Silicon Carbide Patents (Class 501/88)
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Publication number: 20130008748Abstract: A friction disc (2) with an anti-abrasion layer (1) and integrated wear indication, the friction disc (2) having a friction surface (2?) which is completely covered by the anti-abrasion layer (1). At least one indication surface element (3) which occupies a part of the friction surface (2?) and differs from at least one of the components friction surface (2?) and anti-abrasion layer (1) of the friction disc (2) in at least one of the features coloring and texture is provided between the anti-abrasion layer (1) and the friction disc (2). Compositions of the anti-abrasion layer (1) of the friction disc (2).Type: ApplicationFiled: March 16, 2011Publication date: January 10, 2013Applicant: DAIMLER AGInventors: Oliver Lembach, Ralph Mayer
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Patent number: 8349231Abstract: This invention relates to a process for the production of a shaped composite material and the material obtained through that process. In particular it relates to a process for obtaining a disk of composite ceramic material for disc brakes in which the friction coefficient is varied by varying the composition of the surface layer.Type: GrantFiled: December 30, 2004Date of Patent: January 8, 2013Assignee: Brembo Ceramic Brake Systems S.p.A.Inventors: Ralf Siegfried Goller, Marco Orlandi, Riccardo Piavani
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Publication number: 20120295784Abstract: A ceramic article comprises ceramic fibers having an aspect ratio of greater than 3:1 and ceramic particles. The ceramic fibers are substantially randomly oriented in three dimensions in the ceramic article. A method of forming the ceramic article includes the step of providing a composition including ceramic fibers having an aspect ratio of greater than 3:1 and ceramic particles. The composition is extruded through a multi-screw extruder having at least three intermeshing screws to form an extrudate. The extrudate is heated to form the ceramic article.Type: ApplicationFiled: April 10, 2012Publication date: November 22, 2012Inventors: Thomas W. McCullough, James E. Schuetz, Thomas D. Wood
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Publication number: 20120276324Abstract: The present invention relates to specific additives comprising cellulose ether for improving the extrudability of ceramic masses and other masses which set as a result of baking or sintering, a corresponding extrusion process, the extrudates and their use.Type: ApplicationFiled: November 27, 2007Publication date: November 1, 2012Inventor: Roland Bayer
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Publication number: 20120277087Abstract: Composite bodies made by a silicon metal infiltration process that feature a silicon intermetallic, e.g., a metal silicide. Not only does this give the composite material engineer greater flexibility in designing or tailoring the physical properties of the resulting composite material, but the infiltrant also can be engineered compositionally to have much diminished amounts of expansion upon solidification, thereby enhancing net-shape-making capabilities. These and other consequences of engineering the metal component of composite bodies made by silicon infiltration permit the fabrication of large structures of complex shape.Type: ApplicationFiled: March 14, 2012Publication date: November 1, 2012Inventors: Michael K. Aghajanian, Allyn L. McCormick, Michael S. Epperly
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Patent number: 8293667Abstract: It is an object of the invention to provide a ceramic sintered body that has a dense structure and minimal cracking and that exhibits excellent sliding properties even in a non-lubricated state, as well as a process for its production and sliding parts that employ the same. According to a preferred mode, the sintered body of the invention comprises silicon carbide as the parent material and further contains a solid lubricant A with a mean particle size of no greater than 5 ?m and a solid lubricant B with a mean particle size of 10-70 ?m.Type: GrantFiled: February 22, 2007Date of Patent: October 23, 2012Assignee: Hitachi Chemical Company, Ltd.Inventors: Kazuyuki Akasaka, Kiyoshi Kawai
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Patent number: 8282878Abstract: Embodiments of the present invention disclosed herein include a sintering aid composition that has a material useful for sintering, an amine, and optionally a carboxylic acid.Type: GrantFiled: January 27, 2011Date of Patent: October 9, 2012Assignee: Huntsman Petrochemical LLCInventors: Alan P. Croft, David C. Lewis
