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    • 1. 发明公开
    • MLCC의 유전체 첨가제와 이의 분산방법
    • 用于MLCC的电介质添加剂及其分散方法
    • KR1020140076911A
    • 2014-06-23
    • KR1020120145463
    • 2012-12-13
    • 삼성전기주식회사
    • 임철택이용화
    • H01B3/10B01F3/00H01G4/12
    • The present invention relates to dispersed dielectric additives for MLCC and a dispersion method thereof, wherein the additives have average particle diameter of 0.010-0.030 micrometers and Dmax of 0.130 micrometers or less. According to the present invention, when an individual nano-sized additive is separately dispersed, classified, mixed, and re-dispersed, a thin film with increased dispersibility, smoothness, and uniformity compared to an existing method can be produced. Therefore, when technology for manufacturing a thin film using dielectric additives according to the present invention is applied to a chip like MLCC, electric characteristics and chip reliability are improved.
    • 本发明涉及用于MLCC的分散介电添加剂及其分散方法,其中添加剂的平均粒径为0.010-0.030微米,Dmax为0.130微米或更小。 根据本发明,当单独的纳米尺寸添加剂分开分散,分级,混合和再分散时,可以生产出与现有方法相比分散性,平滑度和均匀性增加的薄膜。 因此,当将根据本发明的使用介电添加剂的薄膜制造技术应用于诸如MLCC的芯片时,电特性和芯片可靠性得到改善。
    • 3. 发明公开
    • 탄산바륨의 제조방법
    • 碳酸钡的分散方法
    • KR1020140081361A
    • 2014-07-01
    • KR1020120151020
    • 2012-12-21
    • 삼성전기주식회사
    • 이용화임철택
    • C01F11/18C04B35/622
    • C01F11/188C01P2004/32C01P2004/64
    • The present invention provides a method of preparing barium carbonate having a particle size of 30 nm to 50 nm and a spherical shape. The method includes a step of adding barium hydroxide (Ba(OH)_2.8H_2O) to a mixture solution of water and ethanol and cooling; a step of inserting carbon dioxide as an anion source thereto and inserting nitrogen for restraining reaction; and a step of filtering the solution, drying, and re-dispersing in a solvent. Spherical barium carbonate is an additive of a raw powder of a dielectric material having excellent crystallinity and may be easily prepared. However the control of the particle shape and the size thereof is difficult. According to the present invention, the spherical barium carbonate having a particle size of 30 to 50 nm may be uniformly and stably prepared.
    • 本发明提供一种制备粒度为30nm〜50nm,呈球状的碳酸钡的方法。 该方法包括向水和乙醇的混合溶液中加入氢氧化钡(Ba(OH)_2.8H_2O)并冷却的步骤; 将二氧化碳作为阴离子源插入并插入氮以进行抑制反应的步骤; 以及过滤溶液,干燥和再分散在溶剂中的步骤。 球形碳酸钡是具有优异结晶度的电介质材料的原料粉末的添加剂,可以容易地制备。 然而,粒子形状和尺寸的控制是困难的。 根据本发明,可以均匀且稳定地制备粒径为30〜50nm的球状碳酸钡。
    • 5. 发明授权
    • 바나듐 산화물, 이의 제조방법, 및 이를 포함하는 유전체 조성물
    • 氧化钒及其制造方法,以及含有该氧化钒的电介质组合物
    • KR101813280B1
    • 2017-12-28
    • KR1020110062946
    • 2011-06-28
    • 삼성전기주식회사
    • 임철택윤여주
    • C01G31/00C01B33/149H01B3/10H01G9/07
    • 본발명은콜로이달실리카에금속, 및바나듐이순차적으로코팅된바나듐산화물과이의제조방법, 및이를포함하는다층세라믹캐패시터의유전체조성물에관한것이다. 본발명에따르면, 콜로이달실리카의표면을금속으로코팅한다음, 여기에바나듐을코팅시킨구조의바나듐산화물은입자간에응집되는문제를해결하여우수한분산성을가진다. 따라서, 본발명에따른바나듐산화물을다층세라믹캐패시터의유전체조성물에첨가되어조성물의분산성을해치지않으면서, 칩신뢰성개선및 소결촉진역할을수행할수 있는부성분으로작용할수 있다.
