Loose Particulate Mixture (i.e., Composition) Containing Metal Particles Patents (Class 75/255)
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Patent number: 5338508Abstract: There is provided alloy steel powders for the injection molding use manufactured by the atomizing method which are characterized by their substantially spherical particle shape and average particle diameters of 20 microns or less, a compound for the injection molding use which contains the alloy steel powders and one or more organic binders, a process for manufacturing sintered materials in performing injection molding of compound and subsequently debinding the obtained injection molded part followed by sintering the debound part, at least the first stage of the sintering step is performed in reduced pressure atmosphere, and the sintered material having a relative density ratio of 92% or more.Type: GrantFiled: October 16, 1992Date of Patent: August 16, 1994Assignee: Kawasaki Steel CorporationInventors: Minoru Nitta, Yoshisato Kiyota, Yukio Makiishi, Hiroshi Ohtsubo, Toshio Watanabe, Yasuhiro Habu
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Patent number: 5336444Abstract: A novel metal filled via composition for use with ceramics. The via composition can be formulated to have a volume shrinkage approximating that of the ceramic material, and thus overcomes the problem of volume shrinkage mismatch between the via (particularly copper filled via) and ceramic upon sintering. The novel via composition exhibits enhanced adhesion to the ceramic. A sintering process by which shrinkage of the novel via composition is controlled and adhesion is improved is also disclosed.Type: GrantFiled: May 29, 1992Date of Patent: August 9, 1994Assignee: International Business Machines CorporationInventors: Jon A. Casey, Renuka S. Divakaruni, Govindarajan Natarajan, Srinivasa S. N. Reddy, Manfred Sammet
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Patent number: 5334235Abstract: A tenacious wear resistant coating is applied with a high velocity oxygen-fuel thermal spray gun using a composite powder of aluminum and an iron base metal. The metal may be iron-chromium, iron-molybdenum, cast iron or a combination. A particular combination is a blend of a first powder and a second powder, the first powder consisting of a composite of aluminum subparticles and iron-molybdenum alloy subparticles, and the second powder consisting of a composite of aluminum subparticles and cast iron subparticles. An internal combustion engine block has such a coating applied to the cylinder walls.Type: GrantFiled: January 22, 1993Date of Patent: August 2, 1994Assignee: The Perkin-Elmer CorporationInventors: Mitchel R. Dorfman, Jorge E. Garcia, Burton A. Kushner
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Patent number: 5328775Abstract: There is disclosed a precious metal article which is formed of a solid-phase sintered product of a precious metal powder. For manufacturing the precious metal article, a moldable mixture which contains a precious metal powder and a binder removable by sintering is shaped into a prescribed molded object, and the molded object is then subjected to sintering. The moldable mixture is produced by preparing a precious metal powder, preparing a jellylike cellulose binder by blending a cellulose with water and leaving for a prescribed period of time, and blending the precious metal powder and the jellylike cellulose binder together. The most preferable moldable mixture contains 50 to 90% by weight of precious metal powder, 0.8 to 8% by weight of water-soluble cellulose binder, 0.08 to 3% by weight of a surface-active agent. 0.1 to 3% by weight of oil, balance water and unavoidable impurities.Type: GrantFiled: November 18, 1992Date of Patent: July 12, 1994Assignee: Mitsubishi Materials CorporationInventors: Koji Hoshino, Masaki Morikawa, Tohru Kohno, Koshiro Ueda, Masaki Miyakawa
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Patent number: 5328499Abstract: A mechanically alloyed composition of matter containing 30-40% chromium, 0-15% cobalt, 0-10% iron, 0.2-1.0% aluminum, 0.3-1.2% titanium, greater than 1-5% tantalum and/or niobium, 0.2-1% yttria, usual processing and trace impurities, and the balance nickel. The addition of tantalum improves the workability characteristics of the alloy. The alloy is particularly useful for molten glass spinners.Type: GrantFiled: April 28, 1993Date of Patent: July 12, 1994Assignee: Inco Alloys International, Inc.Inventors: Jon M. Poole, Sarwan K. Mannan, Howard W. Sizek
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Patent number: 5328500Abstract: A method for producing a metal composite powder, such as a high alloy metal composite powder, which includes pretreating the alloying components prior to milling with a base iron powder. A short milling time is used, yielding a metal composite powder which exhibits good compactability, microstructure, controllable flow, post-sintering homogeneity, and offers a more economical production method.Type: GrantFiled: June 22, 1992Date of Patent: July 12, 1994Inventors: Robert J. Beltz, Joseph D. Dankoff, Melvin L. McClellan