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Patent number: 8278011Abstract: The present invention relates to SiC nanostructures, including SiC nanopowder, SiC nanowires, and composites of SiC nanopowder and nanowires, which can be used as catalyst supports in membrane electrode assemblies and in fuel cells. The present invention also relates to composite catalyst supports comprising nanopowder and one or more inorganic nanowires for a membrane electrode assembly.Type: GrantFiled: February 23, 2009Date of Patent: October 2, 2012Assignee: Nanosys, Inc.Inventors: Yimin Zhu, Jay L. Goldman, Baixin Qian, Ionel C. Stefan
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Patent number: 8262981Abstract: A method for producing a ceramic material product. A filler material is provided. The filler material is divided into filler granules collectively having a median diameter approximately 10 microns or less. An amount of carbon is provided. The carbon is divided into carbon particles and the carbon particles are allowed to coat the filler granules. The mixture of carbon-coated filler granules is formed into a selected shape. The formed mixture is placed in a substantial vacuum. The mixture is introduced to a pre-selected amount of silicon and the mixture of carbon-coated filler granules and silicon is heated to a temperature at or above the melting point of the silicon.Type: GrantFiled: December 17, 2007Date of Patent: September 11, 2012Assignee: Schott CorporationInventors: John Carberry, Jennifer Norwood, Katherine T. Leighton, Kyle Hoff, Carl Cline, Edgar L. Aleshire
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Patent number: 8222171Abstract: A method for the production of a ceramic substrate for a semiconductor component, includes the steps of producing paper containing at least cellulose fibers, as well as a filler to be carbonized and/or SiC, pyrolizing the produced paper, and siliconizing the pyrolyzed paper.Type: GrantFiled: July 13, 2007Date of Patent: July 17, 2012Assignee: Schunk Kohlenstofftechnik GmbHInventors: Marco Ebert, Martin Henrich, Andreas Lauer, Gotthard Nauditt, Thorsten Scheibel, Roland Weiss
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Publication number: 20120165179Abstract: A composite article including a body made of recrystallized silicon carbide and an infiltrant, wherein the body comprises a static impact resistance of at least about 1800 MPa.Type: ApplicationFiled: November 21, 2011Publication date: June 28, 2012Applicant: Saint-Gobain Ceramics & Plastics, Inc.Inventors: Christopher J. Reilly, Edmund A. Cortellini, Robin M. Harrington
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Patent number: 8182603Abstract: Disclosed are cement compositions for applying to honeycomb bodies. The cement compositions can be applied as a plugging cement composition, segment cement, or even as after applied artificial skins or coatings. The cement compositions generally include an inorganic powder batch mixture consisting essentially of inorganic particles having a particle size greater than 100 nm. The cement compositions can further include an organic binder, a liquid vehicle, and one or more optional processing aids. Also disclosed are honeycomb bodies having the disclosed cement compositions applied thereto and methods for making same.Type: GrantFiled: November 20, 2008Date of Patent: May 22, 2012Assignee: Corning IncorporatedInventors: Anthony Joseph Cecce, Thomas James Deneka, Kintu Odinga X Early, Jeffrey Donald Roche, Patrick David Tepesch
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Patent number: 8137610Abstract: Disclosed is a molding compound for producing a fireproof lining, especially for a combustion chamber of a stationary gas turbine. The molding compound is characterized particularly by the fact that the molding compound is formed from more than about 50 percent by weight of silicon carbide and less than about 50 percent by weight of aluminum silicate.Type: GrantFiled: October 3, 2011Date of Patent: March 20, 2012Assignee: Siemens AktiengesellschaftInventors: Holger Grote, Margarete Herz, Wolfgang Kollenberg, Christine Rasch, Marc Tertilt
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Publication number: 20120058882Abstract: Ceramic nanocomposite and methods for manufacturing thereof. One method comprising: receiving a fired green ceramic body comprising ceramic matrix; introducing to the fired green ceramic body submicron particles; and introducing at least one type of location-controlling dopant at an amount that is sufficient to cover the majority of the ceramic matrix grain boundaries, as well as the majority of the interfaces between the submicron particles and the ceramic matrix grains but less than an amount that would result in a concentration that exceeds the bulk solubility limit of the location-controlling dopant ions in the ceramic matrix, at the ceramic nanocomposite sintering temperature.Type: ApplicationFiled: February 17, 2010Publication date: March 8, 2012Inventors: Wayne David Kaplan, Gali Gluzer, Moshe Katz, Gil Perlberg
