序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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161 | Composition de beton a poudres reactives et preparation d'une piece a partir de celle-ci | EP02291194.5 | 2002-05-14 | EP1258465A1 | 2002-11-20 | Septfons, Martine; Risson, Tania; Maximilien, Sandrine; Fantozzi, Gilbert |
Composition de béton à poudres réactives BPR comprenant les constituants suivants, dont les proportions sont exprimées en teneur en poids de constituant par rapport à la teneur en poids de ciment :
Procédé de préparation d'une pièce, telle qu'une plaque, à partir de celle-ci. Les plaques ainsi préparées trouvent notamment leur utilisation dans les appareils de cuisson thermique, par exemple à induction. |
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162 | Verfahren zur Herstellung von Geschirrdekoren mit erhöhter Widerstandsfähigkeit gegen Besteckabriebspuren und Mittel hierfür | EP98117045.9 | 1998-09-09 | EP0906897B1 | 2001-05-16 | Speer, Dietrich, Dr.; Huber, Adalbert, Dr.; Dorer, Kai; Wachowitz, Gabriele |
163 | TEMPERATURBESTÄNDIGE UND KRATZFESTE ANTIHAFTBESCHICHTUNG | EP98940130.0 | 1998-07-03 | EP0937012A1 | 1999-08-25 | BERKENKÖTTER, Herbert; KAUP, Friedel; KRÜMPELMANN, Thomas; MANGEN, Walter; SILLMEN, Ulrich |
The invention relates to a carrier material having an inorganic molecular structure and a surface coating produced by applying a substance and by heat treatment. The invention also relates to a method for the production and to the appropriate uses of said surface coating. Carrier materials made of glass, metal or ceramic should be provided with a surface coating with anti-sticking properties against water-based and/or oil-based organic materials or water-oil emulsions while exhibiting at the same time essentially better temperature-resistant and anti-scratch characteristics than conventional PTFE or silicone coatings. These requirements are met by an inventive surface coating consisting of a combination of inorganic molecules of the carrier material and organic molecules of an applied substance on the uppermost molecular layer of said coating. In order to produce such a surface, an inorganic substance with silicone-like networks is initially applied. Subsequently, heat treatment is carried out, whereby the temperature and duration of said treatment are chosen in such a way that the purely organic coating applied is fully decomposed and/or removed so that a combination of inorganic molecules of the carrier material and organic molecules of the applied substance is formed. The appropriate carrier materials with the inventive surface coating can be advantageously used above all in household appliances and kitchenware. | ||||||
164 | NONCAUSTIC CLEANING COMPOSITION COMPRISING PEROXYGEN COMPOUND AND SPECIFIC SILICATE AND METHODS OF MAKING AND USING SAME | EP96907078 | 1996-03-01 | EP0812241A4 | 1999-08-18 | TALLEY CHARLES BULLICK |
The present invention discloses an alkaline cleaning composition for cleaning heavily soiled metal surfaces such as food fryers, baking pans, high temperature pasteurizers, and beer kettles, ceramic surfaces such as restaurant grade ceramic china plates and platters, and plastic surfaces. The cleaning composition is noncaustic and includes a peroxygen compound, a chelate, and a metasilicate and/or sesquisilicate. A preferred cleaning composition further includes a surfactant and hydrated builder. | ||||||
165 | NONCAUSTIC CLEANING COMPOSITION COMPRISING PEROXYGEN COMPOUND AND SPECIFIC SILICATE AND METHODS OF MAKING AND USING SAME | EP96907078.0 | 1996-03-01 | EP0812241A1 | 1997-12-17 | TALLEY, Charles, Bullick |
The present invention discloses an alkaline cleaning composition for cleaning heavily soiled metal surfaces such as food fryers, baking pans, high temperature pasteurizers, and beer kettles, ceramic surfaces such as restaurant grade ceramic china plates and platters, and plastic surfaces. The cleaning composition is noncaustic and includes a peroxygen compound, a chelate, and a metasilicate and/or sesquisilicate. A preferred cleaning composition further includes a surfactant and hydrated builder. | ||||||
166 | HINGES FOR HIGHLY INORGANICALLY FILLED COMPOSITE MATERIALS | EP95908452.0 | 1995-01-03 | EP0743899A1 | 1996-11-27 | ANDERSEN, Per, Just; HODSON, Simon, K. |
