝缘芯的中心和下表面形成通孔,并在其中形成通孔导体。 制备板状基板,在基板上层叠树脂绝缘层和至少一层导体层,形成第一累积层。 绝缘芯层压在第一堆积层上,以电连接导体层和通孔导体。 树脂绝缘层和至少一个导体层然后层压在绝缘芯上。 最后,将基板与第一堆积层分离,得到多层布线基板。
    • 9. 发明申请
    • IMAGE PROCESSING APPARATUS AND ITS ADJUSTMENT METHOD
    • 图像处理设备及其调整方法
    • US20120206600A1
    • 2012-08-16
    • US13372991
    • 2012-02-14
    • Satoshi OsanaiHironori Sato
    • Satoshi OsanaiHironori Sato
    • H04N11/00H04N7/18
    • H04N9/68G06K9/4652H04N1/6027H04N1/6047
    • In an image processing apparatus, an image acquisition unit acquires an image. A correction unit corrects pixel values of pixels composed of the acquired image by using correction coefficients to produce a correct image. An object recognition unit recognizes an object in the corrected image. A storage unit stores in advance standard color characteristics of a predetermined object which is a recognition target. A color characteristics acquisition unit acquires color characteristics of the predetermined object if the predetermined object is recognized by the object recognition unit. A comparison unit compares the color characteristics of the acquired object with the standard color characteristics of the same predetermined object stored in advance in the storage unit. An updating unit updates the correction coefficients used in the correction unit based on a result of comparison so as to reduce a difference between the color characteristics and the standard color characteristics.
    • 在图像处理装置中,图像获取单元获取图像。 校正单元通过使用校正系数来校正由所获取的图像组成的像素的像素值,以产生正确的图像。 对象识别单元识别校正图像中的对象。 存储单元预先存储作为识别对象的预定对象的标准颜色特性。 如果对象识别单元识别到预定对象,则颜色特征获取单元获取预定对象的颜色特性。 比较单元将获取对象的颜色特性与预先存储在存储单元中的相同预定对象的标准颜色特性进行比较。 更新单元基于比较结果更新校正单元中使用的校正系数,以减少颜色特性和标准颜色特性之间的差异。