Nonmetal Component Patents (Class 428/551)
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Patent number: 5812926Abstract: A hard facing alloy is applied to a surface of a substrate by making a mixture of at least two constituents whose net composition is the desired hard facing alloy composition. The constituents have different solidus temperatures, at least one of which is above a processing temperature of the substrate and another of which is below the processing temperature of the substrate. In one preferred approach, the mixture is prepared by pressing and lightly sintering the constituents in the form of powders, so that the mixture retains its shape and can be attached to the substrate surface. Then the substrate is heated to the processing temperature and maintained for a time sufficient to permit interdiffusion of the several different phases toward a homogeneous hard facing alloy composition uniformly through a major portion of the volume.Type: GrantFiled: September 3, 1991Date of Patent: September 22, 1998Assignee: General Electric CompanyInventors: Joseph Carl Wukusick, Roger Johnson Perkins, deceased, Murray Sawyer Smith, Jr.
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Patent number: 5805973Abstract: Articles for hot hydrocarbon fluid wherein the surface for contacting the fluid is a metal oxide, amorphous glass or metal fluoride diffusion barrier material coated on a metal substrate. The metal oxide, amorphous glass or metal fluoride is deposited by chemical vapor deposition (CVD), e.g., by effusive CVD of an organometallic compound on the surface without the use of carrier gas, without pre-oxidation of the surface and without thermal decomposition of the diffusion barrier coating material. Examples of coating materials deposited by effusive CVD are SiO.sub.2, TiO.sub.2, spinel and Al.sub.2 O.sub.3. The articles having the coated surfaces find utility in components subjected to high temperatures wherein the components are in contact with hydrocarbon fluids without additives, without special attention to quality control and without the need for special processing.Type: GrantFiled: March 12, 1997Date of Patent: September 8, 1998Assignee: General Electric CompanyInventors: George A. Coffinberry, John F. Ackerman
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Patent number: 5786493Abstract: Cyclic silane esters and solvolysis products thereof and processes for making these materials. The cyclic silanes and their solvolysis products are useful as adhesives, crosslinking agents and reagents for modifying polymers containing ester groups.Type: GrantFiled: July 16, 1997Date of Patent: July 28, 1998Assignee: Huels AktiengesellschaftInventors: Hartwig Rauleder, Hans-Joachim Koetzsch, Jaroslaw Monkiewicz, Claus-Dietrich Seiler, Hans-Guenther Srebny
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Patent number: 5780164Abstract: A hard drive disk substrate is formed of a multi-phase ceramic-based material having at least two phases with amorphous phases being present in an amount less than about 1 volume percent based on the volume of the ceramic-based material or at least one phase being free metal. A process for producing the ceramic-based disk substrate is produced by forming a flat disk of a porous ceramic and then infiltrating the porous ceramic with a metal whereby a multi-phase ceramic-based computer hard drive disk is produced. Additionally, a step of passivating the porous ceramic by elevating it to a temperature of about 1300.degree. to about 1800.degree. C. before the infiltrating step may be performed, such that the surfaces are passivated and the reaction kinetics can be controlled during the infiltrating step. A preferred composite material is made of a multi-phase boron carbide composite material including grains having peaks with an average roughness value, Ra, of between about 1 to about 200 .ANG.Type: GrantFiled: June 29, 1995Date of Patent: July 14, 1998Assignee: The Dow Chemical CompanyInventors: Aleksander J. Pyzik, Uday V. Deshmukh, Chan Han, Kevin J. Nilsen, Donald J. Perettie, Arthur R. Prunier, Jr.
