| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | Lightweight laminated or composite structures | EP88304999.1 | 1988-06-01 | EP0294176A2 | 1988-12-07 | Lipp, George Daniel; Chyung, Kenneth; Daws, Steven Bruce; Gadkaree, Kishor Purushottam; Morena, Robert Michael; Taylor, Mark Peter |
Described are laminated structures consisting essentially of a light weight interior member prepared from a glass, glass-ceramic, or ceramic, an exterior member prepared from a glass, glass-ceramic, or ceramic, and a bonding member prepared from a glass, glass-ceramic, or ceramic. The light weight interior member may be composed of a porous body, a corrugated body, or a honeycomb body. In a preferred embodiment, at least one of said members is reinforced through the entrainment of ceramic fibers and/or whiskers. In the most preferred embodiment, each exterior and interior member is reinforced through the entrainment of ceramic fibers and/or whiskers and the bonding member is reinforced through the entrainment of ceramic whiskers. Also described are bonded ceramic matrix composite structures such as ceramic panels or beams, and a method for making them, the structures comprising ceramic facing sheets to which are bonded one or an array of relatively thin-walled, hollow, high-stiffness channeled ceramic support elements (2), the support elements being of modular design with each support being formed by a continuous composite ceramic wall incorporating multidirectional fiber reinforcement and defining a central channel extending, in the bonded structure, in a direction generally parallel with the ceramic facing sheets (1). Methods are shown for making these laminated and bonded composite structures. |
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| 242 | KERAMIK AUS PRÄKERAMISCHEN PAPIER- UND/ODER PAPPSTRUKTUREN | EP11784940.6 | 2011-10-31 | EP2637987B1 | 2014-08-06 | BOLDUAN, Peter |
| 243 | KERAMIK AUS PRÄKERAMISCHEN PAPIER- UND/ODER PAPPSTRUKTUREN | EP11784940.6 | 2011-10-31 | EP2637987A2 | 2013-09-18 | BOLDUAN, Peter |
| The invention relates to a ceramic which can be obtained from a composite of at least two outer preceramic paper and/or cardboard structures (1, 2) as cover layers and at least one inner preceramic paper and/or cardboard structure (3, 4) as an intermediate layer and spacer for the outer preceramic paper and/or cardboard structures (1, 2). According to the invention the inner preceramic paper- and/or cardboard structure (3, 4) in the composite is connected on the upper and/or lower face over the entire surface to at least one further preceramic paper- and/or cardboard structure (1, 2) and the inner preceramic paper- and/or cardboard structure (3, 4) has a plurality of surface cut-outs (5, 6). | ||||||
| 244 | ELECTRODE DE BATTERIE ACIDE-PLOMB COMPORTANT UN RESEAU DE PORES TRAVERSANTS ET PROCEDE DE FABRICATION | EP10709748.7 | 2010-03-23 | EP2417654B1 | 2013-09-18 | KIRCHEV, Angel Zhivkov; KIRCHEVA, Nina |
| 245 | Honeycomb filter and ceramic filter assembly | EP06075590.7 | 2000-09-26 | EP1688171B2 | 2013-03-27 | Ohno, Kazushige, c/o Ibiden Co., Ltd.; Shimato, Koji, c/o Ibiden Co., Ltd.; Tsuji, Masahiro, c/o Ibiden Co., Ltd. |
| 246 | METHOD OF JOINING CERAMIC HONEYCOMB STRUCTURE BODY | EP04702045.8 | 2004-01-14 | EP1591430B1 | 2013-03-06 | FUJITA, Jun c/o NGK Insulators, Ltd.; KANEKO, Takahisa c/o NGK Insulators, Ltd.; WADA, Yukihisa c/o NGK Insulators, Ltd. |
| 247 | METHODE D'OBTENTION D'UNE STRUCTURE DE FILTRATION HOMOGENE POUR UNE APPLICATION CATALYTIQUE | EP06831250.3 | 2006-09-29 | EP1945356B1 | 2012-09-26 | ANDY, Patricia; BARDON, Sébastien; GLEIZE, Vincent, Marc |
| 248 | ELECTRODE DE BATTERIE ACIDE-PLOMB COMPORTANT UN RESEAU DE PORES TRAVERSANTS ET PROCEDE DE FABRICATION | EP10709748.7 | 2010-03-23 | EP2417654A1 | 2012-02-15 | KIRCHEV, Angel Zhivkov; KIRCHEVA, Nina |
| The invention relates to a structure (1) comprising a network of parallel, homogeneous pores (1) extending through said structure, and an outer frame (2) around the lateral faces of the structure (1). The structure (1) and the frame (2) are made of carbon. The electrode is covered with a layer based on lead. The pores (1) are filled with an active material based on lead. | ||||||
| 249 | HONEYCOMB STRUCTURE | EP06715367 | 2006-03-07 | EP1860082A4 | 2011-08-03 | ICHIKAWA SYUICHI; MASUKAWA NAOSHI; IWATA KOICHI; WATANABE ATSUSHI |
