Subsequent Working Patents (Class 419/28)
-
Patent number: 6564689Abstract: Blank for a gun barrel, consisting of a steel bar, which bar, in one or more hot working steps, has been repeatedly wrung about its own longitudinal axis.Type: GrantFiled: August 21, 2001Date of Patent: May 20, 2003Assignee: Damasteel AktiebolagInventor: Per Billgren
-
Publication number: 20030082066Abstract: A powder metallurgical process of preparing a sheet from a powder having an intermetallic alloy composition such as an iron, nickel or titanium aluminide. The sheet can be manufactured into electrical resistance heating elements having improved room temperature ductility, electrical resistivity, cyclic fatigue resistance, high temperature oxidation resistance, low and high temperature strength, and/or resistance to high temperature sagging. The iron aluminide has an entirely ferritic microstructure which is free of austenite and can include, in weight %, 4 to 32% Al, and optional additions such as ≦1% Cr, ≧0.05% Zr ≦2% Ti, ≦2% Mo, ≦1% Ni, ≦0.75% C, ≦0.1% B, ≦1% submicron oxide particles and/or electrically insulating or electrically conductive covalent ceramic particles, ≦1% rare earth metal, and/or ≦3% Cu.Type: ApplicationFiled: October 31, 2001Publication date: May 1, 2003Inventors: Mohammad R. Hajaligol, Clive Scorey, Vinod K. Sikka, Seetharama C. Deevi, Grier Fleischhauer, A. Clifton Lilly, Randall M. German
-
Patent number: 6551372Abstract: A nickel base powder metallurgy superalloy gas turbine engine disk for a compressor or turbine. The wrought powder metallurgy gas turbine engine disk has desirable fatigue crack growth resistance and a superior balance of tensile, creep rupture and low cycle fatigue strength characteristics. In one embodiment the disk defines a segregation free homogenous structure.Type: GrantFiled: September 15, 2000Date of Patent: April 22, 2003Assignee: Rolls-Royce CorporationInventors: Bruce A. Ewing, Sushil K. Jain, Kenneth A. Green, Randolph C. Helmink, Allister James
-
Patent number: 6547846Abstract: The invention relates to a steel with a high wear resistance, high hardness and good notched bar impact strength, useful for the manufacture of products, in the use of which at least some of the features are desirable, preferably for the manufacture of tools intended to be used at temperatures up to at least 500 ° C. The steel is produced powder-metallurgically and consists in percent by weight essentially of 0.55-0.65 C, 0.7-1.5 Si, 0.1-1.0 Mn, 3.5-4.5 Cr, 1.5-2.5 Mo, 1.5-2.5 W, 1.2-1.8 V, 0-0.2 Nb, balance iron and impurities in normal amounts. After hardening and tempering the steel contains 1.5-2.5 percent by volume of MC carbides, in which M consists essentially only of vanadium, the carbides being evenly distributed in the steel matrix. The invention also relates to use of the steel, manufacture and products manufactured from the steel.Type: GrantFiled: April 4, 2001Date of Patent: April 15, 2003Assignee: Erasteel Kloster AktiebolagInventor: Leif Westin
-
Patent number: 6548013Abstract: A method for manufacturing complex shape memory alloy materials is described. The method comprises generating a particulate form of a shape memory alloy, combining the particulate with a binder, molding, heating (which may include the steps of debinding and sintering), and thermo-mechanical processing. The method allows for the formation of complex shape memory alloy materials that exhibit the desirable properties of shape memory alloys, namely shape memory and superelasticity.Type: GrantFiled: January 24, 2001Date of Patent: April 15, 2003Assignee: SciMed Life Systems, Inc.Inventors: Thomas D. Kadavy, Donald C. Baumgarten
-
Publication number: 20030068248Abstract: The invention relates to a cold work steel alloy for the powder metallurgical manufacture of parts, in particular tools with improved functional quality. In order to simultaneously set the important property features of bend fracture strength, impact bending work and wear resistance at a high level, it is essentially provided according to the invention to use an alloy containing in percent by weight 1 C 2.05 to 2.65 Cr 6.10 to 9.80 W 0.50 to 2.40 Mo 2.15 to 4.70 V 7.05 to 9.0 Nb 0.25 to 2.45 N 0.04 to 0.Type: ApplicationFiled: April 9, 2002Publication date: April 10, 2003Applicant: Bohler Edelstahl GmbHInventors: Werner Liebfahrt, Roland Rabitsch
-