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Patent number: 5763106Abstract: The present invention provides a ceramic based composite powder and a method for applying the composite powder using a H.V.O.F. gun to form a self-lubricating coating for metal parts. The composite powder and coating are comprised of a ceramic powder, a metal powder, and a solid lubricant powder.Type: GrantFiled: January 19, 1996Date of Patent: June 9, 1998Assignee: Hino Motors, Ltd.Inventors: Cheryl Renee Blanchard, Richard Allen Page
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Patent number: 5735679Abstract: A motor driven by air or other fluid, or a pump for pumping air or another fluid, including a rotor having a porous metal body formed of compacted and sintered metal particles and containing polytetrafluoroethylene embedded within the pores of the body. The metal particles are preferably primarily of iron, with a smaller amount of copper at least partially dissolved in the iron. The metal body carries vanes which are received slidably within slots in the body and are movable radially relative thereto and are preferably formed of resinous plastic material.Type: GrantFiled: December 12, 1995Date of Patent: April 7, 1998Assignee: Hutchins Manufacturing Co.Inventor: Donald H. Hutchins
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Patent number: 5733650Abstract: A wearing surface for tires includes a rubber or rubber mix and an admixture of friction-improving materials. The admixture of friction-improving materials include a mixture of crystalline chrysolite (olivine) and a metal powder. The metal powder can be steel or an aluminum alloy.Type: GrantFiled: February 5, 1996Date of Patent: March 31, 1998Inventor: Erling Christensen
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Patent number: 5732322Abstract: The disclosure describes a resin composition for a sliding member, comprising 1 to 25 wt % of component A selected from the group consisting of phosphates and barium sulfate, 1 to 15 wt % of component B selected from the group consisting of magnesium silicate and mica, and 5 to 50 wt % of component C selected from the group consisting of lead, tin, lead-tin alloy and mixtures thereof, the balance of polytetrafluoroethylene.Type: GrantFiled: May 22, 1995Date of Patent: March 24, 1998Assignee: Oiles CorporationInventors: Takashi Nakamaru, Sumihide Yanase, Akihiko Okimura
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Patent number: 5729822Abstract: A powder metal gear wheel having a core density of at least 7.3 g/cc, and in one embodiment 7.4 to 7.6 g/cc and a hardened carburized surface. A method of manufacturing transmission gears comprises, sintering a powder metal blank to produce a core density of between 7.4 to 7.6 g/cc, rolling the surface of the gear blank to densify the surface, and then heating the rolled sintered part and carburizing in a vacuum furnace.Type: GrantFiled: May 24, 1996Date of Patent: March 17, 1998Assignee: Stackpole LimitedInventors: Rohith Shivanath, Peter Jones
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Patent number: 5679466Abstract: A particle dispersed glassy material includes ultrafine metal particles that are present in a high concentration. The particles are surrounded by a fixation component and, optionally, can be surrounded by a skeleton forming component. The glassy material is produced by firing a substrate having a film thereon that includes a polymer composite having the ultrafine particles uniformly dispersed therein, a fixation reagent and, optionally, a skeleton forming reagent under relatively mild conditions that do not damage the substrate. A method of making the glassy material includes the steps of making a film-forming composition that includes the polymer composite, the fixation reagent and, optionally, the skeleton forming reagent, applying the composition to a substrate, drying the applied composition to produce a film and firing the film to produce the glassy material.Type: GrantFiled: March 13, 1996Date of Patent: October 21, 1997Assignee: Mitsuboshi Belting, Ltd.Inventors: Toru Noguchi, Kazuo Goto, Sigehiko Hayashi, Masahito Kawahara, Susumu Murakami, Yoshio Yamaguchi, Shigehito Deki
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Patent number: 5672435Abstract: Hard disk drive components, such as, sliders, load beams, support arms, actuators, actuator bearings, spacers, clamps, spindles, ball bearings, thrust bearings, journal bearings, base plates, housings, and covers, formed of a multi-phase ceramic-based material. One method of making the hard disk drive components includes (a) forming a porous body of ceramic; (b) infiltrating a liquid into the pores of the ceramic body; (c) solidifying the infiltrated liquid; and (d) machining the metal-infiltrated ceramic body to form the hard disk drive component.Type: GrantFiled: June 29, 1995Date of Patent: September 30, 1997Assignee: The Dow Chemical CompanyInventors: David W. Born, Uday V. Deshmukh, Timothy G. Fawcett, Richard T. Fox, Kevin J. Nilsen, Aleksander J. Pyzik
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Patent number: 5658678Abstract: A corrosion resistant cermet comprises a ceramic component (e.g., WC) and a binder alloy comprised of a major component (e.g., one or more of iron, nickel, cobalt, their mixtures, and their alloys) and at least one additive component (e.g., one or more of ruthenium, rhodium, palladium, osmium, iridium, and platinum). Plungers for hyper compressors used in the corrosive environments generated during the manufacture of low density polyethylene (LDPE) or ethylene copolymers are an example of the use of the corrosion resistant cermet.Type: GrantFiled: January 11, 1996Date of Patent: August 19, 1997Assignee: Kennametal Inc.Inventors: William M. Stoll, James P. Materkowski, Ted R. Massa