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Patent number: 5292382Abstract: An improved thermal sprayable molybdenum-iron alloy powder useful for forming wear and abrasion resistant coatings having high thermal conductivity and preferably good corrosion resistance. The preferred embodiment of the alloy powder includes two distinct substantially uniformly dispersed solid solution phases of molybdenum, including a first low molybdenum concentration matrix phase and a second higher molybdenum concentration phase for forming improved dual phase molybdenum coatings. The preferred alloy powder composition includes 15-60% by weight molybdenum, 20-60% by weight iron and the preferred corrosion resistant alloy includes 3-35% by weight nickel plus chromium. A more preferred composition includes by weight 25-50% molybdenum, 4-10% chromium, 10-18% nickel and 1-3% carbon, plus silicon as required to promote fluidity and atomization. The most preferred composition comprises by weight 25-40% molybdenum, 4 to 8% chromium, 12 to 18% nickel, 1-2.5% carbon, 2-3% silicon, 0.2-1% boron and 25-50% iron.Type: GrantFiled: September 5, 1991Date of Patent: March 8, 1994Assignee: Sulzer Plasma TechnikInventor: Frank N. Longo
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Patent number: 5284531Abstract: A method of making a tantalum capacitor of improved specific capacitance (and volumetric efficiency) is described. Short tantalum fibers are precipitated out of a carrier liquid to form a felt, or tumbled to form fiber containing particles, and in either case subsequently bonded so as to form a felt or particles containing the fibers in random orientation in substantially non-aligned array. These particles or felt are heated to bond the fibers together, purify and (optionally) cylindricalize them. The felt or particles can be processed in conventional fashion thereafter to form the capacitor. Cylindricalized fibers and pellets of increased surface area are also described.Type: GrantFiled: March 10, 1993Date of Patent: February 8, 1994Assignee: Cabot CorporationInventor: James A. Fife
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Patent number: 5281250Abstract: A powder for producing permanent magnets, comprising a blend of powders [A] and [B] or [C] wherein:alloy powder [A] has an R.sub.2 Fe.sub.14 B phase and contains, in atomic percent, from 11 to 13% of at least one rare element, R, inclusive of Y, from 4 to 12% of B, and the balance Fe; or optionally, said powder has an R.sub.2 (Fe,Co).sub.14 B phase, an R.sub.2 (Fe,Ni).sub.14 B phase or an R.sub.2 (Fe,Co,Ni).sub.14 B phase, containing at least one selected from the group consisting of 10% or less of Co and 3% or less of Ni as a partially substitute for Fe;powder [B] is an intermetallic compound having an intermetallic compound phase of R with Fe or Co inclusive of an R.sub.Type: GrantFiled: February 20, 1992Date of Patent: January 25, 1994Assignees: Sumitomo Special Metals Company Limited, Sumitomo Metal Mining Company LimitedInventors: Atsushi Hamamura, Katsumi Okayama, Yuji Kaneko, Yasuhiro Okajima, Kaname Takeya, Shuji Okada
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Patent number: 5281364Abstract: Liquid metal electrical contact compositions are disclosed. Compositions of this invention consist of a metal mixture of first and second Periodic Table Group III metals and a lubricant. A gallium/indium metal mixture is preferred. Preferred lubricants are metal-based, most preferably molybdenum-based. The liquid metal electrical contact compositions are particularly useful for high current density applications.Type: GrantFiled: May 22, 1992Date of Patent: January 25, 1994Assignee: Finch LimitedInventors: D. Robert Stirling, J. Liam McNeil
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Patent number: 5279649Abstract: A coating composition comprises a slurry consisting essentially of an aluminum neutralized phosphate bonding solution and aluminum powder. The bonding solution advantageously contains a relatively small but essential amount of vanadium pentoxide and, preferably, magnesium. A process for forming the bonding solution component of the coating slurry includes equilibrating an aqueous phosphate solution with a small but controlled and necessary amount of solute aluminum prior to adding aluminum powder to form the slurry. The present invention overcomes the problem of bonding solutions which require environmentally disadvantageous chromates or molybdates.Type: GrantFiled: May 20, 1993Date of Patent: January 18, 1994Assignee: Solar Turbines IncorporatedInventors: Alvin R. Stetson, William D. Brentnall, Zaher Z. Mutasim, Lulu L. Hsu