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Publication number: 20120058881Abstract: The invention relates to a ceramic product, manufactured from a mixture made of natural and/or synthetic inorganic non-metal raw materials, at least one binder and optionally further additives. In order to provide ceramic products allowing for disadvantages known from the prior art to be eliminated, at least with respect to corrosion and erosion, it is proposed that the ceramic products are manufactured from a mixture comprising a) at least 10% by weight (based on the weight of all solids of the mixture) oxidic components, b) 0.05 to 2.7% by weight (based on the weight of all solids of the mixture) at least one organic-based binder, acting as a solubilizer in the mixture, and c) 3 to 10% by weight (based on the weight of all solids of the mixtures) hydrous dispersing agent, and that the ceramic product contains less than 0.1% by weight (based on the total weight of the ceramic product) of carbon after the use thereof at temperatures above 600° C.Type: ApplicationFiled: February 8, 2010Publication date: March 8, 2012Inventors: Josef Suren, Peter Stracke, Christos Aneziris, Steffen Dudczig
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Patent number: 8129301Abstract: Disclosed is a molding compound for producing a fireproof lining, especially for a combustion chamber of a stationary gas turbine. Said molding compound is characterized particularly by the fact that the molding compound is formed from more than about 50 percent by weight of silicon carbide and less than about 50 percent by weight of aluminum silicate.Type: GrantFiled: November 6, 2006Date of Patent: March 6, 2012Assignee: Siemens AktiengesellschaftInventors: Holger Grote, Margarete Herz, Wolfgang Kollenberg, Christine Rasch, Marc Tertilt
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Patent number: 8119057Abstract: A method and product made by using a polymeric ceramic precursor to synthesize dense, crack-free bulk ceramics in a technique using a sacrificial mold provides a ceramic structure for many technical, medical and industrial applications. The novel process uses an open cell material as a sacrificial mold to shape a ceramic precursor during curing. The cured ceramic green body can be machined and shaped to form the desired ceramic structure prior to final pyrolysis. The open cell material forms gas release paths to release large amount of gases generated during the pyrolysis of the cured ceramic precursor. After pyrolysis, an intact, dense, crack-free ceramic structure with high purity, strength and durability is obtained. Uses of the present invention include, but are not limited to, bulk ceramic parts, ceramic crucibles, a replacement material in some applications involving glass, silicon carbides, silicon nitrides, hafnium carbide and the like.Type: GrantFiled: February 17, 2009Date of Patent: February 21, 2012Assignee: University of Central Florida Research Foundation, Inc.Inventors: Weifeng Fei, Arnold Hill, Linan An
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Publication number: 20120025432Abstract: A method for making a ceramic body, the method including: mixing inorganic ceramic-forming ingredients to form a batch; adding a rapidly hydratable cellulosic binder and a liquid vehicle to the batch and further mixing to form a plasticized mixture; extruding the plasticized mixture to form a green body. The green body can then be heated sufficiently to produce a predominant ceramic phase, thereby transforming the green body into the ceramic body.Type: ApplicationFiled: April 1, 2010Publication date: February 2, 2012Applicant: Corning IncorporatedInventors: Gregg William Crume, Robert John Locker, Earl James Sanford
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Patent number: 8101269Abstract: A porous fired body including a structure that aggregates are bonded by a bonding material, wherein the aggregates include oxide particles having a larger thermal capacity per unit volume than an SiC particle and SiC, the bonding material includes metallic Si, volume ratio of the metallic Si in the whole porous fired body is between 8 and 43% by volume, volume ratio of the particles of the oxide in the whole aggregates is between 14 and 55% by volume, the SiC particles and the oxide particles respectively include one or more particle groups, and an average particle size of each particle group is within a range of between 5 and 100 ?m.Type: GrantFiled: December 24, 2008Date of Patent: January 24, 2012Assignee: NGK Insulators, Ltd.Inventors: Masaaki Kawai, Kenji Morimoto
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Patent number: 8097546Abstract: A composition for ceramic extrusion-molded bodies includes a ceramic material, a water-soluble cellulose ether, a styrenesulfonate and water. A method for manufacturing a ceramic extrusion-molded body using the composition is also provided.Type: GrantFiled: July 29, 2009Date of Patent: January 17, 2012Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Shingo Niinobe, Kazuhisa Hayakawa