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Patent number: 5643683Abstract: A wet type sliding apparatus in which a multilayer sliding member is used in the presence of a lubricating oil, characterized in that the multilayer sliding member is composed of (1) a backing metal layer, (2) a porous, sintered layer provided thereon and (3) a surface layer consisting essentially of polyetheretherketone formed by impregnating and coating the porous, sintered layer with a sliding resin consisting essentially of polyetheretherketone. The above sliding member has a small friction coefficient and excellent wear resistance. In particular, the sliding noise can be more effectively inhibited by adjusting the face roughness of the surface layer of the sliding member to 2 .mu.m or less.Type: GrantFiled: January 24, 1996Date of Patent: July 1, 1997Assignee: Daido Metal Company Ltd.Inventors: Tadashi Tanaka, Hidehiko Tamura, Takahiro Niwa, Izumi Maruyama, Yoshihiro Fukutani
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Patent number: 5634189Abstract: A structural component is formed with an outer shell of sintered, solid, powder particles, and a porous core of sintered, hollow, bodies arranged in layers. The hollow bodies are of increased diameter in the layers in a direction from the outer periphery of the core towards the center of the core. The material of the outer shell and of the core is a metal or ceramic.Type: GrantFiled: November 14, 1994Date of Patent: May 27, 1997Assignee: Mtu Motoren-Und Turbinen Union Munchen GmbHInventors: Axel Rossmann, Wilfried Smarsly
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Patent number: 5613187Abstract: A rotationally symmetrical preform (1) is made by atomizing molten metal by means of a gas jet in a nozzle and by deposition of the droplets on a suitable substrate, wherein at least two independent nozzles (2,3) are arranged so that their droplet streams (4,5) overlap and are directed onto a substrate (6) of circular cross-section, and wherein insoluble particles are injected either into the first or into the second droplet stream (4 or 5) or wherein different types of particles are injected into the first and the second droplet stream (4,5).Type: GrantFiled: August 1, 1995Date of Patent: March 18, 1997Assignee: Wieland-Werke AG MetallwerkeInventors: Dieter Stock, W. Gary Watson
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Patent number: 5613180Abstract: A method for producing high density and/or high surface density ferrous powder metal parts has the steps of: compacting a iron-containing powder substantially free of graphite at room temperature and at about 40-50 tsi; sintering the green compact in an inert, non-oxidizing environment at a temperature of about 2050.degree.-2300.degree. F.; repressing the sintered compact at room temperature at about 60 tsi; carburizing the repressed compact at high temperature to form a layer of relatively high carbon concentration to a depth of at least about 0.010 inches; and immediately quenching the hot carburized compact followed by a tempering treatment.Type: GrantFiled: September 30, 1994Date of Patent: March 18, 1997Assignee: Keystone Investment CorporationInventor: John C. Kosco
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Patent number: 5603075Abstract: A corrosion resistant cermet comprises a ceramic component (e.g., WC) and a binder alloy comprised of a major component (e.g., one or more of iron, nickel, cobalt, their mixtures, and their alloys) and at least one additive component (e.g., one or more of ruthenium, rhodium, palladium, osmium, iridium, and platinum).Plungers for hyper compressors used in the corrosive environments generated during the manufacture of low density polyethylene (LDPE) or ethylene copolymers are an example of the use of the corrosion resistant cermet.Type: GrantFiled: March 3, 1995Date of Patent: February 11, 1997Assignee: Kennametal Inc.Inventors: William M. Stoll, James P. Materkowski, Ted R. Massa
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Patent number: 5590392Abstract: A corrosion-resistant material for the construction of a member destined to contact molten metal comprises a matrix of a refractory metal and a powder of the oxide of at least one metallic element selected from the group consisting of the same metallic element as the molten metal and metallic elements having lower levels of free energy for the formation of an oxide than the molten metal, the powder of the oxide being dispersed and disposed in the matrix. The refractory metal is W, Mo, Ta, Nb, or Re. The metal oxide is selected from the rare earth metal oxides, namely the oxides of the same metallic elements as the molten metals, and the oxides of Ti, Cr, and Zr.Type: GrantFiled: February 22, 1995Date of Patent: December 31, 1996Assignee: Kabushiki Kaisha ToshibaInventors: Yutaka Ishiwata, Yoshiyasu Itoh
