Patents Assigned to Lanxide Technology Company
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Patent number: 5342812Abstract: The present invention relates to golf clubs and particularly the invention relates to improved golf club heads which utilize composite materials in at least a portion therein. Potentially acceptable composite materials includes: metal matrix composite and/or ceramic matrix composite materials. The use of metal matrix or ceramic matrix composite materials in golf club heads result in improved clubs.Type: GrantFiled: October 9, 1992Date of Patent: August 30, 1994Assignee: Lanxide Technology Company, LPInventors: Paul W. Niskanen, Danny R. White, Mark G. Mortenson, Stanislav Antolin
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Patent number: 5340655Abstract: In the present invention, there is provided a method for producing a self-supporting ceramic or ceramic composite body by the oxidation of a parent metal to form a polycrystalline ceramic material comprising the oxidation reaction product of said parent metal with an oxidant, including a vapor-phase oxidant, and optionally one or more metallic constituents dispersed throughout the polycrystalline ceramic material. The method comprises the steps of providing at least a portion of said parent metal with a barrier means at least partially spaced from said parent metal for establishing at least one surface of the ceramic body, and heating said parent metal to a temperature above its melting point but below the melting point of the oxidation reaction product to form a body of molten metal. At that temperature, the molten metal is reacted with the oxidant, thus forming the oxidation reaction product.Type: GrantFiled: January 9, 1992Date of Patent: August 23, 1994Assignee: Lanxide Technology Company, LPInventors: David K. Creber, William B. Johnson, Marc S. Newkirk
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Patent number: 5340783Abstract: The present invention relates, generally, to a self-supporting porous ceramic composite body and to methods for producing such articles to net or near net shape, which bodies exhibit superior thermal and mechanical properties. The invention also relates to the manufacture of ceramic-metal composite bodies which have ceramic articles incorporated therein.Type: GrantFiled: August 17, 1992Date of Patent: August 23, 1994Assignee: Lanxide Technology Company, LPInventors: Edward N. Anderson, Thomas A. Johnson
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Patent number: 5334562Abstract: Self-supporting ceramic composite structures having filler embedded therein are taught as being produced by a method which includes infiltrating a permeable mass of filler with polycrystalline material comprising an oxidation reaction product obtained by oxidation of a parent metal such as aluminum and optionally containing therein non-oxidized constituents of the parent metal. The structure is formed by placing a parent metal adjacent to a permeable filler and heating the assembly to melt the parent metal and provide a molten body of parent metal which is contacted with a suitable vapor-phase oxidant. Within a certain temperature region and optionally aided by one or more dopants in or on the parent metal, molten parent metal will migrate through previously formed oxidation reaction product into contact with the oxidant, causing the oxidation reaction product to grow so as to embed the adjacent filler and provide the composite structure.Type: GrantFiled: February 16, 1993Date of Patent: August 2, 1994Assignee: Lanxide Technology Company, LPInventors: Marc S. Newkirk, Andrew W. Urquhart, Harry R. Zwicker, H. Daniel Lesher
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Patent number: 5330849Abstract: The present invention generally relates to mechanisms for preventing undesirable oxidation (i.e., oxidation protection mechanisms) of reinforcement materials in composite bodies. The oxidation protection mechanisms include getterer materials which are added to the composite body which gather or scavenge undesirable oxidants which may enter the composite body. The getterer materials may be placed into at least a portion of the matrix such that any desirable oxidant approaching, for example, a fiber reinforcement, would be scavenged by (e.g., reacted with) the getterer. Ceramic filler materials which serve as reinforcements may have a plurality of super-imposed coatings thereon, at least one of which coatings may function as a getterer. The coated materials may be useful as reinforcing materials in ceramic matrix composites to provide improved mechanical properties such as fracture toughness.Type: GrantFiled: April 2, 1992Date of Patent: July 19, 1994Assignee: Lanxide Technology Company, LPInventors: Christopher R. Kennedy, Birol Sonuparlak, Ali S. Fareed, John E. Garnier, Gerhard H. Schiroky
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Patent number: 5329984Abstract: The present invention relates to a novel process for forming a filler material which can be used in various metal matrix composite formation processes for forming metal matrix composite bodies. Particularly, an infiltration enhancer or an infiltration enhancer precursor or an infiltrating atmosphere are in communication with a filler material or a preform, at least at some point during the process, which permits molten matrix metal to spontaneously infiltrate the filler material or preform. Such spontaneous infiltration occurs without the requirement for the application of any pressure or vacuum. The amount of matrix metal provided is sufficient only to coat, to a desired thickness, substantially all of the filler material. The coated filler material is thereafter comminuted for use in any desired metal matrix composite formation process.Type: GrantFiled: May 7, 1993Date of Patent: July 19, 1994Assignee: Lanxide Technology Company, LPInventors: Marc S. Newkirk, Mark G. Mortenson
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Patent number: 5328878Abstract: The present invention broadly relates to novel aluminum nitride matrix ceramic composite bodies for use as refractory materials and methods for making the same. The refractory materials are useful in environments which are corrosive, erosive, abrasive and/or which generate thermal shock. Such environments include furnaces, and associated apparatus which house or contact molten masses including, for example, molten metals, molten glasses, etc. The preferred method for making the aluminum nitride matrix ceramic composites comprises a directed oxidation of molten metal.Type: GrantFiled: August 31, 1992Date of Patent: July 12, 1994Assignee: Lanxide Technology Company, LPInventors: Jack A. Kuszyk, John P. Biel, Jr.