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Publication number: 20110318714Abstract: An implant material includes a base material, and a silicon-containing carbon thin film formed on a surface of the base material. The carbon thin film contains a C—C component in which carbon atoms are bonded, and a SiC component in which carbon and silicon atoms are bonded, and a ratio of the SiC component is 0.06 or higher.Type: ApplicationFiled: February 10, 2009Publication date: December 29, 2011Applicant: TOYO ADVANCED TECHNOLOGIES CO., LTD.Inventors: Hiroki Nikawa, Seichiyou Makihira, Yuichi Mine, Yoshinori Abe, Tatsuyuki Nakatani, Keishi Okamoto, Yuki Nitta
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Publication number: 20110275507Abstract: The invention relates to dielectric layers with a low dielectric constant, said layers being used to separate metallic interconnections especially during the production of integrated circuit boards (in the BEOL part of the circuit). According to the invention, the dielectric layer comprises SiC and/or SiOC, and is obtained from at least one precursor comprising at least one —Si—C<SUB>n</SUB>—Si chain where n=I.Type: ApplicationFiled: July 1, 2011Publication date: November 10, 2011Applicant: L'Air Liquide, Societe Anonyme pour l'Etude et l'Exploitation des Procedes Georges ClaudeInventor: Christian DUSSARRAT
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Patent number: 8048544Abstract: Ceramics are made of preceramic paper or board structures in a particular shape previously represented in a paper structure, in which the preceramic papers or boards have a content of ceramic fillers between 30 and 95 wt-%, with the ceramic fillers having a particle size <30 ?m. A method for manufacturing such ceramics and the use thereof are also provided.Type: GrantFiled: August 28, 2006Date of Patent: November 1, 2011Assignee: Papiertechnische Stiftung MunchenInventors: Andreas Hofenauer, Renate Kirmeier, Ralf Markusch, Hans Windsheimer, Nahum Travitzky, Peter Greil
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Publication number: 20110262689Abstract: A composition for extrusion-molded bodies which comprises a) an inorganic material that sets as a result of baking or sintering, and b) a methylhydroxyethyl cellulose having a DS(methyl) of from 0.8 to 2.5, an MS(hydroxyethyl) of from 0.20 to 1.20 and a sum of the DS(methyl) and the MS(hydroxyethyl) of at least 2.00 is useful for producing extrusion-molded bodies for use as a carrier for a catalyst, a catalyst, a heat exchanger, or a filter.Type: ApplicationFiled: April 19, 2011Publication date: October 27, 2011Inventor: Roland Bayer
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Publication number: 20110224071Abstract: The outer-peripheral coating material of the present invention contains a filler containing a laser-coloring powder containing at least one member selected from the group consisting of a metal and a metal compound each developing a color which differs from the original color when irradiated with a laser beam, and a ceramic powder composed of a ceramic other than the material which constitutes the laser-coloring powder, and a dispersing medium, wherein the filler contains the laser-coloring powder in an amount of 20 to 400 parts by mass relative to 100 parts by mass of the ceramic powder.Type: ApplicationFiled: March 9, 2011Publication date: September 15, 2011Applicant: NGK Insulators, Ltd.Inventors: Jun OKUMURA, Suguru Kodama
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Patent number: 8017543Abstract: The invention relates to a method of obtaining a homogeneous filtering structure for a catalytic application, which can be used as a particulate filter in an internal combustion engine exhaust line, said structure comprising a plurality of honeycomb filter elements in which a homogeneity criterion characteristic of the constituent support material of said elements, in the absence of a catalytic coating, is determined in a prior step, and then the elements making up the structure are selected by means of this homogeneity criterion so as to obtain a structure suitable for homogeneous deposition, within an element and from one element to another, of a catalyst for treating the pollutants in gas phase. The invention also relates to the homogeneous filtration structure obtained by said method.Type: GrantFiled: September 29, 2006Date of Patent: September 13, 2011Assignee: Saint-Gobain Centre de Recherches et d'Etudes EuropeenInventors: Patricia Andy, Sebastien Bardon, Vincent Marc Gleize