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Patent number: 5590393Abstract: The invention relates to a neutron-absorbing material and to its production process.This material comprises a homogeneous, boron carbide matrix 1 in which are dispersed e.g. pseudospherical, 150 to 500 .mu.m , calibrated clusters 3 of boride such as HfB.sub.2, in order to prevent the propagation of cracks F in the material and improve its thermal shock resistance.Type: GrantFiled: February 7, 1995Date of Patent: December 31, 1996Assignee: Commissariat a l'Energie AtomiqueInventors: Guy M. Decroix, Dominique Gosset, Bernard Kryger
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Patent number: 5580666Abstract: A multi-phase cemented ceramic article, method of making same, and the material thereof is disclosed which is useful for machining and forming of metals, including ferrous metals, titanium, aluminum and other metals. The article and its material preferably includes novel microstructures including platelets, a range of grain sizes which yields superior hardness and other characteristics, and a lower tungsten concentration within the binder phase than has been seen in the prior art. The preferred composition includes ultrafine WC, an ultrafine solid solution of (Ti, Ta, W)C, and a cobalt binder. Platelets are formed in-situ, eliminating the need to add them during manufacture for improving toughness.Type: GrantFiled: January 20, 1995Date of Patent: December 3, 1996Assignee: The Dow Chemical CompanyInventors: Ellen M. Dubensky, Stephen D. Dunmead, Daniel F. Carroll
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Patent number: 5579534Abstract: A heat-resistant member is constructed by having a ceramic coating layer deposited on the surface of a metallic substrate through the medium of a metallic bonding layer. The metallic bonding layer is composed of at least two layers, i.e. a layer of an aggregate of minute particles disposed on the metallic substrate side and a layer of an aggregate of coarse particles disposed on the ceramic coating layer side. Otherwise, the metallic bonding layer is composed of at least three layers, i.e. two layers of an aggregate of coarse particles disposed one each on the metallic substrate side and the ceramic coating layer side and one layer of an aggregate of minute particles interposed between these two layers of an aggregate of coarse particles. These layers are obtained by the low pressure ambient plasma thermal spraying using a fine powder or a coarse powder of an alloy resistant to corrosion and oxidation.Type: GrantFiled: May 19, 1995Date of Patent: November 26, 1996Assignee: Kabushiki Kaisha ToshibaInventors: Masayuki Itoh, Kazuhiro Yasuda, Kunihiko Wada, Seiichi Suenaga, Shinji Arai
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Patent number: 5578383Abstract: A precious-metal material for articles of jewelry and having low specific weight, high resistance to corrosion, in spite of a low content of precious metals, and free from toxic constituents which consists of 33 to 99 wt. % precious metal powder, 1 to 67 wt. % of a thermosetting organic plastics and 0 to 10% filler.Type: GrantFiled: April 10, 1995Date of Patent: November 26, 1996Assignee: Degussa AktiengesellschaftInventors: Hans-Hermann Beyer, Karl-Anton Starz
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Patent number: 5577263Abstract: A method for producing a composite element by causing a stream of gaseous rhenium hexafluoride to flow onto a carbon substrate in a chemical vapor deposition reaction. A flow of hydrogen gas causes a reduction of the rhenium hexafluoride to rhenium metal to thereby deposit a uniform layer of rhenium metal onto the surface of the carbon substrate. A fine grain rhenium coating on carbon is produced having an average particle diameter of from about 0.1 to about 25 micrometers. The elements may be used alone or several of them may be bonded together into various articles. Such elements and articles are useful as light weight, high temperature strength, corrosive gas resistant structural elements.Type: GrantFiled: March 22, 1995Date of Patent: November 19, 1996Assignee: AlliedSignal Inc.Inventor: Gary A. West
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Patent number: 5571344Abstract: An element for thermally protecting a substrate is deposited on the substrate and comprises a quasicrystalline aluminum alloy having a thermal diffusivity lower than 2.5.times.10.sup.-6 m.sup.2 /s at room temperature and a thermal diffusivity, within the temperature range 650.degree.-750.degree. C., which does not exceed its thermal diffusivity at room temperature by a factor greater than 3. The element may be used to provide heat barriers or bonding layers for substrates. The heat protection element, used in the form of a heat barrier or in the form of a bond coat for neat barriers, exhibits good thermal insulation properties, good mechanical properties, a low specific mass, good resistance to corrosion, and great ease of processing. Further, the invention is useful in limiting heat transfer towards or from parts and components of fittings in many household and industrial devices, for example, heating or cooking devices, smoothing irons, automobile components, and in aeronautic components.Type: GrantFiled: August 9, 1993Date of Patent: November 5, 1996Assignee: Centre National de la Recherche ScientifiqueInventors: Jean-Marie Dubois, Pierre Archambault, Bernard Colleret