A hinge for use in inorganically filled composite materials is provided. The hinge has an inorganically filled structural matrix comprising a water-dispersable organic polymer binder, an aggregate material, and a fibrous material. The hinge allows inorganically filled materials to be bent along a line without breakage of the material. The hinge is preferably formed by scoring a formed sheet of inorganically filled material (50). The hinge is particularly useful in containers that require bending of various container parts, such as in food containers and boxes made from inorganically filled materials. | ||||||
167 | Keramisches Bauteil mit einem korrosionsbeständigen Überzug | EP94111461.3 | 1994-07-22 | EP0637571B1 | 1996-11-13 | Frankfurter, Günter; Pöhlmann, Heinz |
168 | Chemically adsorbed monomolecular lamination film and method of manufacturing the same | EP91118094.1 | 1991-10-23 | EP0484746B1 | 1996-09-18 | Ogawa, Kazufumi; Mino, Norihisa; Soga, Mamoru |
169 | INDUCTION HEATING SUBSTRATE FOR CERAMIC OR VITROCERAMIC CONTAINERS | EP95909004.0 | 1995-02-10 | EP0695282A1 | 1996-02-07 | VIGNAUD, Jacques, Gilles |
Method of applying an induction heating substrate to a cooking utensil in the form of a ceramic or vitroceramic container. The inner or outer surface of the container base is coated with a single layer of electrically conducting or ferro/ferrimagnetic material; the coating is then baked. | ||||||
170 | HYDRAULICALLY SETTABLE CONTAINERS | EP93919862.0 | 1993-07-30 | EP0662029A1 | 1995-07-12 | ANDERSEN, Per, Just; HODSON, Simon, K. |
Containers incorporating a hydraulically settable structural matrix including a hydraulically settable binder such as cement for use in the storing, dispensing, and/or packaging of food and beverage products are disclosed. The disposable and nondisposable food and beverage articles of manufacture have high tensile, compressive, and flexural strengths, and are lightweight, insulative (if desired), inexpensive, and more environmentally compatible than those currently used. These disposable containers and cups are particularly useful for dispensing hot and cold food and beverages in the fast food restaurant environment. The structural matrix of the food and beverage containers includes a hydraulic cement paste (formed from the reaction of water with, e.g., a portland-type cement) preferably in combination with a rheology-modifying plasticizer, such as methylhydroxyethylcellulose, various aggregate materials, and fibrous materials, which provide desired properties at a cost which is economical. | ||||||
171 | Pasteurizable, cook-in multilayer shrink film | EP92830555.6 | 1992-10-26 | EP0594918A1 | 1994-05-04 | Forloni, Roberto; Paleari, Mario |
A pasteurizable and/or cook-in multilayer shrink film, which is characterized in that the innermost sealing layer comprises an ethylene-butyl acrylate-maleic anhydride copolymer. |
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172 | Chemically adsorbed monomolecular lamination film and method of manufacturing the same | EP91118094.1 | 1991-10-23 | EP0484746A3 | 1992-10-28 | Ogawa, Kazufumi; Mino, Norihisa; Soga, Mamoru |
The invention to provide a chemically adsorbed monomolecular lamination film comprising a chemically adsorbed monomolecular film formed via a siloxane-based monomolecular or polymer film on a substrate surface. It also seeks to provide a method of forming a chemically adsorbed monomolecular film efficiently and with high density on a substrate surface with few hydroxyl groups, which method comprises a step of contacting a substrate containing hydroxyl groups present on the surface with a non-aqueous solution containing a material with plural chlorosilanol groups in molecule, a step of removing the material remaining on the substrate without reaction by washing the substrate with a non-aqueous organic solution (if this process is omitted, the siloxane-based polymer film is prepared on the substrate), a step of forming a monomolecular film constituted by a compound containing a silanol group in molecule on the substrate by exposing to the air containing moisture or washing with water, after the removal step, and a step of laminating a monomolecular adsorption film by adosorbing a chlorosilane-based surface active agent constituted by a straight hydrocarbon chain having a chlorosilane groups at one end onto the substrate after the monomolecular or polymer film formation step. |
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173 | Chemically adsorbed monomolecular lamination film and method of manufacturing the same | EP91118094.1 | 1991-10-23 | EP0484746A2 | 1992-05-13 | Ogawa, Kazufumi; Mino, Norihisa; Soga, Mamoru |