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Patent number: 7988781Abstract: A non-settling refractory mortar is provided, which includes 100 mass % of a ceramic powder such as cordierite, mullite, alumina, or silicon carbide, 0.5 to 1.5 mass % of a clay mineral, and a colloidal oxide solution, in which the Ca content in the total solid component is defined at 0.01 to 0.5 mass % as converted to oxide so as to be provided with a thixotropic property. As a result, the coating performance is not lowered if stored for a long period after kneading, the dimension change rate after coating is small, and cracks or gaps are not formed on the coat surface. The median diameter of ceramic powder is preferred to be 10 to 50 ?m, and in order to reduce the dimension change rate after coating, the content of particles of 0.1 to 5 ?m in ceramic powder is desired to be 1 to 20%.Type: GrantFiled: February 21, 2008Date of Patent: August 2, 2011Assignees: NGK Insulators, Ltd., NGK Adrec Co., Ltd.Inventors: Tsuneo Komiyama, Osamu Yamakawa, Tetsuhiro Honjo, Akito Higuchi
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Patent number: 7985703Abstract: A coating suitable for use as a wear-resistant coating for a gas turbine engine component comprises a lubricating material and a hard carbide material.Type: GrantFiled: March 15, 2006Date of Patent: July 26, 2011Assignee: United Technologies CorporationInventor: Melvin Freling
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Publication number: 20110172079Abstract: A water-soluble binder comprising a water-soluble hydroxypropyl methyl cellulose having a methoxyl substitution of 28-30 wt % and a hydroxypropyl substitution of 5-7 wt % has a syneresis value of at least 30 wt % and a clay heat gel strength of at least 0.5 kgf. A ceramic molding composition comprising a ceramic material and the water-soluble binder has improved shape retention upon drying and is effectively molded into a ceramic part.Type: ApplicationFiled: January 11, 2011Publication date: July 14, 2011Applicant: SHIN-ETSU CHEMICAL CO., LTD.Inventor: Shingo Niinobe
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Patent number: 7968483Abstract: The invention relates to a fired refractory ceramic product. According to the invention, this generic term encompasses both shaped and unshaped products. Shaped products are ones which have a defined shape so that they can be manufactured in finished form on the premises of the manufacturer. Shaped products include: bricks, nozzles, tubes, stoppers, plates, etc. The term unshaped products includes ones which are usually produced by the user from a corresponding composition. They include bases for furnaces which are cast from a composition but also repair compositions, etc.Type: GrantFiled: August 8, 2007Date of Patent: June 28, 2011Assignee: Refractory Intellectual Property GmbH & Co. KGInventors: Boro Djuricic, Franz Reiterer
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Patent number: 7951736Abstract: An SiC fiber bonded ceramic constituted of both a base material which comprises both inorganic fibers made mainly of a sintered SiC structure containing 0.01 to 1 wt % of oxygen (O) and at least one of Groups 2A, 3A and 3B metals and a 1 to 100-nm and carbon (C)-base boundary layer formed among the fibers and a surface part which is made mainly of an SiC-base ceramic structure and formed on at least part of the surface of the base material, characterized in that the boundary portion between the surface part and the base material takes such a gradient structure that the structure of the base material changes into the structure of the surface part gradually and continuously.Type: GrantFiled: September 11, 2007Date of Patent: May 31, 2011Assignee: Ube Industries, LtdInventors: Kenji Matsunaga, Shinji Kajii, Toshihiko Hogami
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Patent number: 7939044Abstract: A method of manufacturing a silicon carbide powder with submicron size of powder particles wherein a homogeneous reactant mixture comprising a source of silicone, a source of carbon, and polytetrafluoroethylene is locally preheated in a sealed reaction chamber filled with an inert gas under pressure of 20 atm to 30 atm to a temperature sufficient to initiate an exothermic self-propagating reaction ranges from 650K to 900K. In the aforementioned homogeneous reactant mixture, the carbon source is used in the amount from 63 wt % to 68%, the silicon source is used in the amount of from 20 wt. % to 25 wt. %%, and the activated additive is used in the amount of from 8 wt. % to 15 wt. % per 100% of the entire homogeneous reactant mixture.Type: GrantFiled: February 11, 2008Date of Patent: May 10, 2011Inventors: Alexander Mukasyan, Vasiliy Mukasyan, Mikael Nersesyan, Surên Kharatyan, Hayk Khachatryan
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Publication number: 20110086233Abstract: Disclosed is a crystalline hard coating layer having no cracks, which exhibits both high hardness and excellent wear resistance at the same time. A method for forming the hard coating layer is also disclosed. A crystalline hard coating layer (3) coating a substrate (2) is formed by a PVD method, and contains Si and C as essential components, while containing an element M (which is one or more elements selected from among group 3A elements, group 4A elements, group 5A elements, group 6A elements, B, Al and Ru) and N as optional components. The crystalline hard coating layer (3) has the following composition: SixC1-x-y-zNyMz (where 0.4?x?0.6, 0?y?0.1, and 0?z?0.2).Type: ApplicationFiled: March 31, 2009Publication date: April 14, 2011Applicants: Kabushiki Kaisha Kobe Seiko Sho, ISCAR LTD.Inventors: Kenji Yamamoto, Albir A. Layyous