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Patent number: 5549975Abstract: A coated tool consisting of a cermet body and a refining layer thereon. The refining layer is a wear resistant layer of (Ti, Me) N, wherein Me is at least one metal which forms a stable oxide at a temperature above 700.degree. C.Type: GrantFiled: July 20, 1994Date of Patent: August 27, 1996Assignee: Balzers AktiengesellschaftInventors: Hans Schulz, Josef Maushart
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Patent number: 5545487Abstract: The Al-Si sintered alloy having good mechanical strength and elongation and is especially excellent in wear resistance, and a method for producing the same. The sintered alloy consists of 2.4-23.5% Si, 2-5% Cu, 0.2-1.5% Mg, 0.01-1% of transition metals and the balance of aluminum and unavoidable impurities, and has a dapple grain structure of an Al-solid solution phase and an Al-Si alloy phase containing dispersed pro-eutectic Si crystals having a maximum diameter of 5-60 .mu.m either in the whole body or in the surface contact portion, and the area ratio of the Al-solid solution phase in the grain structure is in the range of 20-80%.Type: GrantFiled: February 9, 1995Date of Patent: August 13, 1996Assignees: Hitachi Powdered Metals Co., Ltd., Honda Giken Kogyo Kabushiki KaishaInventors: Zenzo Ishijima, Jun-ichi Ichikawa, Shuji Sasaki, Hideo Shikata, Hideo Urata, Shoji Kawase, Jun-ichi Ueda
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Patent number: 5543235Abstract: The present invention provides multiple grade, composite cemented carbide articles and a method of making such articles. The cemented carbide articles comprise carbides of different grades (or different compositions and/or microstructures) and, therefore, correspondingly different properties at different locations in the same article. The method of the present invention comprises filling different areas or portions of a die with metallurgical powders having different compositions and/or microstructures. The powder is then compressed as a single compact in the die cavity. The compressed compact is subsequently sintered to produce a multigrade cemented carbide article having composition and/or microstructural variations within the volume of the article.Type: GrantFiled: April 26, 1994Date of Patent: August 6, 1996Assignee: SinterMetInventors: Prakash K. Mirchandani, Robert E. Thomas, Mark Cippel
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Patent number: 5541005Abstract: A large ceramic substrate article for electronic applications including at least one layer of sintered ceramic material, the layer including a plurality of greensheet segments of ceramic material joined edge to edge. Also disclosed is a method of fabricating a large ceramic greensheet article as well as a large ceramic substrate article.Type: GrantFiled: May 11, 1995Date of Patent: July 30, 1996Assignee: International Business Machines CorporationInventors: Raschid J. Bezama, Jon A. Casey, Mario E. Ecker, Shaji Farooq, Irene S. Frantz, Katherine G. Frase, David H. Gabriels, Lester W. Herron, John U. Knickerbocker, Sarah H. Knickerbocker, Govindarajan Natarajan, John Thomson, Yee-Ming Ting, Sharon L. Tracy, Robert M. Troncillito, Vivek M. Sura, Donald R. Wall, Giai V. Yen
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Patent number: 5540884Abstract: Heat multilayer aluminum nitride greenware, a composite of layers of aluminum nitride green tape having refractory metal ink patterns deposited thereon, in a nonoxidizing atmosphere, at atmospheric pressure to effect liquid phase sintering of both the aluminum nitride greenware and the refractory metal ink. The resultant cofired structure is substantially free of warpage and has satisfactory thermal conductivity, surface finish, mechanical properties and resistance to delamination.Type: GrantFiled: November 7, 1994Date of Patent: July 30, 1996Assignee: The Dow Chemical CompanyInventor: Yi-Hung Chiao
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Patent number: 5534353Abstract: A composite sintered material of a mixed-phase structure comprising fine particles of hard compound compactly and uniformly dispersed in grains of matrix of titanium or titanium alloy. The material is outstanding in abrasion resistance, strength, toughness, etc., and also has high resistance to corrosion by molten nonferrous metals and is therefore reduced in the likelihood of dissolving out into the melt.The sintered material is produced by uniformly mixing together a metal powder for forming the matrix of the desired sintered material and a powder for forming particles of hard compound to be dispersed, molding the powder mixture into a block under pressure, atomizing the block while melting the block and sintering the resulting powder.Type: GrantFiled: February 1, 1994Date of Patent: July 9, 1996Assignee: Kubota CorporationInventors: Takahiro Kaba, Takashi Nishi, Tsuyoshi Mitsuhashi
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Patent number: 5523169Abstract: A base metal repair tape includes a first layer formed from powdered base metal bonded together by fibrillated polytetrafluoroethylene and a second layer comprising a brazing alloy bonded together by fibrillated polytetrafluoroethylene. This is used to repair base metal by placing the first layer on the base metal and brazing the base metal so that the brazing alloy melts and diffuses into the base metal powder bonding it to the surface of the article. This permits the braze powder to be bonded to the base metal surface with minimal distance between the base powder particles.Type: GrantFiled: September 13, 1994Date of Patent: June 4, 1996Inventors: Kevin Rafferty, Bruce Rowe