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Patent number: 5279650Abstract: A seal coat composition comprises a slurry consisting essentially of an aluminum neutralized phosphate bonding solution and iron oxide (Fe.sub.2 O.sub.3) powder. The bonding solution advantageously contains a relatively small but essential amount of vanadium pentoxide and, preferably, magnesium. A process for forming the bonding solution component of the coating slurry includes equilibrating an aqueous phosphate solution with a small but controlled and necessary amount of solute aluminum prior to adding iron oxide powder to form the slurry. The present invention overcomes the problem of bonding solutions which require environmentally disadvantageous chromates or molybdates to neutralize the bonding solution prior to formation of the slurry.Type: GrantFiled: May 20, 1993Date of Patent: January 18, 1994Assignee: Solar Turbines IncorporatedInventors: Alvin R. Stetson, William D. Brentnall, Zaher Z. Mutasim, Lulu L. Hsu
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Patent number: 5264022Abstract: Lead free shotshell pellets are disclosed which consist essentially of an alloy of iron and 30 to 46% by weight of tungsten. The shotshells may include a plurality of pellet sizes, and the pellets may be coated substantially uniformly with a polymeric coating, resin, or lubricant.Type: GrantFiled: May 5, 1992Date of Patent: November 23, 1993Assignee: Teledyne Industries, Inc.Inventors: John C. Haygarth, Darryl D. Amick, Lloyd Fenwick
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Patent number: 5256185Abstract: Methods for preparing metallurgical powders containing an organic lubricant are provided. The powders are prepared by wetting a dry admixture of an iron-based powder, at least one alloying powder, and a first organic lubricant with an organic binding agent that is preferably dissolved or dispersed in a solvent. After removal of the solvent, the dried powder composition is admixed with a second organic lubricant.Type: GrantFiled: July 17, 1992Date of Patent: October 26, 1993Assignee: Hoeganaes CorporationInventors: Frederick J. Semel, Sydney Luk
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Patent number: 5240491Abstract: A series of braze materials for brazing superalloy substrates at effective brazing temperatures above about 2300.degree. F. is described. The braze materials are formulated as mixtures of cobalt- and nickel-base alloy powders. Each such braze material contains at least two components, one of which is predominantly liquid at the effective brazing temperature, and one of which remains substantially solid at that temperature. The brazing materials solidify by an isothermal solidification process. Unless otherwise limited by the temperature capability of the superalloy substrate being joined, these brazing alloys provide joints that have useful strength at temperatures significantly higher than joints made with prior art brazing alloys.Type: GrantFiled: July 8, 1991Date of Patent: August 31, 1993Assignee: General Electric CompanyInventors: David E. Budinger, Stephen J. Ferrigno, Wendy H. Murphy
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Patent number: 5213630Abstract: A magnetic refrigeration composition for magnetic refrigeration including at least three kinds of magnetic substances selected from the group consisting of magnetic substances having the formulaR'Al.sub.2, R'.sub.3 Al.sub.2, and R'Al.sub.2+.delta.wherein R' is at least one element selected from the group consisting of Gd, Tb, Dy, Ho and Er, provided that the total number of atoms satisfies the above formula and 0<.delta.<0.2, the composition being a mixture of the magnetic substances, wherein each kind of said at least three kinds of magnetic substances has a Curie temperature which is different from that of the other kinds and which preferably range up to about 77.degree. K.Type: GrantFiled: February 6, 1992Date of Patent: May 25, 1993Assignee: Tokyo Institute of TechnologyInventor: Takasu Hashimoto
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Patent number: 5211741Abstract: The invention relates to flaked tantalum powders suitable for use in electrodes and capacitors. The tantalum powders have a mean particle size of about 2 to 55 micrometers, a BET surface area greater than about 0.5 m.sup.2 /g, and an aspect ratio between about 2 and 50. The powders are in the form of fractured flakes, which contain substantially no tapering of their peripheral edges.Type: GrantFiled: July 31, 1991Date of Patent: May 18, 1993Assignee: Cabot CorporationInventor: James A. Fife
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Patent number: 5199972Abstract: A method of preparing an active magnesium-hydride or magnesium hydrogen-storer system which can reversibly take up H.sub.2, comprising contacting finely divided magnesium hydride or metallic magnesium with a solution of a metal complex or of a metal-organic compound of a transition metal of Subgroups IV-VIII of the periodic table, and then removing the solution. The product performs better with regard to speed and efficiency upon repeated hydrogenation and dehydrogenation, as in hydrogen storage and evolution.Type: GrantFiled: April 30, 1990Date of Patent: April 6, 1993Assignee: Studiengesellschaft Kohle G.m.b.H.Inventor: Borislav Bogdanovic
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Aluminum-alloy powder, sintered aluminum-alloy, and method for producing the sintered aluminum-alloy