    • 本发明涉及在胶体二氧化硅上依次涂布金属和钒的氧化钒及其制造方法,以及包含该氧化钒的多层陶瓷电容器的电介质组合物。 根据本发明,具有其中胶态二氧化硅的表面用金属涂覆然后涂覆钒的结构的钒氧化物具有在颗粒之间聚集并且具有优异的分散性的问题。 因此,根据本发明的钒氧化物可以加入到多层陶瓷电容器的介电组合物中,作为可以提高芯片可靠性和促进烧结而不降低组合物分散性的副成分。
    • 6. 发明公开
    • 바나듐 산화물, 이의 제조방법, 및 이를 포함하는 유전체 조성물
    • 氧化钒,其制备方法,包含该氧化铝的电介质组合物
    • KR1020130007023A
    • 2013-01-18
    • KR1020110062946
    • 2011-06-28
    • 삼성전기주식회사
    • 임철택윤여주
    • C01G31/00C01B33/149H01B3/10H01G9/07
    • PURPOSE: A vanadium oxide, a manufacturing method thereof and a dielectric composition including the same are provided to enhance dispersibility by quantitively coating the vanadium composition on colloidal silica. CONSTITUTION: A vanadium oxide is composed of colloidal silica, metal, and vanadium which are successively coated. The metal coated on the colloidal silica is aluminum (Al) or vanadium (V). The metal-coated colloidal silica and vanadium are included at the weight ratio of 7:1-10:1. The colloidal silica is in monodisperse state. The vanadium is vanadium oxy isopropoxide. A manufacturing method of the vanadium oxide comprises the following steps: coating colloidal silica with metal; and coating the metal coated colloidal silica with vanadium.
    • 目的:提供一种氧化钒及其制造方法和包含该氧化钒的电介质组合物,以通过在钒硅胶上定量涂覆钒组合物来提高分散性。 构成:氧化钒由依次包覆的胶体二氧化硅,金属和钒构成。 涂覆在胶体二氧化硅上的金属是铝(Al)或钒(V)。 金属包覆的胶体二氧化硅和钒以7:1-10:1的重量比包括在内。 胶体二氧化硅处于单分散状态。 钒是异丙氧基钒。 氧化钒的制造方法包括以下步骤:用金属涂布胶体二氧化硅; 并用钒涂覆金属涂覆的胶体二氧化硅。
    • 8. 发明公开
    • 유체 제어 장치
    • 流体控制装置
    • KR1020070000642A
    • 2007-01-03
    • KR1020050056153
    • 2005-06-28
    • 삼성전기주식회사
    • 김창성양시영유달현지수영임철택
    • G05D7/01
    • G05D7/0617
    • A fluid control apparatus is provided to effectively control fluid amount per unit time by increasing or decreasing the frictional resistance between the fluid and a flow path wall, by applying the same or opposite charge to an electrode, which is formed on the flow path wall, with regard to the polarity of the fluid. A fluid control apparatus for controlling the flow of a fluid inside a micro flow path includes a fluid tube(100), a charge application unit(120), and a controller(130). The fluid tube includes a flow path, through which a fluid having a polarity flows, and an electrode, which is formed on a predetermined position of fluid path wall. The charging application unit applies a predetermined amount of charges to the electrode. The controller determines the charge amount, at which the fluid moves at a predetermined speed in the fluid tube, and controls the charge application unit. The frictional resistance between the fluid and the fluid tube is varied according to the applied charges amount.
    • 提供一种流体控制装置,通过增加或减少流体和流路壁之间的摩擦阻力,通过对形成在流路壁上的电极施加相同或相反的电荷来有效地控制每单位时间的流体量, 关于流体的极性。 用于控制微流路内的流体流动的流体控制装置包括流体管(100),计费施加单元(120)和控制器(130)。 流体管包括流路,具有极性流动的流体和形成在流体路径壁的预定位置上的电极。 充电应用单元对电极施加预定量的电荷。 控制器确定流体在流体管中以预定速度移动的充电量,并控制电荷施加单元。 流体和流体管之间的摩擦阻力根据施加的电荷量而变化。