| There is provided a honeycomb structure 10 comprising a honeycomb segment joined body 10 having a plurality of honeycomb segments 2 integrally joined with one another at a joint face of each of the honeycomb segments by means of a bonding material layer 9 and having a plurality of cells 5 functioning as fluid passages disposed in parallel with one another in a direction of central axis. Porosity in an outside portion of the bonding material layer 9 (portion from the interface of the joint face of honeycomb segments to the point corresponding to 20% thickness of the total bonding material layer) is smaller than that in the central portion located on the inner side of the outside portion. | ||||||
| 250 | HONEYCOMB STRUCTURE | EP05787923.1 | 2005-09-28 | EP1795262B1 | 2010-01-27 | OHNO, Kazushige, c/o IBIDEN CO., LTD.; SATO, Hiroki, c/o IBIDEN CO., LTD.; HAYASHI, Masayuki, c/o IBIDEN CO., LTD.; OGYU, Kazutake, c/o IBIDEN CO., LTD. |
| 251 | VERBÜNDE KERAMISCHER HOHLFASERN, VERFAHREN ZU DEREN HERSTELLUNG UND DEREN VERWENDUNG | EP06706352.9 | 2006-01-23 | EP1846345B1 | 2009-12-16 | WERTH, Steffen; DINGES, Nicole; KILGUS, Mirjam; SCHIESTEL, Thomas |
| The invention relates to composites, comprising at least one hollow fibre, made from an oxygen-transporting ceramic material which is a combination of oxygen anion and electron-conducting ceramic material, or a combination of oxygen anion conducting ceramic material and electron-conducting ceramic or non-ceramic material, whereby the outer surface of the hollow fibre is in contact with the outer surface of the same or a different hollow fibre and the contact points are connected by means of sintering. Further composites contain at least one hollow fibre, made from oxygen transporting ceramic material, which is an oxygen anion and electron-conducting ceramic material, or a combination of oxygen anion conducting ceramic material and electron-conducting ceramic or non-ceramic material, with a connector element for the introduction or removal of fluids on at least one front face, whereby the hollow fibres and the connector element are connected. The composites are of application in obtaining oxygen from oxygen-containing gas mixtures or for carrying out oxidation reactions. | ||||||
| 252 | CERAMIC STRUCTURE BODY | EP04801773.5 | 2004-11-12 | EP1698604B1 | 2009-05-27 | ONO, Masaharu, c/o IBIDEN Co., Ltd.; TAKAHASHI, Koji, c/o IBIDEN Co., Ltd.; HOSHINO, Takafumi, c/o IBIDEN Co., Ltd.; KAWADA, Hideya, c/o IBIDEN Co., Ltd. |
| 253 | Honeycomb filter and ceramic filter assembly | EP04025972.3 | 2000-09-26 | EP1508358B1 | 2009-04-15 | Ohno, Kazushige; Shimato, Koji; Tsuji, Masahiro |
| 254 | FILTRE CATALYTIQUE POUR LA FILTRATION D'UN GAZ COMPRENANT UN REVETEMENT ET/OU UN JOINT DE POROSITE CONTROLEE | EP06726320.2 | 2006-04-07 | EP1871525A2 | 2008-01-02 | ANDY, Patricia Chez Mme Biancotti; BARDON, Sébastian; BRIOT, Anthony |
| The invention concerns a catalytic filter for depolluting a gas loaded with soot particles and gaseous pollutants, obtained by impregnating in a catalytic solution a filtering structure formed by an assembly of honeycomb-type monolithic elements, wherein the porosity of the cement used as coating and/or as joint and/or as plug is less than the porosity of the material constituting said element(s). | ||||||
| 255 | CERAMIC HONEYCOMB STRUCTURE | EP05793562 | 2005-10-11 | EP1808217A4 | 2007-11-28 | KUNIEDA MASAFUMI |
| A honeycomb structure body capable of simultaneously achieving collection/removal of particulates included in exhaust gas discharged from an internal combustion engine etc. and purification of harmful gas included in the exhaust gas. In the honeycomb structure body, a cell wall is made from a sintered body having a fine pore structure in which a first fine pore group has one peak in distribution in a fine pore diameter distribution curve and a second fine pore group has more than one peak in the distribution, where the first fine pore group is a group of fine pores whose diameters are in the range of 1.0 - 150 µm in the distribution and the second fine pore group is a group of fine pores whose diameters are in the range of 0.006 - less than 1.0 µm in the distribution. | ||||||
| 256 | HONEYCOMB STRUCTURE | EP04700781 | 2004-01-08 | EP1600433A4 | 2007-11-07 | MASUKAWA NAOSHI; ICHIKAWA SHUICHI |