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Patent number: 5523170Abstract: An article with a high temperature superalloy body having a directionally oriented microsuucture and a structural discontinuity, such as a crack, or surface erosion or wear portion, is repaired, to provide a repaired article, using a mixture of Ni base ahoy powders. One powder includes a careful balance of the temperature depressants Si and B. In the one powder, Si is included in the range of about 0.05-2.2 wt. % to provide about 0.02-1.3 wt. % Si in a repaired portion as bonded with the article. In that same powder, B is include in the range of about 0.2-1.2 wt. % to provide about 0.08-0.7 wt. % in that repaired portion. In the repair method, the repaired portion can be provided, when shorter brazing times are used, with improved mechanical properties by diffusing the brazed alloy and aging the repaired structure in the range of about 1600.degree.-1700.degree. F. for a time in the range of about 1-16 hours.Type: GrantFiled: December 28, 1994Date of Patent: June 4, 1996Assignee: General Electric CompanyInventors: David E. Budinger, Jim D. Reeves, Robert A. Anderson
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Patent number: 5521016Abstract: Subject boron carbide to a passivation treatment at a temperature within a range of 1350.degree. C. to less than 1800.degree. C. prior to infiltration with a molten metal such as aluminum. This method allows control of kinetics of metal infiltration and chemical reactions, size of reaction products and connectivity of B.sub.4 C grains and results in cermets having desired mechanical properties.Type: GrantFiled: January 24, 1995Date of Patent: May 28, 1996Assignee: The Dow Chemical CompanyInventors: Aleksander J. Pyzik, Uday V. Deshmukh, Stephen D. Dunmead, Jack J. Ott, Timothy L. Allen, Harold E. Rossow
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Patent number: 5518822Abstract: A TiCN-based cermet cutting insert superior in toughness with improved wear resistance includes a binding phase and at least two hard dispersion phases. One of the hard dispersion phases includes one of a duplex and triplex structure having a core structure containing at least one of titanium carbonitride and a carbonitride solid solution of Ti and one of a V, Cr, Ti, Nb, Zr, W and Mo (hereinafter referred to as a (Ti,M)CN. The other hard dispersion phase includes a single structure wherein the core structure is composed of at least one of (Ti,M)CN or (Ti,M)CN and TiCN.Type: GrantFiled: October 12, 1994Date of Patent: May 21, 1996Assignee: Mitsubishi Materials CorporationInventors: Kiyohiro Teruuchi, Katsuhiko Yano, Niro Odani
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Patent number: 5516592Abstract: A method for preparing foamed aluminum alloy composites comprising the steps of: (a) placing a liquid hardness-reinforcement composition into a tank, the hardness-reinforcement composition containing about 54.about.64 wt. % of an inorganic powder, about 35.about.45 wt. % of a nonflammable curable resin, and about 1 wt. % of a curing agent; (b) placing a foamed aluminum alloy plate having an internal porous body into the tank containing the hardness-reinforcement composition, then applying a pressure of about 10.about.50 Kg/cm.sup.2 onto the foamed aluminum alloy plate for about one to two hours so as to allow the hardness-reinforcement composition to soak into the foamed aluminum alloy plate and form a coated layer on the surface of the porous body; (c) removing the foamed aluminum alloy plate that has been coated with a layer of the hardness-reinforcement composition from the tank; and (d) drying and curing the curable nonflammable resin so as to form the foamed aluminum alloy composite.Type: GrantFiled: January 20, 1995Date of Patent: May 14, 1996Assignee: Industrial Technology Research InstituteInventors: Chin-Chan Yang, Kou-Chang Su, Wen-Chi Chen, Shan-Chang Chueh
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Patent number: 5514480Abstract: A metal-based composite includes a metal matrix including aluminum as a major component, discontinuous alumina fibers buried in the metal matrix, mullite particles buried therein, and solid lubricant particles buried therein. The solid lubricant particles can be either graphite particles with a nickel layer formed on a surface thereof, or boron nitride cermet particles. By thus including the specific solid lubricant particles, the wear resistance of the metal-based composite can be improved, the wear of its mating parts can be reduced, and the friction coefficient between the metal-based composite and the mating parts can be inhibited from fluctuating. Hence, the metal-based composite can appropriately make aluminum-based internal combustion engines.Type: GrantFiled: August 5, 1994Date of Patent: May 7, 1996Assignee: Aisin Seiki Kabushiki KaishaInventors: Katumi Takagi, Shuji Inoue