Patent number: 5176740Abstract: An aluminum-alloy main-starting powder for producing a sintered aluminum-alloy consists of from 0.1 to 3.0% of Cu, the balance being Al and unavoidable impurities. Mother alloy powder consists of from 4 to 20% of Mg, from 12 to 30% of Si, and Al and unavoidable impurities in balance. A mixture of the two powders may also be produced. Further, from 0.2 to 2.0% of a lubricant may be added to the mixture.Type: GrantFiled: December 28, 1990Date of Patent: January 5, 1993Assignee: Showa Denko K.K.Inventors: Shin Miura, Youichi Hirose, Yoshio Machida, Mitsuaki Sato -
Patent number: 5149381Abstract: A process for the production of a powder having a nanocrystalline structure from powders of at least two materials of the groups including metals, metallic compounds, and ceramic materials, in a composition which tends to develop an amorphous phase. The starting powders are subjected to high stresses of at least 12 G in a neutral or reducing atmosphere at about 20.degree. C. until there are no crystallites larger than about 10 nm.Type: GrantFiled: December 5, 1988Date of Patent: September 22, 1992Assignee: Fried.Krupp GmbHInventors: Hans Grewe, Wolfgang Schlump
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Patent number: 5149597Abstract: The present invention relates to a wear resistant coating for metallic surfaces and the method of applying the coating. The coating consists of two nickel-based materials mixed together in a predetermined ratio and then dusted on the surface which use to be treated. The coating is metallically bonded to the metallic surface by heating through a sequence of heating steps. The inventive coating has achieved a hardness of up to Rc59.Type: GrantFiled: January 5, 1990Date of Patent: September 22, 1992Inventor: Kenneth H. Holko
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Patent number: 5145513Abstract: A process for the preparation of composite materials consisting essentially of an oxide phase and a metal phase is effected by grinding a mixture of at least one oxide precursor of the metal phase of the composite with at least one reducing agent, the reducing agent being a precursor of the oxide phase. The grinding being performed in a high energy mechanical grinder for a sufficient length of time so that at least 80 percent of the oxide precursor is reduced to metal or to a metal alloy. The process is particularly valuable for the preparation of oxide/metal composite materials which have improved mechanical, electrical or radiation absorption properties.Type: GrantFiled: April 12, 1991Date of Patent: September 8, 1992Assignee: Centre National de le Recherche ScientifiqueInventors: Paolo Matteazzi, Gerard Le Caer, Elizabeth Grosse-Bauer
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Patent number: 5145503Abstract: In a process for producing a high strength structural member by sintering a starting powder material, a powder mixture of a basic powder and an additional powder is used as the starting powder material. The basic powder is comprised of at least one of an amorphous single-phase alloy powder and at least one kind of a mixed-phase alloy powder which contains a crystalline phase and an amorphous phase and has a crystalline phase volume fraction C (Vf) less than 30%, and the additional powder is comprised of a mixed-phase alloy powder containing a crystalline phase and an amorphous phase and having a crystalline phase volume fraction C (Vf) of at least 30% to less than 80%. The relationship between the minimum volume fraction Pm (Vf) of the additional powder in the starting powder material and the crystalline phase volume fraction C (Vf) in the additional powder is established such that Pm (Vf)=-0.7 C (Vf)+61. This ensures that a structural member having a high strength and a high toughness can be produced.Type: GrantFiled: May 31, 1991Date of Patent: September 8, 1992Assignee: Honda Giken Kogyo Kabushiki KaishaInventor: Hiroyuki Horimura
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Patent number: 5135566Abstract: An iron base powder mixture for powder metallurgy, comprising an iron based powder and an alloying powder and/or a powder for improving machinability, wherein the alloying powder and/or the powder for improving machinability are adhered to the surface of the ferrous powder by means of a melted-together binder composed of an oil and a metal soap or wax.Type: GrantFiled: April 17, 1991Date of Patent: August 4, 1992Assignee: Kawasaki Steel CorporationInventors: Ichio Sakuranda, Ritsuo Okabe, Takao Omura, Yoshisato Kiyota, Shigeaki Takajo
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Patent number: 5112388Abstract: There are described metallic powders comprising agglomerated nanocrystals of an electroactive alloy. The main component of the alloy can be of nickel, cobalt, iron or mixtures thereof while the alloying element is one or more transition metals such as Mo, W, V. Preferably the nanocrystals will be made of an alloy of nickel and molybdenum. An electrode which is used by compacting the powders is also disclosed. Also disclosed, is a process for producing the metallic powders by providing particles of nickel, cobalt and iron with particles of at least one transition metal, (Mo, W, V) and subjecting the particles to high energy mechanical alloying such as ball milling under conditions and for a sufficient period of time to produce a nanocrystalline alloy. Electrodes produced from these powders have an electrocatalytic activity for the hydrogen evolution which is comparable or higher than the electrodes which are presently used in the electrochemical industry.Type: GrantFiled: August 22, 1989Date of Patent: May 12, 1992Assignee: Hydro-QuebecInventors: Robert Schulz, Jean-Yves Huot, Michel Trudeau