| A honeycomb structure, comprising a plurality of honeycomb segments partitioned by partition walls and having a plurality of flow holes passed therethrough in one axial direction and joining layers positioned between the adjacent honeycomb segments and joining the plurality of honeycomb segments. The joining layers are formed of a joining material including oxide fibers meeting the requirement of the following relational expression. 0.5 < L x (W/D)/100 < 8 Where, L (μm) is the averaged fiber length of the oxide fibers D (g/cm3) is the specific gravity of the oxide fibers W (w.%) is the mass percentage content of the oxygen fibers to all joining material | ||||||
| 257 | VERBUNDE KERAMISCHER HOHLFASERN, VERFAHREN ZU DEREN HERSTELLUNG UND DEREN VERWENDUNG | EP06706346.1 | 2006-01-21 | EP1848674A1 | 2007-10-31 | KILGUS, Mirjam; SCHIESTEL, Thomas |
| The invention relates to composites, comprising at least one hollow fibre made from a gas- or liquid-transporting ceramic material, the outer surface of which is in contact with the outer surface of the same or a different hollow fibre and the contact points are connected by sintering. Further composites comprise at least one hollow fibre made from gas- or liquid-transporting ceramic material and a connector element on at least one front face, for the introduction or removal of fluids, whereby the hollow fibres are connected to the connector element by means of sintering. The composites are suitable for obtaining gasses from gas mixtures. | ||||||
| 258 | VERBÜNDE KERAMISCHER HOHLFASERN, VERFAHREN ZU DEREN HERSTELLUNG UND DEREN VERWENDUNG | EP06706352.9 | 2006-01-23 | EP1846345A1 | 2007-10-24 | WERTH, Steffen; DINGES, Nicole; KILGUS, Mirjam; SCHIESTEL, Thomas |
| The invention relates to composites, comprising at least one hollow fibre, made from an oxygen-transporting ceramic material which is a combination of oxygen anion and electron-conducting ceramic material, or a combination of oxygen anion conducting ceramic material and electron-conducting ceramic or non-ceramic material, whereby the outer surface of the hollow fibre is in contact with the outer surface of the same or a different hollow fibre and the contact points are connected by means of sintering. Further composites contain at least one hollow fibre, made from oxygen transporting ceramic material, which is an oxygen anion and electron-conducting ceramic material, or a combination of oxygen anion conducting ceramic material and electron-conducting ceramic or non-ceramic material, with a connector element for the introduction or removal of fluids on at least one front face, whereby the hollow fibres and the connector element are connected. The composites are of application in obtaining oxygen from oxygen-containing gas mixtures or for carrying out oxidation reactions. | ||||||
| 259 | Method for manufacturing honeycomb structured body and honeycomb structured body | EP06021731.2 | 2006-10-17 | EP1820787A1 | 2007-08-22 | Yamamura, Norihiko; Ohno, Kazushige; Shimato, Koji |
The present invention aims at providing a method for manufacturing a honeycomb structured body, capable of efficiently giving information about a honeycomb molded body and/or a honeycomb fired body without affecting characteristics thereof, and effectively utilizing the information for production history and production control. The method for manufacturing a honeycomb structured body according to the present invention comprises manufacturing a pillar-shaped honeycomb molded body having a large number of cells longitudinally placed in parallel with one another with a cell wall therebetween; forming a honeycomb fired body by degreasing and firing the honeycomb molded body; and a binding step for binding a plurality of the honeycomb fired bodies by interposing a sealing material layer, and further comprising: a step of drawing information on a side face of the honeycomb molded body and/or the honeycomb fired body, in form of at least one of a graphic, a symbol, a character, a barcode and a two-dimensional code, in a step prior to the binding step.
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| 260 | Honeycomb filter and ceramic filter assembly | EP04025969.9 | 2000-09-26 | EP1508355B1 | 2007-01-10 | Ohno, Kazushige; Shimato, Koji; Tsuji, Masahiro |
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