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Patent number: 5510193Abstract: Metal carbide supported polycrystalline diamond (PCD) compacts having improved shear strength and impact resistance properties, and a method for making the same under high temperature/high pressure (HT/HP) processing conditions. A sintered polycrystalline cubic boron nitrite (PCBN) compact interlayer is provided to be bonded at a first interface to a sintered PCD compact layer, and at a second interface to a cemented metal carbide support layer comprising particles of a metal carbide in a binder metal. The supported compact is characterized as having a substantially uniform sweep through of the binder metal from the cemented metal carbide support layer, which sweep through bonds the sintered PCD compact layer to the sintered PCBN interlayer, and the sintered PCBN interlayer to the cemented metal carbide support layer.Type: GrantFiled: October 13, 1994Date of Patent: April 23, 1996Assignee: General Electric CompanyInventors: David B. Cerutti, Henry S. Marek
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Patent number: 5508114Abstract: A method of manufacturing a lead-provided porous metal sheet comprises the steps of: forming a porous metal material having a metal layer on a surface of a framework of a porous base material comprising a foamed sheet and the like, by plating the porous base material and/or applying fine metal powders thereto; passing the porous metal material through a pair of rolls having a plurality of projections formed thereon to compress the porous metal material against the projections and reduce or eliminate pores so as to form one or more recesses extending; and forming solid metal portions by applying fine metal powders to the entire recesses.Type: GrantFiled: December 9, 1994Date of Patent: April 16, 1996Assignee: Katayama Special Industries, Inc.Inventor: Hirofumi Sugikawa
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Patent number: 5508115Abstract: A titanium alloy matrix fiber reinforced composite made from titanium alloy sheet processed to have ductility up to about 35%. Of particular usefulness is the composite having a Ti.sub.3 Al titanium aluminide having this level of ductility. The composites have good resistance to thermal cyclic fatigue.Type: GrantFiled: April 1, 1993Date of Patent: April 16, 1996Assignee: United Technologies CorporationInventors: Gary D. Linsey, Otis X. Chen, Martin J. Blackburn
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Patent number: 5500289Abstract: A sinterable powder mix for the production of a tungsten-based cemented carbide material, said powder mix comprising at least 70% by weight of WC, from about 2 to about 15% by weight of an iron group metal binder, and optionally up to about 15% by weight of one or more carbides, nitrides and carbonitrides of metals of the groups IVb, Vb and VIb of the periodic table; characterized in thatsaid powder mix comprises from about 1 to about 8% by weight of Ta(Nb) oxide and powdered elemental carbon in about the stoichiometric amount required for the reaction:Ta(Nb).sub.2 O.sub.5 +7C.fwdarw.Type: GrantFiled: June 20, 1995Date of Patent: March 19, 1996Assignee: ISCAR Ltd.Inventor: Ilan Gavish
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Patent number: 5492771Abstract: An improved method of making a monolayer abrasive tool using a relatively low melting point, soft filler metal alloy braze which possesses sufficiently high yield strength combined with a relatively high ductility and low elastic modulus to produce an exceptional bond between a monolayer of superabrasive particles and the tool substrate. The steps of the brazing process include applying a layer of the filler metal alloy including a an active metal in either pre-alloyed or as a mixture with the metal alloy and a monolayer of superabrasive crystals over the filler metal layer. This assembly is heated in a mon-oxidizing atmosphere such as a vacuum to melt the alloy and braze bond the superabrasive particles to the tool substrate. The alloy bond formed possess the properties of a ductility of at least 20 percent elongation, an elastic modulus of less than 15.times.10.sup.6 or less, and a yield strength preferably at least about 45,000 to 50,000 psi.Type: GrantFiled: September 7, 1994Date of Patent: February 20, 1996Assignee: Abrasive Technology, Inc.Inventors: James T. Lowder, Roy F. Wielonski, Kosta L. George
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Patent number: 5492770Abstract: A diamond film is formed on a surface of a substrate. The diamond film is attached securely to the substrate by forming a first layer on the surface comprising a mixture of a main component of the substrate and a sintering reinforcement agent for diamond, then forming a second layer comprising a mixture of said agent and diamond on said first layer, and finally forming the diamond film on the second layer.Type: GrantFiled: November 16, 1993Date of Patent: February 20, 1996Assignee: Fujitsu LimitedInventors: Motonobu Kawarada, Kazuaki Kurihara
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Patent number: 5484662Abstract: A solid lubricant coating system for use with a metal interface subject to high temperatures and wet lubrication, comprising agglomerates of particles of (i) solid lubricant particles selected from the group consisting of graphite, boron nitride, molybdenum disulfide, lithium fluoride, NaF, WS.sub.2, and calcium fluoride; and (ii) steel particles fused together and bounding said solid lubricant particles at least at certain intersections, certain portions of said steel particles being air-hardened to a high hardness upon exposure of the coating to the interface at high temperatures.Type: GrantFiled: May 6, 1994Date of Patent: January 16, 1996Assignee: Ford Motor CompanyInventor: V. Durga N. Rao
