Patent application number | Description | Published |
20100055436 | CERAMIC GREEN BODY AND METHOD FOR PRODUCING THE SAME - The ceramic slurry is prepared by mixing a ceramic powder, a solvent, a dispersion medium, an isocyanate, a polyol, and a catalyst for accelerating a urethane reaction between the isocyanate and the polyol. A temperature-sensitive catalyst, which substantially exhibits a catalyst function only within a specific temperature range including an active temperature and higher than room temperature, is used as the catalyst. In a solidifying and drying step performed after a molding step of the slurry at room temperature, the solidification/drying temperature is set to be a high temperature within the range (within the specific temperature range) relatively close to the active temperature of the temperature-sensitive catalyst, and this temperature is maintained. Thus, the catalyst function can sufficiently be exhibited under high temperature. | 03-04-2010 |
20110159408 | MANUFACTURING METHOD OF SOLID OXIDE FUEL CELL, AND MANUFACTURING METHOD OF COMPACT OF DIVIDED MEMBER OF THE CELL - A compact of a support-member divided-member, which has a shape formed by dividing a support member into two in the thickness direction so as to divide the fuel channel into two in the thickness direction, is manufactured by a gel cast method in which slurry is filled in a molding die. A compact of a fuel-side electrode and a compact of an electrolyte are successively stacked on the upper surface of the compact of the support-member divided-member, whereby a compact of a cell divided member is obtained. The two compacts of the cell divided member are bonded and sintered, whereby an SOFC cell (sintered body) in which an oxygen-side electrode is not formed is formed. A compact of the oxygen-side electrode is formed respectively on the upper and lower surfaces of the sintered body, and then, the compact of the oxygen-side electrode is sintered, whereby the SOFC cell is completed. | 06-30-2011 |
20110217557 | CERAMIC GREEN BODY AND METHOD FOR PRODUCING THE SAME - The ceramic green sheet is formed by molding and drying “a ceramic slurry containing a ceramic powder, an unreacted portion of an isocyanate, an unreacted portion of a polyol, a urethane resin that is produced by mixing isocyanate and polyol and serves as an organic binder, and a solvent”, the ceramic slurry being prepared by mixing the ceramic powder, the isocyanate, the polyol, and the solvent. A thin sheet-like molded body is formed by printing a molded body of a paste, which is prepared by mixing a ceramic powder, an organic binder that is a resin not containing a hydroxyl group, and a solvent, on the ceramic green sheet, and by drying the resultant. A dry shrinkage percentage of the ceramic green sheet upon forming the thin sheet-like molded body thereon can significantly be reduced. | 09-08-2011 |
20120208953 | METHOD FOR PRODUCING POWDER MOLDED PRODUCT AND POWDER MOLDED PRODUCT - The powder molded product of the present invention is produced through molding of a slurry containing a powdery molding raw material, a dispersion medium having a molecular weight of 150 or more for dispersing the molding raw material, a dispersant for uniformly dispersing the molding raw material in the dispersion medium, a binder precursor for producing an organic binder through a chemical reaction, and a reaction promoter for promoting the chemical reaction. The method for producing a powder molded product of the present invention includes a slurry preparation step; a molding step of molding the prepared slurry into a primary molded product having a specific shape; and a drying-solidification step of solidifying the slurry by promoting the aforementioned chemical reaction in the primary molded product, and removing, through evaporation, the dispersion medium from the primary molded product. | 08-16-2012 |
20120248716 | METHOD FOR PRODUCING ELECTROSTATIC CHUCK AND ELECTROSTATIC CHUCK - A method for producing an electrostatic chuck includes the steps of (a) placing a ceramic slurry in a molding die, the ceramic slurry containing a ceramic powder, a solvent, a dispersing agent, and a gelling agent, gelatinizing the ceramic slurry in the molding die, and removing the molding die to obtain first and second ceramic molded bodies; (b) drying, debinding, and calcining the first and second molded bodies to obtain first and second ceramic calcined bodies; (c) printing an electrostatic electrode paste on a surface of one of the first and second ceramic calcined bodies to form an electrostatic electrode while assuming the first ceramic calcined body is to form a dielectric layer of an electrostatic chuck; and (d) superposing the first and second ceramic calcined bodies on each other to sandwich the electrostatic electrode and subjecting the first and second calcined bodies to hot-press firing. | 10-04-2012 |
20120250212 | METHOD FOR PRODUCING ELECTROSTATIC CHUCK AND ELECTROSTATIC CHUCK - A method for producing an electrostatic chuck | 10-04-2012 |
20130256297 | CERAMIC HEATER, HEATER ELECTRODE, AND METHOD FOR MANUFACTURING CERAMIC HEATER - The electrostatic chuck | 10-03-2013 |
20140284320 | CERAMIC HEATER AND METHOD FOR PRODUCING THE SAME - An electrostatic chuck | 09-25-2014 |