The invention to provide a chemically adsorbed monomolecular lamination film comprising a chemically adsorbed monomolecular film formed via a siloxane-based monomolecular or polymer film on a substrate surface. It also seeks to provide a method of forming a chemically adsorbed monomolecular film efficiently and with high density on a substrate surface with few hydroxyl groups, which method comprises a step of contacting a substrate containing hydroxyl groups present on the surface with a non-aqueous solution containing a material with plural chlorosilanol groups in molecule, a step of removing the material remaining on the substrate without reaction by washing the substrate with a non-aqueous organic solution (if this process is omitted, the siloxane-based polymer film is prepared on the substrate), a step of forming a monomolecular film constituted by a compound containing a silanol group in molecule on the substrate by exposing to the air containing moisture or washing with water, after the removal step, and a step of laminating a monomolecular adsorption film by adosorbing a chlorosilane-based surface active agent constituted by a straight hydrocarbon chain having a chlorosilane groups at one end onto the substrate after the monomolecular or polymer film formation step. |
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174 | Method for coating the fibers with a metal by a liquid method | JP2006273654 | 2006-10-05 | JP5326199B2 | 2013-10-30 | ジヤン−ミシエル・パトリツク・モーリス・フランシエ; ジヤン−フランソワ・フロマンタン; ジヤン−ミシエル・クニセ; カリンヌ・デユーダ; コリンヌ・アルビユ; ピエール・エリツク・フレイシンヌ |
Coating of metal fibres by a liquid route, in which the fibre, coated with a material forming a barrier to diffusion with the metal, is drawn through a bath of liquid metal in order to be coated with this liquid metal. Prior to the passage of the fibre through the bath, it is coated with a compound that is wettable with respect to the metal. | ||||||
175 | Applied to the protected surface modification system and the substrate | JP2008512376 | 2006-05-12 | JP4818355B2 | 2011-11-16 | シトン チュウ; ジェイムズ サンフォード ティモシー; ジェイ.シモンズ ローレンス; トーマス ウェバーグ ロルフ |
176 | Ceramics and pottery for the covering material | JP2200198 | 1998-02-03 | JP3877418B2 | 2007-02-07 | 邦夫 入内島; 久夫 星野 |
177 | Sanitary ware | JP7938599 | 1999-03-24 | JP3567788B2 | 2004-09-22 | 徹 上野; 豊 冨岡; 堀内 智; 茂幸 山田; 克博 川上; 幸成 松本; 慎吾 笠原; 稔光 須田; 高田 宏行 |
178 | Porous low water permeability lightweight pottery. | JP19862697 | 1997-07-24 | JP3541215B2 | 2004-07-07 | 雅夫 宮代; 雄司 川口; 正美 横井川; 隆臣 西尾; 宏亮 高畑 |
179 | Method of forming sunk relief on porcelain or earthenware | JP2003190234 | 2003-07-02 | JP2004035397A | 2004-02-05 | DUVAL GILLES |
PROBLEM TO BE SOLVED: To provide a method of forming clear and deep sunk reliefs on porcelain or earthenware. SOLUTION: A mask formed by printing a pattern on the backing and having a resist part (3) withstanding the jet of an abrasive and an opening part allowing the abrasive to pass is arranged on the surface of a vessel (8). An abrasive (16) suitable for etching the porcelain or the earthenware is jetted at least toward the opening part to obtain one or more sunk reliefs each having a prescribed shape and depth. COPYRIGHT: (C)2004,JPO | ||||||
180 | Ironstone china and its manufacturing process | JP2002232144 | 2002-07-06 | JP2004035385A | 2004-02-05 | HATTORI YOSHIAKI; IDE TOSHIRO; MIZUMOTO KAZUYA |
PROBLEM TO BE SOLVED: To provide an ironstone china the body of which having a water absorption level of easily invaded with filthy water and microparticles is not exposed to its surface and a suitable process for manufacturing it. SOLUTION: In an application process P7, a material forming a porcelain layer having a lower refractoriness than that of the basis material body 42 is coated on a part corresponding to the base 44 of a formed body 52 formed from a raw material to have a required shape. In a biscuit firing process P8, the formed body 52 is biscuit fired, where a porcelain layer 48 substantially having no water absorption is formed at the surface of the base 44. Therefore, a glaze layer 46 is unnecessary to be overlaid on the surface of the porcelain layer 48. In the glazing process P13, the base 44 does not adhere to a refractory setter 62 in case the formed body is directly put on the setter 62. A part which becomes the glaze layer 46 is unnecessary to be supported by a certain holder and an unglazed part caused by the holder is not formed. COPYRIGHT: (C)2004,JPO |