Patents Assigned to Kennecott Corporation
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Patent number: 4388259Abstract: A fluorocarbon polymer gasket is disclosed which has been compression formed from a fluorocarbon polymer sheet heated to its gel state, cooled in its compressed state, and shaped into a gasket. The gasket so manufactured has a "living memory" thus enabling it to tend to return to its pre-compression form when exposed to elevated temperatures.Type: GrantFiled: October 23, 1981Date of Patent: June 14, 1983Assignee: Kennecott CorporationInventors: Walter E. B. Jewell, Adam J. Patarcity
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Patent number: 4385239Abstract: An inerting chamber and enclosure or access member are formed such that the escutcheon plate or outer member of the closure is hinged and the same hinges may be utilized to both swing the escutcheon plate out for cleaning and servicing of the chamber and also if the fastening devices for the access plate are loosened may be utilized to swing the entire inerting chamber and access plate out of the way for servicing of the electron beam unit.Type: GrantFiled: April 20, 1981Date of Patent: May 24, 1983Assignee: Kennecott CorporationInventor: Alton K. Miller
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Patent number: 4382104Abstract: A method for uniformly coating ceramic fibers comprising from about 40 to 100 weight percent aluminum oxide with Cr.sub.2 O.sub.3. The method comprises precipitating Cr.sub.2 O.sub.3.xH.sub.2 O (chromium oxide hydrate) upon the fibers followed by converting the Cr.sub.2 O.sub.3.xH.sub.2 O to Cr.sub.2 O.sub.3. The resulting Cr.sub.2 O.sub.3 coated fibers have good shrinkage resistance, good temperature resistance and good flexibility in thick fiber articles.Type: GrantFiled: July 6, 1981Date of Patent: May 3, 1983Assignee: Kennecott CorporationInventors: Russell D. Smith, Richard E. Tressler
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Patent number: 4379111Abstract: A ceramic fiber and a shrink resistant article manufactured therefrom. The fiber comprises at least 80 weight percent of a refractory compound selected from the group consisting of silica, alumina, aluminum silicate, titania, zirconia, zirconium silicate and mixtures thereof and which comprises less than 5 combined weight percent of alkali or alkaline metal oxide or alkali or alkaline metal silicate. The fiber is uniformly coated with from about 0.01 to about 5 weight percent of Cr.sub.2 O.sub.3.Type: GrantFiled: July 6, 1981Date of Patent: April 5, 1983Assignee: Kennecott CorporationInventors: Russell D. Smith, Richard E. Tressler
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Patent number: 4365698Abstract: This disclosure relates to a discharge chute for granular material which is associated with an apparatus wherein the apparatus is vibrated with the vibrations also being imparted to the discharge chute. It has been found that in such instances, the capacity of the discharge chute may be greatly increased by providing more than one sloping wall while at the same time not increasing the overall height of the discharge chute. Further, when the angle of the sloping wall above the sloping bottom wall is increased, the capacity of that wall is greatly increased.Type: GrantFiled: October 21, 1980Date of Patent: December 28, 1982Assignee: Kennecott CorporationInventor: Jerry L. Godwin
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Patent number: 4363199Abstract: There is disclosed a fire-resistant seal for sealing around a member passing through a fire-resistant building divider. The seal is formed of an adhesive fire-resistant cement on at least one side generally in the plane of the divider surface, behind the adhesive cement is placed bulk ceramic fiber. The second surface of the seal may be covered with an adhesive cement.Type: GrantFiled: May 5, 1980Date of Patent: December 14, 1982Assignee: Kennecott CorporationInventors: Chhattar S. Kucheria, Russell D. Smith
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Patent number: 4354986Abstract: A process is disclosed for producing a non-woven, boron nitride fiber mat, suitable for use as an electric cell separator in a lithium-sulfide battery. Molten boron oxide is centrifugally spun into strands and attenuated by an annular gas stream into fibers which are compacted at a controlled relative humidity into a mat. The mat of fibers passes through a needler, which repeatedly drives arrays of needles into the mat from either one or both sides, to reorient and intertwine the fibers, producing additional mechanical bonds thereamong. The needled mat then is heated in an anhydrous ammonia atmosphere to convert boron oxide in the fibers into boron nitride (BN). In an alternate embodiment the boron oxide fibers within the mat are converted into boron nitride before being passed through the needler.Type: GrantFiled: June 4, 1980Date of Patent: October 19, 1982Assignee: Kennecott CorporationInventors: Jacob W. Maczuga, Daniel C. Wilhelm
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Patent number: 4350524Abstract: A method of pyrometallurgical refining of crude silver to remove base metal impurities, particularly bismuth, by treatment with sulfer hexafluoride gas. The crude silver is melted and maintained at about 1000.degree. C. while it is treated concurrently with sulfur hexafluoride and an oxidizing gas, such as air. Base metal fluorides are formed and are removed from the silver, after which the molten bath is treated with a reducing agent, such as hydrogen gas.Type: GrantFiled: May 15, 1981Date of Patent: September 21, 1982Assignee: Kennecott CorporationInventors: John R. Knoepke, David B. George