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Patent number: 5316069Abstract: The present invention relates to a novel process for forming metal matrix composite bodies by using a reactive barrier material. Particularly, an infiltration enhancer or an infiltration enhancer precursor or an infiltrating atmosphere are in communication with a filler material or a preform, at least at some point during the process, which permits molten matrix metal to spontaneously infiltrate the filler material or preform up to the reactive barrier material. Such spontaneous infiltration occurs without the requirement for the application of any pressure or vacuum. Accordingly, shaped metal matrix composite bodies can be produced having superior surface finish.Type: GrantFiled: December 5, 1991Date of Patent: May 31, 1994Assignee: Lanxide Technology Company, LPInventors: Michael K. Aghajanian, Steven D. Keck, John T. Burke, Gregory E. Hannon, Kurt J. Becker, Steven J. Taylor, Robert J. Wiener, Allyn L. McCormick
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Patent number: 5311919Abstract: The present invention relates to the formation of a metal matrix composite body by a spontaneous infiltration technique. Particularly, an infiltration enhancer or infiltration enhancer precursor can be positioned at least partially between or at an interface between a matrix metal and a filler material (or preform) which is to be infiltrated by molten matrix metal. Moreover, at least at some point during the process, an infiltrating atmosphere may be in communication with the filler material or preform or matrix metal.Type: GrantFiled: December 21, 1992Date of Patent: May 17, 1994Assignee: Lanxide Technology Company, LPInventors: Michael K. Aghajanian, Alan S. Nagelberg
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Patent number: 5306676Abstract: This invention broadly relates to methods for producing self-supporting silicon carbide and silicon carbide composite bodies. More particularly, this invention relates to silicon carbide and silicon carbide composites, grown by the oxidation reaction of a silicon metal with a gas comprising at least one gas selected from the group consisting of fluorinated hydrocarbon gases, chlorohydrocarbon gases, and chlorofluorocarbon gases.Type: GrantFiled: March 9, 1993Date of Patent: April 26, 1994Assignee: Lanxide Technology Company, LPInventor: William B. Johnson
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Patent number: 5306677Abstract: Novel self-supporting ceramic structures are produced by the oxidation reaction of a molten metal precursor with a vapor-phase oxidant to form an oxidation reaction product. The resulting ceramic material of the polycrystalline oxidation reaction product consists essentially of an oxidation reaction product and, optionally, one or more non-oxidized constituents of the metal precursor.Type: GrantFiled: June 1, 1992Date of Patent: April 26, 1994Assignee: Lanxide Technology Company, LPInventors: Marc S. Newkirk, Steven F. Dizio
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Patent number: 5304520Abstract: There is disclosed a method for making a self-supporting ceramic composite article having a porous core bearing a dense surface layer formed integrally with said core. A preform comprises a filler material and parent metal distributed therethrough, wherein the volume percent of parent metal is sufficient to form a volume of oxidation reaction product exceeding the total volume available within said preform. The parent metal is melted and reacted with an oxidant to form an oxidation reaction product filling the spatial volume and leaving voids. The reaction is continued to further transport molten parent metal through the oxidation reaction product to at least one surface of the preform to form oxidation reaction product on said surface substantially free of voids thereby forming a relatively dense surface layer.Type: GrantFiled: August 17, 1992Date of Patent: April 19, 1994Assignee: Lanxide Technology Company, LPInventor: Ratnesh K. Dwivedi
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Patent number: 5303763Abstract: A metal matrix composite is formed by contacting a molten matrix metal with a permeable mass of filler material or preform in the presence of an infiltrating atmosphere. Under these conditions, the molten matrix metal will spontaneously infiltrate the permeable mass of filler material or preform under normal atmospheric pressures. Once a desired amount of spontaneous infiltration has been achieved, or during the spontaneous infiltration step, the matrix metal which has infiltrated the permeable mass of filler material or preform is directionally solidified. The directionally solidified metal matrix composite may be heated to a temperature in excess of the liquidus temperature of the matrix metal and quenched. This technique allows the production of spontaneously infiltrated metal matrix composites having improved microstructures and properties.Type: GrantFiled: November 23, 1992Date of Patent: April 19, 1994Assignee: Lanxide Technology Company, LPInventors: Michael K. Aghajanian, Robert C. Kantner, John P. Biel, Jr., Kurt J. Becker