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Patent number: 5108493Abstract: A steel powder composition useful in the production, by powder-metallurgical methods, of sintered parts with high density, good dimensional accuracy, hardenability, and strength is prepared from an admixture of two pre-alloyed iron powders of different compositions, the first being a pre-alloy of iron and molybdenum, and the second being a pre-alloy of iron with carbon and at least one transition element including chromium, manganese, vanadium, or columbium.Type: GrantFiled: May 3, 1991Date of Patent: April 28, 1992Assignee: Hoeganaes CorporationInventor: Robert J. Causton
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Patent number: 5098470Abstract: An alloy mix suitable for the repair of nickel-based alloy components is disclosed. The alloy mix contains a mixture of two alloy powders. The constituents of the first powder, in percentages by weight are:______________________________________ Al 2-3 Co 9-11 Cr 8-10 Fe 0-1.8 Hf 1.0-1.5 Ta 1.-1.5 Ti 1.25-1.75 W 6-8 B 2.8-3.4 Y 0.001-0.02 Ni Remainder ______________________________________and the constituents of the second powder, in percentages by weight, are: ______________________________________ C .13-.17 Al 5.25-5.75 B 0.01-0.02 Co 9.0-11.0 Cr 8-10 Hf 1.3-1.7 Ta 2.25-2.75 Ti 1.25-1.75 W 9.5-10.5 Zr 0.03-0.Type: GrantFiled: March 13, 1991Date of Patent: March 24, 1992Assignee: Rolls-Royce plcInventors: Philip S. Wood, Peter J. Fell
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Patent number: 5082491Abstract: Ingot-derived and sodium-reduced agglomerated tantalum powders having improved flow characteristics and lead pull-out strength that find particular utility in manufacture of anodes for capacitors. Powder size distribution is in the range of -60 to +400 mesh, preferably -60 to +250 mesh, containing less than 5 wt % powder above the upper and below the lower range limits.Type: GrantFiled: September 6, 1990Date of Patent: January 21, 1992Assignee: V Tech CorporationInventor: Carlos F. Rerat
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Patent number: 5080713Abstract: A material for valve seats comprising a wear resisting sintered ferro alloy formed by dispersing particles of a high speed steel in a matrix in which hard alloy particles are dispersed. Steps for forming include mixing particles of a matrix material, carbide material and a hard alloy, and blending the mixture with high speed steel particles, pressurizing and compacting the mixture after blending, then sintering them at 1000.degree. to 1200.degree. C. In the preferred method, at least one element of Fe, C, Ni, Co, Si or Mn is included as the matrix material, and at least one element of Fe, Cr, Mo or V as the carbide material and at least one element of Fe, Cr, Mo, Co, C or W as the hard alloy are prepared. Furthermore, the ferro alloy preferably includes the following amounts of the above mentioned elements, 0.5 to 2.0 wt % of C, 1 to 25 wt % of one or more of Cr, Mo, V, or W and 1 to 15 wt % of one or more of Co, Ni, Mn, or Si.Type: GrantFiled: April 14, 1989Date of Patent: January 14, 1992Assignees: Kabushiki Kaisha Riken, Nissan Motor Company, LimitedInventors: Akiyoshi Ishibashi, Kazutoshi Takemura, Makoto Abe, Akira Fujiki, Kimitsugu Kiso, Takaaki Ito
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Patent number: 5080714Abstract: A compound for producing sintered parts in an injection molding process and the molding process used to form the parts. The compound contains materials that allow the parts to be formed at lower temperatures and higher production rates when compared to more conventional processes.Type: GrantFiled: July 18, 1990Date of Patent: January 14, 1992Inventors: Masakazu Achikita, Akihito Ohtsuka
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Patent number: 5069714Abstract: An improved metallurgical powder composition of a ferrous powder and at least one of an alloying powder, a lubricant or other additive. Lining, dusting and/or segregation of the composition is prevented by use of a polyvinyl pyrrolidone binding agent.Type: GrantFiled: January 17, 1990Date of Patent: December 3, 1991Assignee: Quebec Metal Powders LimitedInventor: Francis Gosselin
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Patent number: 5066523Abstract: A process for producing a protective metal layer on tubes used in firing installations comprises thermal spraying on the tubes an atomized powder being formed from an alloy which comprises from about 15 to 35% Cr, from about 0.05 to 5.0% Mn, from about 0.01 to 3.0% C, from about 0.1 to 3.0% Si, from about 0.1 to 8.0% Mo, from about 2.0 to 15.0% Al, and balance Fe.Type: GrantFiled: February 7, 1990Date of Patent: November 19, 1991Assignee: Castolin S.A.Inventors: Hans-Theo Steine, Christopher Wasserman