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Patent number: 4349909Abstract: The present invention provides a process and apparatus for the production of refractory oxide materials having high fusion points. By high fusion points is meant melting points greater than 2400.degree. C.Type: GrantFiled: July 6, 1981Date of Patent: September 14, 1982Assignee: Kennecott CorporationInventor: Paul Cichy
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Patent number: 4349637Abstract: A thickened binder composition which comprises from about 3 to about 20 weight percent colloidal alumina, from about 1 to about 8 weight percent aluminum chlorhydrate and from about 0.1 to about 0.4 weight percent of an inorganic acid selected from hydrochloric and nitric acids and from about 75 to about 95 weight percent water;the method for manufacturing the binder composition and a fiber article by blending the ingredients of the binder composition with each other and by impregnating or blending fibers with the binder composition to form a fiber containing composition followed by drying and calcining the fiber composition; andan article comprising alumina-containing fibers bound together with alumina.Type: GrantFiled: April 21, 1980Date of Patent: September 14, 1982Assignee: Kennecott CorporationInventors: Patrick M. Miedaner, Chhattar S. Kucheria
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Patent number: 4349145Abstract: A method for brazing a surface of an age hardened chrome copper member to a surface of a stainless steel member is disclosed. The process includes plating surfaces with copper, applying a brazed material of a copper/gold alloy between said surfaces, applying a brazing paste between said surfaces and rapidly heating the materials to fuse them together in a protected atmosphere. A particular disclosed embodiment of the method comprises the brazing of the cooler body assembly of a continuous casting die for casting copper strands.Type: GrantFiled: December 3, 1980Date of Patent: September 14, 1982Assignee: Kennecott CorporationInventors: George Shinopulos, M. Ronald Randlett, Terry F. Bower
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Patent number: 4349381Abstract: The invention provides a method wherein alumina-containing slag from melting of spent alumina catalyst material is transported to a second furnace for finishing to satisfactory temperature, composition and quantity for casting as an abrasive material or cast refractory. In one embodiment of the invention, the molten alumina slag material is cast into an inclined trough for direct delivery from the spent catalyst furnace to the abrasive or refractory furnace for finishing.Type: GrantFiled: September 30, 1980Date of Patent: September 14, 1982Assignee: Kennecott CorporationInventor: Paul Cichy
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Patent number: 4346049Abstract: Pressureless sintered silicon carbide ceramic bodies, having an equiaxed microstructure and an alpha crystalline habit can be produced by firing shaped bodies, containing finely divided silicon carbide, boron source such as boron carbide, carbon source such as phenolic resin and a temporary binder, at a sintering temperature of from about 1900.degree. C. to about 2250.degree. C., depending on the sintering atmosphere, under conditions such that a coating of carbon source is maintained on the finely divided silicon carbide, and sufficient boron is maintained within the shaped body during firing. Boron can be maintained within the shaped body by various techniques, such as the use of a "seasoned boat" or graphite container for the body being sintered, which has been saturated with boron by exposure to boron at or about the temperature of sintering.Type: GrantFiled: July 31, 1978Date of Patent: August 24, 1982Assignee: Kennecott CorporationInventors: John A. Coppola, Laurence N. Hailey, Carl H. McMurtry
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Patent number: 4342484Abstract: Methods for increasing the permeability of a subterranean igneous rock formation penetrated by at least one well where a hydraulic fluid is injected into the formation at a pressure sufficient to cause diffusion into the natural fractures thereof and thus increase the cross-sectional area thereof, maintaining the pressure and injecting a second fluid which results, by the use thereof, in substantially maintaining the increased cross-sectional area after the pressure is reduced.Type: GrantFiled: August 14, 1975Date of Patent: August 3, 1982Assignee: Kennecott CorporationInventors: Donald H. Davidson, Ray V. Huff
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Patent number: 4339348Abstract: Dioxime extractants having the following general formula: ##STR1## where R and R' may be any of a variety of organic hydrocarbon radicals such as aliphatic, alkyl and aryl radicals. R and R' may also be hydrogen. Preferably R is an unsaturated hydrocarbon or branch chain alkyl group containing from about 3 to 20 carbon atoms and R' is hydrogen or an unsaturated hydrocarbon or branch chain alkyl group containing from about 1 to 10 carbon atoms. Preferably, there is a difference of about 3 to 10 carbon atoms between R and R' resulting in dissymmetry of the resulting dioxime molecule. Preferably, the dioximes also contain a total of about 5 to 32 carbon atoms. Representative compounds are methyl octyl dioxime and methyl hexyl dioxime.Organic preparations containing such dioximes are useful for the extraction of copper, nickel and cobalt metal values from acid or basic aqueous solution.Type: GrantFiled: April 17, 1980Date of Patent: July 13, 1982Assignee: Kennecott CorporationInventors: Ralph W. M. Lai, John K. Litchfield