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Patent number: 7914904Abstract: Disclosed herein is a component in a combustion system comprising a composite, the composite comprising silicon carbide; and a refractory metal silicide comprising a phase selected from Rm5Si3, Rm5Si3C, RmSi2, and a combination thereof; wherein Rm is a refractory metal selected from molybdenum, tungsten, and a combination thereof. Also disclosed is a process for preventing slag, ash, and char buildup on a surface, comprising disposing a first surface of the composite on the surface; replacing a component comprising the surface with a component consisting of the composite; or a combination thereof.Type: GrantFiled: March 25, 2008Date of Patent: March 29, 2011Assignee: General Electric CompanyInventors: Martin Mathew Morra, Aaron John Avagliano, Wei Chen, Monty L. Harned, Shashishekara S. Talya
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Patent number: 7910082Abstract: A method for preparing ordered mesoporous silicon carbide (OMSiC) nanocomposites uses an evaporation-induced self-assembly of a precursor composition that preferably includes a phenolic resin, pre-hydrolyzed tetraethyl orthosilicate, a surfactant, and butanol. The precursor mixture is dried, cross-linked and heated to form ordered mesoporous silicon carbide material having discrete domains of ordered, mesoscale pores.Type: GrantFiled: August 13, 2008Date of Patent: March 22, 2011Assignee: Corning IncorporatedInventors: Steven Bruce Dawes, Wageesha Senaratne
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Patent number: 7897534Abstract: Precursor materials and methods of making are disclosed. The precursor materials include at least one of a silica source, and a carbon source, with or without liquid and a binder The methods described include pyrolyzing the precursor material to form a carbonaceous mixture and heat treating the mixture for a pre-determined time and at an elevated temperature during which carbon and/or nitrogen react with silica in the mixture to form carbides and/or nitrides. The carbides and nitrides formed from said methods may be used as blowing agents in a glass, ceramic, or metal forming processes or for promoting dispersion of the carbides and nitrides throughout a glass, ceramic, or metal composite.Type: GrantFiled: April 16, 2009Date of Patent: March 1, 2011Inventors: Giang Biscan, Hamid Hojaji, David Leslie Melmeth, Thinh Pham, Mark G. Stevens, Huagang Zhang
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Patent number: 7851396Abstract: A method of manufacturing a porous sintered body includes mixing first silicon carbide particles, second silicon carbide particles, and a pore forming material having an average particle diameter Y ?m to obtain a molding material. The first silicon carbide particles have an average particle diameter X ?m larger than an average particle diameter of the second silicon carbide particles. Relationships 15?X, 0.5·X?Z?0.9·X, and 0.8·Z?Y?1.8·Z are satisfied, wherein Z ?m is an average pore diameter of the porous sintered body no less than 10 ?m and no greater than 20 ?m. The molding material is molded into a molded body. The molded body is degreased to eliminate the pore forming material from the molded body.Type: GrantFiled: March 8, 2007Date of Patent: December 14, 2010Assignee: Ibiden Co., Ltd.Inventors: Kazushige Ohno, Masafumi Kuneda, Yuki Fujita
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Patent number: 7842774Abstract: A method of forming a preceramic polymer includes treating a silane precursor having a vinyl moiety of ammonia to produce the preceramic polymer. For example, the silane precursor is trichlorovinylsilane. The preceramic polymer may then be cross-linked at a relatively low temperature by using a cross-linking agent.Type: GrantFiled: July 24, 2007Date of Patent: November 30, 2010Assignee: United Technologies CorporationInventor: Michael A. Kmetz
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Patent number: 7833924Abstract: There is provided an yttrium oxide-containing material with excellent mechanical characteristics. The yttrium oxide-containing material becomes strong by adding silicon carbide (SiC) and yttrium fluoride (YF3) to yttrium oxide (Y2O3). Accordingly, the yield, handling and reliability can be improved when this strengthened yttrium oxide-containing material is applied to and used for components of semiconductor manufacturing equipment.Type: GrantFiled: March 7, 2008Date of Patent: November 16, 2010Assignees: NGK Insulators, Ltd., Nagaoka University of TechnologyInventors: Yoshimasa Kobayashi, Yuji Katsuda, Hiroaki Sakai, Koichi Niihara, Tadachika Nakayama