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Patent number: 5066322Abstract: A metallic coolant for a metallurgical bath, the composition of the coolant substantially corresponding to that of the bath consists of ball-shaped bodies of sizes not less than 5 mm and not more than 60 mm, preferably 12 to 60 mm, the ball-shape factor B of the coolant having a value of at least 0.57. The ball shape factor (herein defined) relates the shape to that of spherical balls. The coolant can be made, using a hammer mill, from scrap.Type: GrantFiled: June 7, 1990Date of Patent: November 19, 1991Assignee: Heckett Holland B.V.Inventor: Jan A. Groothoff
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Patent number: 5064463Abstract: A feedstock for metal injection molding comprises a reactive metal powder selected from the group consisting of aluminum, magnesium and titanium coated with a less reactive metal selected from the group consisting of cobalt, copper, iron, nickel, tin and zinc dispersed in a binder.Type: GrantFiled: January 14, 1991Date of Patent: November 12, 1991Inventor: Michael A. Ciomek
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Patent number: 5062885Abstract: A rare earth metal-iron group metal target for a magneto-optical disk is produced by mixing powder (a) produced by the rapid quenching treatment of an alloy composed of at least one rare earth metal and at least one iron group metal in a composition range which permits the formation of an eutectic structure, with powder (b) from at least one iron group metal in an amount necessary for meeting the composition requirements of the target; and subjecting the resulting mixture to pressure sintering in vacuum or in an inert gas atmosphere at a temperature lower than a liquid phase-appearing temperature of the mixture to produce a rare earth metal-iron group metal intermetallic bonding layer between the particles.Type: GrantFiled: June 26, 1990Date of Patent: November 5, 1991Assignee: Hitachi Metals, Ltd.Inventors: Shunichiro Matsumoto, Tsutomu Inui, Rokuo Ichiyasu, Yoshitaka Chiba
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Patent number: 5063021Abstract: A method is disclosed for preparing an intimate mixture of powders of nickel-boron-silicon alloy and molybdenum metal powder suitable for thermal spray coatings which comprises milling a starting mixture of the alloy and molybdenum powder to produce a milled mixture wherein the average particle size is less than about 10 micrometers in diameter, forming an aqueous slurry of the resulting milled mixture and a binder which can be an ammoniacal molybdate compound or polyvinyl alcohol, and agglomerating the milled mixture and binder. The intimate mixture and binder are preferably sintered in a reducing atmosphere at a temperature of about 800.degree. C. to about 950.degree. C. for a sufficient time to form a sintered partially alloyed mixture wherein the bulk density is greater than about 1.2 g/cc.Type: GrantFiled: May 23, 1990Date of Patent: November 5, 1991Assignee: GTE Products CorporationInventors: Vidhu Anand, Sanjay Sampath, Clarke D. Davis, David L. Houck
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Patent number: 5055129Abstract: Permanent magnets are prepared by method comprising mixing a particulate rare earth-iron-boron alloy with a particulate transition metal, aligning the magnetic domains of the ixture, compacting the aligned mixture to form a shape, and sintering the compacted shape.Type: GrantFiled: June 18, 1990Date of Patent: October 8, 1991Assignee: Union Oil Company of CaliforniaInventor: Mohammad H. Ghandehari
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Patent number: 5045277Abstract: A method for producing metal carbide grade powders which comprises forming a wax mixture consisting essentially of in percent by weight about 5 to about 15 paraffin oil, with the balance being an esterified wax and paraffin, heating the wax mixture to a temperature above the melting point to melt the wax mixture and maintain it in the molten state, forming a powder-wax mixture consisting essentially of metal carbide powder, a binder metal, and the wax mixture while heating to a temperature above the melting point of the wax mixture to maintain the wax mixture in the molten state to result in a uniform distribution of the wax mixture on the carbide and binder metal particles, forming a slurry of the powder-wax mixture and water, attritor milling the slurry at a temperature below the melting point of the wax mixture, and removing water and agglomerating to produce metal carbide grade powder wherein a densified article made therefrom exhibits less linear shrinkage than articles made from carbide grade powder absType: GrantFiled: September 10, 1990Date of Patent: September 3, 1991Assignee: GTE Products CorporationInventors: Joseph J. Penkunas, Theodore E. Smith, Jr.