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Patent number: 4338215Abstract: Radioactive waste material, such as that resulting from radioactive weapons plant operation or from nuclear fuel reprocessing, in suitable form, such as radionuclide-containing oxide and/or oxyhydroxide and/or hydroxide particles, is held by a metal or metal "alloy" to an electrically conductive cathodic material upon which the metal or alloy is electrodeposited. In this way the radionuclide species including strontium and/or cesium, which are biologically extremely hazardous, are incorporated into a metal matrix held to a base and may be disposed of, as by underground storage, in such form, which is considered to be more resistant to dissolution by ground water and to damage by mechanical stresses arising from tectonic activity than are glasses or ceramics incorporating radionuclides.Type: GrantFiled: September 24, 1979Date of Patent: July 6, 1982Assignee: Kennecott CorporationInventors: Peter T. B. Shaffer, Rustum Roy, Norman H. Macmillan
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Patent number: 4337085Abstract: The invention relates to the recovery of precious metals which is accomplished by melting an alumina-containing spent catalyst having therein a minor amount of a precious metal. The melted alumina containing carrier material is heated to about 2100.degree. C. in an electric furnace. The alumina material is poured from the furnace for utilization in abrasives manufacture. The precious metal collects in the bottom of the furnace and is either poured off and allowed to solidify or allowed to solidify in the furnace. In one embodiment of the invention, the steps of melting spent catalyst and heating to form a molten mixture is repeated a multiplicity of times with pouring off of the molten carrier material. As a multiplicity of meltings and pourings are carried out, gradually there is an appreciable accumulation of the precious metals in the bottom of the furnace.Type: GrantFiled: September 30, 1980Date of Patent: June 29, 1982Assignee: Kennecott CorporationInventor: Paul Cichy
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Patent number: 4334925Abstract: Molten molybdenum-copper-iron-sulfur mattes or alloys, obtained, for example, by reacting slags or other copper-molybdenum containing oxide residues or waste materials witn an iron and/or sulfide reductant, are enriched in molybdenum and copper by a pyrometallurgical process. The molten matte or alloy material is first carburized whereupon a copper-rich matte phase separates from the alloy phase and is removed. The molten alloy phase is next treated one or more times by the addition of sulfur or pyrite resulting in the formation of additional copper-rich matte as a separate phase which is separated after each treatment, leaving an alloy of molybdenum and iron of reduced Cu content. Finally the alloy is desulfurized to provide a commercial product.Type: GrantFiled: December 15, 1980Date of Patent: June 15, 1982Assignee: Kennecott CorporationInventors: Jonathan J. Kim, John F. Elliott
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Patent number: 4334924Abstract: Molten molybdenum-(copper)-iron-sulfur mattes or alloys, obtained for example, by reacting slags or other molybdenum containing oxide residues or waste materials with an iron and/or sulfide reductant, are enriched in molybdenum and copper (if present) by a pyrometallurgical process. The molten matte or alloy material is oxidized to remove sulfur, as sulfur oxides, while varying amounts of iron are converted to iron oxides which separate from the metallics. The oxidation thus enriches the molybdenum and copper content of the remaining alloy. Silica flux may be added during the reaction process to form a fluid slag with the iron oxide which separates from the remaining molybdenum-iron-(copper) material which constitutes the product.Type: GrantFiled: December 15, 1980Date of Patent: June 15, 1982Assignee: Kennecott CorporationInventors: Jonathan J. Kim, Paul R. Ammann
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Patent number: RE31128Abstract: A fused abrasive grain, useful for inclusion in coated abrasives and bonded abrasives, consists essentially of alumina; titanium oxide containing from about 0.42 to about 0.84% titanium, by weight of the abrasive grain, present as a reduced titanium oxide having an average oxidation state lower than in Ti.sub.2 O.sub.3 ; from about 0.05 to about 0.3% by weight carbon; from about 0.02 to about 0.1% by weight Na.sub.2 O; and from 0 to about 0.1% by weight total of calcium and silicon oxides. The grain before roasting has a gain on ignition of from about 0.4 to about 0.7% by weight, and is produced in an electric furnace by fusing high-purity titania, alumina containing Na.sub.2 O as the only significant oxide impurity, and carbon, followed by crushing and roasting the fused grain.Type: GrantFiled: September 2, 1980Date of Patent: January 18, 1983Assignee: Kennecott CorporationInventors: Thomas B. Walker, Robert J. Seider, Paul Cichy