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Patent number: 5480728Abstract: A conductive contact for use with metal oxide superconductors is described. The conductive contact comprises a metal contact which is attached by a diffusion bonding means to a superconductive metal oxide substrate. In a preferred embodiment, diffusion bonding means comprises a metal paint which includes metal particles and an organic binder which is heated to pyrolized the organic binder and form metallic diffusion bonds to the metal contact and metal oxide substrate. The invention also comprises a method for forming the conductive contact which includes selecting the superconducting metal oxide substrate, coating the substrate with a metal paint, placing the metal contact in touching contact with the metal paint and heating the combination of materials described above to pyrolized the organic binder and coalesce the metal particles.Type: GrantFiled: January 3, 1994Date of Patent: January 2, 1996Assignee: General Electric CompanyInventor: John E. Tkaczyk
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Patent number: 5472793Abstract: A composite spray coating comprises an iron base material, a spray coating film applied thereon and a diffusion layer of aluminum or aluminum-zinc alloy, and is used for hot-dip galvanization.Type: GrantFiled: December 12, 1994Date of Patent: December 5, 1995Assignee: Tocalo Co., Ltd.Inventors: Yoshio Harada, Kazumi Tani, Yoshihumi Kobayashi
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Patent number: 5472661Abstract: Method of distributing and retaining insoluble additive particles uniformly throughout a mass of moldable metal particles. The additive particles are suspended in a solution of a polymeric binder and spray-coated onto the metal particles. When the solvent evaporates, the additives remain glued to the metal particles by the binder.Type: GrantFiled: December 16, 1994Date of Patent: December 5, 1995Assignee: General Motors CorporationInventor: David E. Gay
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Patent number: 5468566Abstract: An article and method of manufacture of (Bi, Pb)-Sr-Ca-Cu-O superconductor. The superconductor is manufactured by preparing a first powdered mixture of bismuth oxide, lead oxide, strontium carbonate, calcium carbonate and copper oxide. A second powdered mixture is then prepared of strontium carbonate, calcium carbonate and copper oxide. The mixtures are calcined separately with the two mixtures then combined. The resulting combined mixture is then subjected to a powder in tube deformation and thermal processing to produce a substantially phase pure (Bi, Pb)-Sr-Ca-Cu-O superconductor.Type: GrantFiled: September 13, 1994Date of Patent: November 21, 1995Assignee: University of ChicagoInventors: Stephen E. Dorris, Roger B. Poeppel, Barton C. Prorok, Michael T. Lanagan, Victor A. Maroni
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Patent number: 5462808Abstract: A high-rigidity composite material having a Young's modulus larger than 25,000 kgf/mm.sup.2 is disclosed, in which particles are dispersed in a matrix of a ferritic steel, and the degree of accumulation of {111} planes in a plane perpendicular to a given direction, in terms of X-ray diffraction intensity, is 30 times larger than that of equiaxial polycrystals.Type: GrantFiled: September 2, 1994Date of Patent: October 31, 1995Assignee: Sumitomo Metal Industries, Ltd.Inventors: Kazutaka Asabe, Masaru Nishiguchi, Sukeyoshi Yamamoto
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Patent number: 5460893Abstract: A TiCN-based cermet cutting insert superior in toughness with improved wear resistance includes a binding phase and at least two of four hard dispersion phases. One of the two hard dispersion phases includes at least one of a duplex or triplex phase structure with a core of a composite carbonitride solid solution and a single-phase structure of a composite carbonitride solid solution. The other hard dispersion phase includes one of a hard dispersion phase of titanium carbonitride and a hard dispersion phase which includes a single-phase structure of titanium carbonitride.Type: GrantFiled: March 8, 1994Date of Patent: October 24, 1995Assignee: Mitsubishi Materials CorporationInventors: Kiyohiro Teruuchi, Katsuhiko Yano, Niro Odani
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Patent number: 5447800Abstract: A martensitic hot work tool steel die block for use in the manufacture of die casting die components and other hot work tooling components and a method for manufacturing the same. The article has a hardness within the range of 35 to 50 HRC and a minimum transverse Charpy V-notch impact toughness of 5 foot pounds when heat treated to a hardness of 44 to 46 HRC and when tested at both 72.degree. F. and 600.degree. F. The article is a hot worked, heat treated and fully dense consolidated mass of prealloyed particles of the composition, in weight percent, 0.32 to 0.45 carbon, 0.20 to 2.00 manganese, 0.05 to 0.30 sulfur, up to 0.03 phosphorous, 0.80 to 1.20 silicon, 4.75 to 5.70 chromium, 1.10 to 1.75 molybdenum, 0.80 to 1.20 vanadium, and balance iron. The alloy may be any conventional wrought AISI hot work tool steel or wrought maraging or precipitation-hardening steel having 0.05 to 0.30 percent sulfur, and having sulfide particles which exhibit a maximum size of 50 microns in their longest dimension.Type: GrantFiled: September 27, 1993Date of Patent: September 5, 1995Assignee: Crucible Materials CorporationInventors: Carl J. Dorsch, Kenneth E. Pinnow, William Stasko