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Patent number: 5039477Abstract: A powdered metal spray coating material comprises two or more of Ni, Cr and Co, and 0.1 to 1.0% by weight of Y based on the total weight of the spray coating material. If Co is present in this spray coating material, the content of Co is in a range of 20 to 40% by weight, and the balance is Ni and/or Cr. If Cr is present, the content of Cr is in a range of 15 to 30% by weight, and the balance is Ni and/or Co. Such powdered metal spray coating material is produced by melting and homogenizing starting metals in vacuum and forming them into a metal powder by a gas atomizer.Type: GrantFiled: May 14, 1990Date of Patent: August 13, 1991Assignee: Sugitani Kinzoku Kogyo Kabushiki KaishaInventor: Nobuhiro Sugitani
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Patent number: 5032172Abstract: A stream of molten material free falls through a drop tube and impinges on a chill surface adjacent the bottom of the drop tube to form rapidly solidified particulate. The chill surface is so inclined and moved relative to the stream of molten material as to have an upward component of motion counter to the downward direction of fall of the stream to significantly enhance shearing and rapid quenching of molten material striking the chill surface. The resulting solidified particulate is discharged from the chill surface for collection in a particulate collection chamber beneath the chill surface. Production quantities of rapidly solidified particulate can be continuously made.Type: GrantFiled: September 28, 1989Date of Patent: July 16, 1991Inventors: Ruel A. Overfelt, William H. Hofmeister, Robert J. Bayuzick, Michael B. Robinson, David Dillard, Mark Wells
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Patent number: 5028385Abstract: Coating with high-melting metals can be simplified by alloying high-melting metal with sufficient aluminum to make low-melting alloy that is applied, bonded in place, and then subjected to the leaching out of some or most of the aluminum. The resulting surface is porous and will receive and hold top coatings. Leached surface can be pyrophoric and top coating can be exothermically combustible. Pyrophoric powder can also be coated on boron or carbon fibers or sintered with combustible particles. Carbon can be kept from contaminating diffusion-treated workpieces, by conducting diffusion treatment in retorts containing little or no carbon. Porosity can be created by subjecting workpiece to diffusion conditions in contact with depleting material such as powdered nickel or high-nickel aluminides or cobalt or high-cobalt aluminides. Aluminum particles can be electrophoretically deposited on foil and then diffused in. Leaching aluminum out with caustic is improved when a little H.sub.2 O.sub.Type: GrantFiled: November 8, 1989Date of Patent: July 2, 1991Inventor: Alfonso L. Baldi
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Patent number: 5024695Abstract: Soluble gas is introduced in a melt material which is then atomized and rapidly cooled. The cooling drives the gas from solution, further disintegrating the atomized material to an ultra-fine powder. In one embodiment the atomization and rapid cooling are effected using a gas atomization die. Introduction of the soluble gas may be effected by addition of reactive constituents to the melt, for reactively forming such gas. Finer powders with desirable metallurgical properties are formed using a metallic melt.Type: GrantFiled: October 26, 1988Date of Patent: June 18, 1991Assignee: UltraFine Powder Technology, Inc.Inventors: Charles P. Ashdown, James G. Bewley, George B. Kenney
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Patent number: 5019454Abstract: Powders for producing hard materials in short reaction times are provided, especially for use in electric arc spraying. The powders are produced by bonding metallic and non-metallic starting materials to one another by spray-drying or agglomeration, using an organic or inorganic binder. The metallic starting materials are selected from the group consisting of Al, Ni, Ti, Cr, Mo, V, Zr and Ta, whereas the non-metallic starting materials are selected from the group consisting of Cr.sub.3 C.sub.2, WC, C, SiC, TiB.sub.2, CrB.sub.2, B.sub.4 C, TiC, VC, TiN and Si.sub.3 N.sub.4. In this manner, the metallic and non-metallic starting materials react exothermically during electric arc spraying to produce a hard substance.Type: GrantFiled: July 20, 1988Date of Patent: May 28, 1991Inventor: Karl-Hermann Busse
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Patent number: 5006164Abstract: A starting material for injection molding of a metal powder including from 38 to 46% by volume of an organic binder and the balance of spherical iron powder with an average particle size from 2 to 6 .mu.m, which provides a sintered part having a density ratio of higher than 94%, by conducting injection molding, debinding and sintering in a non-oxidizing atmosphere at a temperature lower than the A.sub.3 transformation point of carbon steel.Type: GrantFiled: February 26, 1990Date of Patent: April 9, 1991Assignee: Kawasaki Steel CorporationInventor: Yoshisato Kiyota