Publication number: 20030049151Abstract: These forged articles are useful as connecting rods. The bushing is assembled during the forging operation of the powder metal connecting rod. This reduces the number of manufacturing operations required to process a powder metal article. The main components of this article are a sintered powder metal perform and preferably a bronze bushing. The bronze bushing is inserted in the bore of the sintered perform of a connecting rod and thereafter forged in during forging then heated to provide bonding between the bushing and connecting rod.Type: ApplicationFiled: September 6, 2001Publication date: March 13, 2003Inventor: Dale E. Wehler
-
Publication number: 20030047032Abstract: A method of forming a part from a metallurgical powder, comprises compressing at least a portion of a metallurgical powder, including sponge iron to provide a green compact. The green compact is subsequently sintered to provide a sintered compact.Type: ApplicationFiled: June 22, 2001Publication date: March 13, 2003Inventors: Keith E. Newman, John C. Kosco
-
Patent number: 6531089Abstract: Aluminum alloy containing a fraction of uniformly distributed particles, preferably silicon particles, of less than 20% by weight, so as to increase the wear resistance, prior to processing or machining under hot conditions, and process for producing wear-resistant objects from such an aluminum alloy.Type: GrantFiled: May 8, 2000Date of Patent: March 11, 2003Assignee: Honsel GmbH & Co. KGInventors: Dieter Brungs, Heinrich Fuchs, Meinolf Hengesbach, Franz Reinken
-
Publication number: 20030039572Abstract: A method of forming a part from a metallurgical powder includes compressing a metallurgical powder including no more than 0.3 weight percent of lubricant within a die to provide a green compact. The green compact is subsequently sintered by induction heating up to a sintering temperature of the green compact and maintaining the compact at the temperature for a time sufficient to provide a sintered compact. The sintered part may be subsequently hot formed and/or forged to densify and adjust the dimensions of the sintered compact.Type: ApplicationFiled: June 22, 2001Publication date: February 27, 2003Inventors: John C. Kosco, Keith E. Newman
-
Patent number: 6524525Abstract: A method for producing a contact material made of copper and chromium in a proportion of 40 to 75 wt.-% copper and 25 to 60 wt.-% of chromium for contact pieces for vacuum switch devices by pressing the powder mixture, sintering and infiltrating the compact and subsequent reshaping into a semi-finished contact material product having a density which corresponds to at least 99% of the theoretical density, as well as to contact pieces made of this semi-finished contact material product.Type: GrantFiled: March 2, 2001Date of Patent: February 25, 2003Assignees: Metalor Technologies International SA, Moeller GmbHInventors: Franz Hauner, Susett Rolle, Alfredo Lietz
-
Patent number: 6517772Abstract: A compacted and sintered gear blank is supported for rotation about a first axis adjacent a tool supported for rotation about a second axis transverse to the first axis. The tool has a series of gear cutting teeth and an adjacent set of gear densifying portions. The gear cutting teeth of the tool are moved into engagement with the powder metal gear blank to cut gear teeth into the blank. The tool is then shifted to bring the densifying portions of the tool into engagement with the teeth and the surfaces of the teeth densified by the tool.Type: GrantFiled: September 26, 2001Date of Patent: February 11, 2003Assignee: Federal-Mogul World Wide, Inc.Inventor: Richard Woolf
-
Patent number: 6511523Abstract: The present invention is aimed at providing a platinum material in which creep strength is elevated by improving a metal grain shape in an oxide-dispersion strengthened platinum material in which zirconium oxide is dispersed, and providing a process for producing the platinum material. The present invention provides an oxide-dispersion strengthened platinum material in which zirconium oxide is dispersed in platinum and which can be obtained through rolling and thermal recrystallization, in which platinum grains constituting the platinum material have an average grain size in a rolling direction in the range of 200 to 1500 &mgr;m and an average grain aspect ratio of 20 or more.Type: GrantFiled: February 22, 2002Date of Patent: January 28, 2003Assignee: Tanaka Kikinzoku Kogyo K.K.Inventors: Toru Shoji, Soichi Hitomi, Yoshikazu Takagi, Yoshinobu Watanabe