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Patent number: 5301738Abstract: The present invention relates to modifying the properties of a metal matrix composite body by a post formation process modification treatment. The post formation process treatment may be applicable to a variety of metal matrix composite bodies produced by various techniques, and is particularly applicable to modifying the properties of a metal matrix composite body produced by a spontaneous infiltration technique. Particularly, at least a portion of the matrix metal of the metal matrix composite body and/or the filler material of the metal matrix composite body is modified or altered after the formation process. Preferably, the preform contains a second non-metal material, an infiltration enhancer of infiltration enhancer precursor, and an infiltration atmosphere.Type: GrantFiled: February 24, 1992Date of Patent: April 12, 1994Assignee: Lanxide Technology Company, LPInventors: Marc S. Newkirk, Andrew W. Urquhart, Michael K. Aghajanian, Mark G. Mortenson, Vilupanur A. Ravi, Alan S. Nagelberg
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Patent number: 5299621Abstract: This invention relates generally to a novel method of preparing self-supporting bodies, and novel products made thereby. In its more specific aspects, this invention relates to a method for producing self-supporting bodies comprising one or more boron-containing compounds, e.g., a boride or a boride and a carbide, by reactive infiltration of molten parent metal into a preform comprising boron carbide or a boron donor material combined with a carbon donor material and, optionally, one or more inert fillers, to form the body. Specifically, a boron carbide material or combination of a boron donor material and a carbon donor material, and in either case, optionally, one or more inert fillers, are sedimentation cast, slip cast or pressed onto or into a body and into a particular desired shape.Type: GrantFiled: September 19, 1991Date of Patent: April 5, 1994Assignee: Lanxide Technology Company, LPInventors: Terry D. Claar, Gerhard H. Schiroky, Donald P. Ripa, William B. Johnson
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Patent number: 5298051Abstract: This invention relates generally to a novel method of manufacturing a composite body, such as a ZrB.sub.2 -ZrC-Zr (optional) composite body, by utilizing a post-treatment process and to the novel products made thereby. More particularly, the invention relates to a method of modifying a composite body comprising one or more boron-containing compounds (e.g., a boride or a boride and a carbide) which has been made by the reactive infiltration of a molten parent metal into a bed or mass containing boron carbide, and optionally one or more inert fillers, to form the body.Type: GrantFiled: November 9, 1992Date of Patent: March 29, 1994Assignee: Lanxide Technology Company, LPInventors: Terry D. Claar, Gerhard H. Schiroky, William B. Johnson
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Patent number: 5298283Abstract: The present invention relates to a novel process for forming metal matrix composite bodies. Particularly, an infiltration enhancer and/or an infiltration enhancer precursor and/or an infiltrating atmosphere are in communication with a rigidized filler material or a rigidized preform, at least at some point during the process, which permits molten matrix metal to spontaneously infiltrate the rigidized filler material or rigidized preform. Such spontaneous infiltration occurs without the requirement for the application of any pressure or vacuum.Type: GrantFiled: December 13, 1991Date of Patent: March 29, 1994Assignee: Lanxide Technology Company, LPInventors: Michael A. Rocazella, Kurt J. Becker, Michael K. Aghajanian
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Patent number: 5298339Abstract: The present invention relates to novel ceramic-filled metal matrix composites and methods for making the same. Particularly, a permeable mass of filler material is spontaneously infiltrated by, for example, an aluminum alloy, in the presence of nitrogen-containing atmosphere. A reservoir feeding technique for forming metal matrix composite bodies is also disclosed. The reservoir feeding technique can also be used to form complex (e.g., a metal bonded to a metal matrix composite) metal matrix composite bodies.Type: GrantFiled: December 18, 1992Date of Patent: March 29, 1994Assignee: Lanxide Technology Company, LPInventors: Michael K. Aghajanian, Marc S. Newkirk
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Patent number: 5296416Abstract: Ceramic foams in which the open cells are connected by a three-dimensional, substantially continuous ceramic matrix formed of interconnected hollow ligaments, are made from an open-cell, reticulated precursor metal, i.e. a metal foam. The precursor metal first is treated so as to allow a support coating to form thereon, and thereafter the coated precursor is heated above the melting point of the metal in the presence of an oxidant to form an oxidation reaction product.Type: GrantFiled: February 8, 1993Date of Patent: March 22, 1994Assignee: Lanxide Technology Company, LPInventors: Eugene S. Park, Steven D. Poste
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Patent number: 5296417Abstract: Self-supporting bodies are produced by reactive infiltration of a parent metal into a boron carbide material which may contain one or both of a boron donor material and a carbon donor material. The reactive infiltration typically results in a composite comprising a boron-containing compound, a carbon-containing compound and residual metal, if desired. The mass to be infiltrated may contain one or more inert fillers admixed with the boron carbide material, boron-containing compound and/or carbon-containing compound. The relative amounts of reactants and process conditions may be altered or controlled to yield a body containing varying volume percents of ceramic, metal, ratios of one ceramic to another and porosity.Type: GrantFiled: January 19, 1993Date of Patent: March 22, 1994Assignee: Lanxide Technology Company, LPInventors: Terry D. Claar, Steven M. Mason, Kevin P. Pochopien, Danny R. White, William B. Johnson, Michael K. Aghajanian