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Patent number: 4999336Abstract: There is provided a substantially fully dense powdered metal composite comprising a highly conductive metal or metal alloy matrix having dispersed therein discrete microparticles of a refractory metal oxide and discrete macroparticles of a mechanical or physical property-conferring additive material. The respective components undergo minimal alloying or interdispersion because sintering is not utilized in forming the composite. These composites are characterized by high thermal or electrical conductivity and a desired property (controlled thermal expansion, high strength, wear and arc erosion resistance, or magnetic) attributable to the composite forming material, like refractory metal, alloy, or compound. The composites are useful in forming lead frames for integrated circuit chips, electric lamp lead wires, electrical contact members, and discrete component leads.Type: GrantFiled: June 17, 1988Date of Patent: March 12, 1991Assignee: SCM Metal Products, Inc.Inventors: Anil Nadkarni, Prasan K. Samal, James E. Synk
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Patent number: 4997477Abstract: Producing finely divided U.sub.3 Si by supercooling a melt of uranium and silicon at a high cooling rate of 10.sup.3 to 10.sup.7 .degree. C./sec.Type: GrantFiled: November 14, 1989Date of Patent: March 5, 1991Assignee: Korea Advanced Energy Research InstituteInventors: Il H. Kuk, Chang K. Kim, Chong T. Lee
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Patent number: 4985073Abstract: Needle shaped alloy pigment powders consisting essentially of iron, silicon and aluminum, with up to 1.0% by weight of chromium and one or both of cobalt or tin in amounts from 0.3 to 3% by weight of cobalt and from 0.1 to 5.0% by weight of tin, based in each case on the iron, are useful as the magnetic powders used in magnetic recording devices.Type: GrantFiled: July 25, 1989Date of Patent: January 15, 1991Assignee: Bayer AktiengesellschaftInventors: Rolf Naumann, Jakob Rademachers, Fritz Rodi
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Patent number: 4981511Abstract: A compound or composite powder which includes metallic or ceramic whiskers embedded in a metallic or ceramic matrix as host material, the whiskers have a length between 5.times.10.sup.-6 m and 2.times.10.sup.-4 m and diameters between 2.times.10.sup.-7 m and 1.times.10.sup.-5 m, and are embedded in the matrix with a volume proportion of whisker content between 1 to 50% (by volume), the reference being to a pore-free compacted compound/composite material; the whiskers being made of SiC, Si.sub.-3 N.sub.-4, Al.sub.-2 O.sub.-3 or ZrO.sub.-2 and are embedded in a ceramic matrix being Al.sub.-2 O.sub.-3, Al.sub.-2 O.sub.-3 +from 5 to 40% ZrO.sub.-2 +from 0 to 5% Y.sub.-2 O.sub.-3 or ZrO.sub.-2 with 3 to 15% Y.sub.-2 O.sub.-3 or Si-nitride or Si-carbide. Alternatively the whiskers are made of Si.sub.-3 N.sub.-4, Al.sub.-2 O.sub.-3, ZrO.sub.-2 or W and the matrix is made of W, Mo, Fe, Ni, Co, Cu or an alloy thereof.Type: GrantFiled: May 16, 1988Date of Patent: January 1, 1991Assignee: Dornier System GmbHInventors: Rainer Schmidberger, Tilman Haug, Reinhard Marquardt, Juergen Bocan
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Patent number: 4981513Abstract: Permanent magnets are prepared by a method comprising mixing a particulate rare earth-iron-boron alloy with a particulate transition metal, aligning the magnetic domains of the mixture, compacting the aligned mixture to form a shape, and sintering the compacted shape.Type: GrantFiled: May 11, 1987Date of Patent: January 1, 1991Assignee: Union Oil Company of CaliforniaInventor: Mohammad H. Ghandehari
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Patent number: 4976777Abstract: Disclosed is a graded metal powder for metallic pigment, comprising a metal powder wherein the metal powder has a mean particle size of from about 2.5 to about 15.0 .mu.m, the content of particles having a particle size of not greater than 1 .mu.m is not larger than about 0.5% by volume, and the metal powder has a particle size distribution such that not smaller than 97% by volume of the particles of the metal powder fall within the range between half the mean particle size of the metal powder and double the mean particle size of the metal powder. Also is disclosed a process for producing a graded metal powder by classifying metal particles dispersed in a mineral oil containing a nonionic-anionic surfactant.Type: GrantFiled: September 11, 1989Date of Patent: December 11, 1990Assignee: Showa Alumi Powder Kabushiki KaishaInventors: Sinya Ozawa, Katsumi Kondo, Kajin Saito