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    • 2. 发明授权
    • Conductive paste and laminated ceramic electronic component using the same
    • 导电胶和层压陶瓷电子元件使用相同
    • US06478882B2
    • 2002-11-12
    • US09893174
    • 2001-06-27
    • Takaharu MiyazakiTsuyoshi Yamana
    • Takaharu MiyazakiTsuyoshi Yamana
    • B23K35363
    • H01G4/0085H05K1/092
    • A laminated ceramic electronic component, such as a laminated ceramic capacitor, having superior heat shock resistance and humidity loading resistance is provided, in which no delamination occurs during a firing step. A conductive paste advantageously used for forming internal electrodes and a laminated ceramic electronic component using the conductive paste are provided. The conductive paste is a conductive powder primarily composed of Ni; an organic vehicle; a compound A which is at least one of an organic acid metal salt, an organic metal complex salt and an alkoxide, and which contains at least one of Mg, Ca and Ba; and a hydrolyzed compound B containing at least one of Al and Si; wherein the hydrolyzed compound B is adhered to the surface of the conductive powder.
    • 提供了具有优异的耐热冲击性和耐湿负荷性的层压陶瓷电子部件,例如层压陶瓷电容器,其中在烧制步骤中不发生分层。 提供有利地用于形成内部电极的导电浆料和使用导电浆料的层压陶瓷电子部件。 导电膏是主要由Ni构成的导电粉末; 有机车辆 化合物A,其为有机酸金属盐,有机金属络合盐和醇盐中的至少一种,并且含有Mg,Ca和Ba中的至少一种; 和含有Al和Si中的至少一种的水解化合物B; 其中水解化合物B粘附到导电粉末的表面。
    • 4. 发明授权
    • Method of producing ceramic green sheet and method of manufacturing multilayer ceramic electronic part
    • 陶瓷生片的制造方法和多层陶瓷电子部件的制造方法
    • US06849145B2
    • 2005-02-01
    • US10448118
    • 2003-05-30
    • Tsuyoshi YamanaTakaharu Miyazaki
    • Tsuyoshi YamanaTakaharu Miyazaki
    • H01C7/00H01C7/18H01C17/065H01G4/12H01G4/30B32B31/26B28B11/08
    • H01G4/30H01C7/003H01C7/18H01C17/06506H01G4/12
    • A ceramic green sheet having good surface roughness and few pinhole defects even when producing a thin ceramic green sheet is stably produced, to permit efficiently and securely manufacturing a multilayer ceramic electronic part in which deterioration of its life due to unevenness of interfaces between internal electrodes and ceramic layers and the occurrence of structural defects, such as delamination, bending of an electrode portion, etc, in a multilayer thin film to be suppressed. A dry sheet obtained by forming ceramic slurry to a sheet on a carrier film is smoothed by pressing using a plate press, a hydrostatic press or a calender roll under predetermined temperature and pressure conditions to improve the surface smoothness of the ceramic green sheet independently of the particle diameter of the ceramic and its dispersibility. An electrode paste is coated in a predetermine pattern on the thus-produced ceramic green sheet to form a sheet provided with an electrode. A plurality of the sheets provided with electrodes are laminated, and the burned to produce a multilayer ceramic electronic part.
    • 稳定地生产具有良好的表面粗糙度和较少的针孔缺陷的陶瓷生片,即使制造薄的陶瓷生片也能有效且可靠地制造多层陶瓷电子部件,其中由于内部电极之间的界面的不均匀性而使其寿命降低 陶瓷层,以及在要抑制的多层薄膜中发生结构缺陷,如分层,电极部分的弯曲等。 通过在预定的温度和压力条件下使用压片机,静液压机或压光辊压制,将通过在载体膜上的片材形成陶瓷浆料而获得的干燥片材平滑化,以提高陶瓷生片材的表面平滑度, 陶瓷的粒径及其分散性。 在如此制备的陶瓷生片上以预定图案涂覆电极糊,以形成设置有电极的片。 层叠多个设有电极的片材,烧成多层陶瓷电子部件。
    • 7. 发明授权
    • Method of producing ceramic green sheet and method of manufacturing multilayer ceramic electronic part
    • 陶瓷生片的制造方法和多层陶瓷电子部件的制造方法
    • US06692598B1
    • 2004-02-17
    • US09690788
    • 2000-10-17
    • Tsuyoshi YamanaTakaharu Miyazaki
    • Tsuyoshi YamanaTakaharu Miyazaki
    • B32B3126
    • H01G4/30H01C7/003H01C7/18H01C17/06506H01G4/12
    • A ceramic green sheet having good surface roughness and few pinhole defects even when producing a thin ceramic green sheet is stably produced, to permit efficiently and securely manufacturing a multilayer ceramic electronic part in which deterioration of its life due to unevenness of interfaces between internal electrodes and ceramic layers and the occurrence of structural defects, such as delamination, bending of an electrode portion, etc., in a multilayer thin film to be suppressed. A dry sheet obtained by forming ceramic slurry to a sheet on a carrier film is smoothed by pressing using a plate press, a hydrostatic press or a calender roll under predetermined temperature and pressure conditions to improve the surface smoothness of the ceramic green sheet independently of the particle diameter of the ceramic and its dispersibility. An electrode paste is coated in a predetermine pattern on the thus-produced ceramic green sheet to form a sheet provided with an electrode. A plurality of the sheets provided with electrodes are laminated, and the burned to produce a multilayer ceramic electronic part.
