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    • 2. 发明授权
    • Constraining green sheet and method of manufacturing multi-layer ceramic substrate using the same
    • 限制生片和使用其制造多层陶瓷基片的方法
    • US08178193B2
    • 2012-05-15
    • US12260042
    • 2008-10-28
    • Beom Joon ChoJong Myeon LeeHo Sung Choo
    • Beom Joon ChoJong Myeon LeeHo Sung Choo
    • B32B7/02B32B37/06B32B9/04
    • H05K3/4611H05K1/0306H05K3/4629H05K2201/0266H05K2203/308Y10T428/24992
    • Provided are a constraining green sheet and a method of manufacturing a multi-layer ceramic substrate. The constraining green sheet includes a first constraining layer and a second constraining layer. The first constraining layer has a side to be disposed on a multi-layer ceramic laminated structure and is formed of a first inorganic powder having a first particle diameter. The second constraining layer is disposed on top of the first constraining layer and is formed of a second inorganic powder having a second particle diameter larger than the first particle diameter. The second constraining layer is equal to or lower than the first constraining layer in terms of powder packing density. A shrinkage suppression rate can be increased and a de-binder passage can be secured in a firing process of the ceramic laminated structure by using the constraining green sheet formed of inorganic powders having different density and particle diameter.
    • 本发明提供约束生片和多层陶瓷基片的制造方法。 约束生片包括第一约束层和第二约束层。 第一约束层具有设置在多层陶瓷层叠结构上的一侧,并且由具有第一粒径的第一无机粉末形成。 第二约束层设置在第一约束层的顶部,并且由具有大于第一粒径的第二粒径的第二无机粉末形成。 关于粉末填充密度,第二约束层等于或低于第一约束层。 通过使用由具有不同密度和粒径的无机粉末形成的约束生片,可以在陶瓷层压结构的烧制过程中确保收缩抑制率,并且可以确保去粘合剂通道。
    • 6. 发明授权
    • Method for manufacturing multilayer ceramic capacitor
    • 多层陶瓷电容器制造方法
    • US07338854B2
    • 2008-03-04
    • US11002183
    • 2004-12-03
    • Ho Sung ChooSeung Hyun RaYong Suk KimJung Woo LeeHyo Soon ShinHyoung Ho Kim
    • Ho Sung ChooSeung Hyun RaYong Suk KimJung Woo LeeHyo Soon ShinHyoung Ho Kim
    • H01L21/8242
    • H01G4/005H01G4/12H01G4/30Y10T29/417
    • A method for manufacturing a multilayer ceramic capacitor, in which internal electrodes printed on each of a plurality of dielectric sheets have reduced thicknesses using an absorption member, thereby allowing the multilayer ceramic capacitor to have a high capacity and be minimized. The method includes printing the internal electrodes on each of the dielectric sheets, and stacking the dielectric sheets, wherein the internal electrodes formed on each of the dielectric sheets have a reduced thickness by causing an absorptive member to contact the surface of each of the dielectric sheets provided with the internal electrodes and then separating the absorptive member from the surface so that portions of the internal electrodes having a designated thickness are eliminated, and the dielectric sheets provided with the internal electrodes having the reduced thickness are stacked to form a chip element.
    • 一种制造多层陶瓷电容器的方法,其中印刷在多个电介质片材的每一个上的内部电极使用吸收构件具有减小的厚度,从而允许多层陶瓷电容器具有高容量并且被最小化。 该方法包括在每个电介质片上印刷内部电极,并叠放电介质片,其中形成在每个电介质片上的内部电极通过使吸收构件接触每个电介质片的表面而具有减小的厚度 设置有内部电极,然后将吸收构件从表面分离,使得部分具有指定厚度的内部电极被去除,并且设置有具有减小的厚度的内部电极的电介质层被堆叠以形成芯片元件。