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Publication number: 20100279845Abstract: A process for producing a silicon-containing CMC article that exhibits improved physical, mechanical, and microstructural properties at elevated temperatures exceeding the melting point of silicon. The process entails producing a body containing a ceramic reinforcement material in a solid matrix that comprises solid elemental silicon and/or silicon alloy and a ceramic matrix material. The ceramic matrix composite article is produced by at least partially removing the solid elemental silicon and/or silicon alloy from the solid matrix and optionally reacting at least part of the solid elemental silicon and/or silicon alloy in the solid matrix to form one or more refractory materials. The solid elemental silicon and/or silicon alloy is sufficiently removed from the body to enable the ceramic matrix composite article to structurally and chemically withstand temperatures above 1405° C.Type: ApplicationFiled: April 30, 2009Publication date: November 4, 2010Applicant: GENERAL ELECTRIC COMPANYInventors: Anteneh Kebbede, Krishan Luthra, Gregory Corman
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Patent number: 7824765Abstract: A silicon carbide-based porous article comprising silicon carbide particles as an aggregate, metallic silicon and an aggregate derived from siliceous inorganic particles to form pores through volume shrinkage by heat treatment, wherein the porosity is 45 to 70%, and the average pore diameter is 10 to 20 ?m is provided. Also provided is a method for producing a silicon carbide-based porous article, comprising; adding inorganic particles to form pores through volume shrinkage by heat treatment to a raw-material mixture containing silicon carbide particles and metallic silicon, then forming into an intended shape, calcinating and firing the resultant green body, forming pores through volume shrinkage of the inorganic particles by heat treatment, and the shrunk inorganic particles being present as an aggregate in the porous article.Type: GrantFiled: August 19, 2008Date of Patent: November 2, 2010Assignee: NGK Insulators, Ltd.Inventors: Takuya Hiramatsu, Kenji Morimoto
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Publication number: 20100260972Abstract: This invention provides a protective member comprising a ceramic body comprising a plurality of first phases (2) composed mainly of silicon carbide and a plurality of second phases (3) having a composition different from the composition of the first phase (2) and containing at least boron, silicon and carbon. A part of the second phase is present in the first phase as a whole, and at least a part of the remaining part of the second phase is present between a plurality of the first phases.Type: ApplicationFiled: March 28, 2008Publication date: October 14, 2010Applicant: KYOCERA CORPORATIONInventors: Takehiro Oda, Teppei Kayama, Masahito Nakanishi
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Publication number: 20100240517Abstract: The present invention contemplates the addition of zirconium compounds to well known ceramic ballistic materials to increase resistance to penetration by projectiles. In the preferred embodiments of the present invention, the zirconium compound that is employed consists of ZrO2 and is provided in the range of about 0.1% to about 11%, by weight, of starting material before densification. Preferred ranges of proportion of ZrO2 in the finished ceramic material are in the ranges of about 0.30% to about 0.75%, by weight, or about 8-9%, by weight. The ballistic material using the combination of SiC with low volume of sintering aid and ZrO2 raises the theoretical density of the ceramic material to between 3.225 and 3.40 g/cc, which is slightly higher than the typical 3.22 g/cc theoretical density for hot pressed fully dense SiC.Type: ApplicationFiled: May 9, 2006Publication date: September 23, 2010Inventors: Daniel Ashkin, Richard Palicka
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Patent number: 7794842Abstract: The present invention provides a high resistivity, high quality, large size SiC single crystal, SiC single crystal wafer, and method of production of the same, that is, a silicon carbide single crystal containing uncompensated impurities in an atomic number density of 1 ×1015/cm3 or more and containing vanadium in an amount less than said uncompensated impurity concentration, silicon carbide single crystal wafer obtained by processing and polishing the silicon carbide single crystal and having an electrical resistivity at room temperature of 5×103 ?cm or more, and a method of production of a silicon carbide single crystal.Type: GrantFiled: December 27, 2004Date of Patent: September 14, 2010Assignee: Nippon Steel CorporationInventors: Masashi Nakabayashi, Tatsuo Fujimoto, Mitsuru Sawamura, Noboru Ohtani