    • 稳定地生产具有良好的表面粗糙度和较少的针孔缺陷的陶瓷生片,即使制造薄的陶瓷生片也能有效且可靠地制造多层陶瓷电子部件,其中由于内部电极和 陶瓷层,以及要抑制的多层薄膜中出现结构缺陷,如分层,电极部分的弯曲等。 通过在预定的温度和压力条件下使用压片机,静液压机或压光辊压制,将通过在载体膜上的片材形成陶瓷浆料而获得的干燥片材平滑化,以提高陶瓷生片材的表面平滑度, 陶瓷的粒径及其分散性。 在如此制备的陶瓷生片上以预定图案涂覆电极糊,以形成设置有电极的片。 层叠多个设有电极的片材,烧成多层陶瓷电子部件。
    • 8. 发明授权
    • Method of producing a monolithic ceramic capacitor
    • 制造叠层陶瓷电容器的方法
    • US06442813B1
    • 2002-09-03
    • US09058081
    • 1998-04-09
    • Norihiko SakamotoHarunobu SanoTakaharu Miyazaki
    • Norihiko SakamotoHarunobu SanoTakaharu Miyazaki
    • H01G907
    • H01G4/30Y10T29/43Y10T29/435Y10T29/49126
    • A monolithic ceramic capacitor includes a plurality of dielectric ceramic layers, a plurality of inner electrodes formed between the dielectric ceramic layers in such a manner that one end of each inner electrode is exposed out of either end of the dielectric ceramic layers, and outer electrodes electrically connected with the exposed inner electrodes; in which the inner electrodes each are made of a base metal, and Si oxide layers or layers comprising an Si oxide and at lest one component that constitutes said dielectric ceramic layers and said inner electrodes are formed adjacent to the inner electrodes. The capacitor has excellent thermal impact resistance and wet load resistance characteristics. A producing method includes firing a green sheet laminate including a metal inner electrode at an oxygen partial pressure of about said equilibrium oxygen partial pressure of the metal to the metal oxide.
    • 单片陶瓷电容器包括多个电介质陶瓷层,多个内电极,形成在电介质陶瓷层之间,使每个内电极的一端从电介质陶瓷层的任一端露出,外电极电 与暴露的内部电极连接; 其中内部电极各自由贱金属制成,并且包括Si氧化物的Si氧化物层或构成所述介电陶瓷层和所述内部电极的至少一个部件的Si形成在与内部电极相邻的位置。 电容器具有优异的耐热冲击性和耐湿负载特性。 一种制造方法包括以大约金属的平衡氧分压的氧分压与金属氧化物烧结包含金属内电极的生片层压体。
    • 9. 发明授权
    • Monolithic ceramic capacitor
    • 单片陶瓷电容器
    • US5835339A
    • 1998-11-10
    • US901221
    • 1997-07-24
    • Norihiko SakamotoHarunobu SanoTakaharu Miyazaki
    • Norihiko SakamotoHarunobu SanoTakaharu Miyazaki
    • C04B35/46H01B3/00H01B3/12H01G4/12H01G4/30H01G4/005H01G4/06
    • H01G4/30
    • A monolithic ceramic capacitor and producing method thereof are disclosed. The ceramic capacitor has a plurality of dielectric ceramic layers, a plurality of inner electrodes formed between the dielectric ceramic layers in such a manner that one end of each inner electrode is exposed out of either end of the dielectric ceramic layers, and outer electrodes electrically connected with the exposed inner electrodes; in which the inner electrodes each are made of a base metal, and Si oxide layers or layers comprising an Si oxide and at least one component that constitutes said dielectric ceramic layers and said inner electrodes are formed adjacent to the inner electrodes. The capacitor has excellent thermal impact resistance and wet load resistance characteristics.
    • 公开了一种叠层陶瓷电容器及其制造方法。 陶瓷电容器具有多个电介质陶瓷层,多个内电极,形成在电介质陶瓷层之间,使得每个内电极的一端从电介质陶瓷层的任一端露出,外电极电连接 与暴露的内部电极; 其中内部电极各自由贱金属制成,并且包括Si氧化物和构成所述电介质陶瓷层和所述内部电极的至少一个部件的Si氧化物层或层形成为与内部电极相邻。 电容器具有优异的耐热冲击性和耐湿负载特性。