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Patent number: 7781053Abstract: Provided are a silicon carbide-based porous article comprising silicon carbide particles as an aggregate, metallic silicon and an aggregate derived from organometallic compound particles to form pores through volume shrinkage due to decomposition/conversion by heat treatment; and a method for producing the silicon carbide-based porous article, comprising, adding organometallic compound particles to form pores through volume shrinkage due to decomposition/conversion by heat treatment to a raw-material mixture containing silicon carbide particles and metallic silicon, then forming into an intended shape, calcinating and/or firing the resultant green body, forming pores through volume shrinkage due to decomposition/conversion of the organometallic compound particles, and the decomposed/converted substance of the organometallic compound particles being present as an aggregate in the porous article.Type: GrantFiled: August 19, 2008Date of Patent: August 24, 2010Assignee: NGX Insulators, Inc.Inventors: Takuya Hiramatsu, Shinji Kawasaki
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Publication number: 20100205920Abstract: Continuous ceramic (e.g., silicon carbide) nanofibers (502, 602, 604, 606, 608, 702, 704, 1102, 1104) which are optionally p or n type doped are manufactured by electrospinning a polymeric ceramic precursor to produce fine strands of polymeric ceramic precursor which are then pyrolized. The ceramic nanofibers may be used in a variety of applications not limited to reinforced composite materials (400), thermoelectric generators (600, 700) and high temperature particulate filters (1200).Type: ApplicationFiled: September 19, 2008Publication date: August 19, 2010Inventors: Pawel Czubarow, Philip Premysler
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Publication number: 20100197484Abstract: The present invention relates to a process for preparing mineral particles (p) from mineral species precursors, said process comprising a step (E) in which a fluid medium (F) containing said precursors in solution and/or dispersed in a solvent is injected into a reactor containing CO2 in the supercritical state by way of an injection nozzle opening into a zone where the supercritical CO2 is at a temperature greater than or equal to the temperature for conversion of the precursors into corresponding mineral species. The invention also relates to the particles (p) as obtained by the process, as well as uses thereof.Type: ApplicationFiled: April 23, 2008Publication date: August 5, 2010Applicants: AREVA NP, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUEInventors: Beatrice Sala, Stephanie Willemin, Joel Mazoyer, Thierry Muller, Nathalie Masquelez, Didier Cot, Anne Julbe, Pierre Guillermier
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Patent number: 7767021Abstract: A growing method of a SiC single crystal includes the steps of thermal treatment of a high purity SiC source for decreasing a specific surface area and increasing a ratio of ?-phase and making a mole fraction of C greater than that of Si in the source, providing the SiC source into a crucible, arranging a SiC seed in the crucible, and growing the SiC single crystal by heating the SiC source.Type: GrantFiled: September 28, 2006Date of Patent: August 3, 2010Assignee: NeosemiTech CorporationInventors: Soo-Hyung Seo, Joon-Suk Song, Myung-Hwan Oh
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Patent number: 7749425Abstract: A method of forming a nanoscale ceramic composite generally includes modifying a polymeric ceramic precursor, mixing the modified polymeric ceramic precursor with a block copolymer to form a mixture, forming an ordered structure from the mixture, wherein the modified polymeric ceramic precursor selectively associates with a specific type of block of the block copolymer, and heating the ordered structure for a time and at a temperature effective to form the nanoscale ceramic composite.Type: GrantFiled: December 21, 2005Date of Patent: July 6, 2010Assignee: General Electric CompanyInventors: Patrick Roland Lucien Malenfant, Julin Wan, Mohan Manoharan
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Patent number: 7749931Abstract: A ceramic material for an optical member which shows black, wherein the ceramic material comprises a reaction-sintered sintered ceramic body prepared by synthesizing a formed body of a mixture comprising a ceramic raw material and a component that accelerates blackening, making use of a reaction sintering; and wherein the ceramic material is a porous body.Type: GrantFiled: February 13, 2007Date of Patent: July 6, 2010Assignees: FUJIFILM Corporation, Fujinon CorporationInventors: Hideki Hyuga, Hideki Kita, Tetsuya Yamazaki, Yasunori Tanaka