-
Publication number: 20030003009Abstract: A pressurizing forming process includes the steps of applying a higher fatty acid-based lubricant on a surface of a metallic workpiece and/or a forming surface of a forming tool, and forming, wherein a lubricating film including metallic soap is formed on a pressurized-and-contacted interface, at which the surface of the metallic workpiece and the surface of the forming tool are pressed against and are brought into contact with each other, in forming the metallic workpiece by pressurizing with the forming tool. The metallic workpiece and/or the forming tool can be heated prior to or in the forming step.Type: ApplicationFiled: June 12, 2002Publication date: January 2, 2003Applicant: KABUSHIKI KAISHA TOYOTA CHUO KENKYUSHOInventors: Mikio Kondo, Akira Sekiguchi, Naoki Miyagawa, Shigehide Takemoto, Hiroshi Okajima
-
Patent number: 6461565Abstract: A green compact of a rare earth alloy magnetic powder is made by pressing the powder. The powder is pressed within an air environment that has a temperature controlled at 30° C. or less and a relative humidity controlled at 65% or less.Type: GrantFiled: March 8, 2001Date of Patent: October 8, 2002Assignee: Sumitomo Special Metals Co., Ltd.Inventors: Koki Tokuhara, Shuhei Okumura, Akiyasu Oota
-
Publication number: 20020136660Abstract: This invention aims to provide a process for producing an oxide-dispersion strengthened platinum material which allows zirconium oxide to be more finely dispersed in a platinum material, and to further improve creep strength in an oxide-dispersion strengthened platinum material.Type: ApplicationFiled: December 31, 2001Publication date: September 26, 2002Inventors: Toru Shoji, Soichi Hitomi, Yoshikazu Takagi, Yoshinobu Watanabe
-
Patent number: 6454991Abstract: A method of forging a raw material for sintering and forging. The method comprises the steps of: (a) compacting metallic powder containing iron as a main component and graphite to obtain a compact having a predetermined density; (b) sintering the compact at a temperature ranging from 700 to 1000° C. to form a sintered compact having a texture in which graphite is retained at grain boundary of metal powder; (c) compressing the sintered compact from two directions to obtain a compressed sintered compact; and (d) extruding the compressed sintered compact upon pressing the compressed sintered compact from the two directions in a manner that a pressure in one of the two directions is reduced relative to a pressure in the other of the two directions to accomplish extrusion forging.Type: GrantFiled: October 29, 2001Date of Patent: September 24, 2002Assignee: Unisa Jecs CorporationInventors: Takashi Yoshimura, Mitsumasa Iijima, Shin Koizumi, Yasuo Hatai
-
Patent number: 6447569Abstract: A blade material, containing diamond particles below about 100 &mgr;m in diameter, is formed as a cutting material where the diamond particles serve as cutting agents while being fixed in a retaining matrix. The retaining matrix substantially includes Titanium or a Titanium alloy containing more than about 50 wt % of Titanium and fixes the diamond particles in place through a multi-step process.Type: GrantFiled: July 12, 2000Date of Patent: September 10, 2002Inventor: Kimiko Sueta
-
Patent number: 6447714Abstract: A method of preparing a biaxially textured alloy article comprises the steps of preparing a mixture comprising Ni powder and at least one powder selected from the group consisting of Cr, W, V, Mo, Cu, Al, Ce, YSZ, Y, Rare Earths, (RE), MgO, CeO2, and Y2O3; compacting the mixture, followed by heat treating and rapidly recrystallizing to produce a biaxial texture on the article. In some embodiments the alloy article further comprises electromagnetic or electro-optical devices and possesses superconducting properties.Type: GrantFiled: May 15, 2000Date of Patent: September 10, 2002Assignee: UT-Battelle, LLCInventors: Amit Goyal, Robert K. Williams, Donald M. Kroeger
-
Patent number: 6444049Abstract: Manufacture by rolling silicon steel having a silicon content of 3 wt % or greater and by rolling thin sendust sheet is implemented by powder metallurgical fabrication using powder as the starting raw material, and the average crystal grain size of the sheet-form sintered body or quick-cooled steel sheet is made 300 pm or less, whereby intra-grain slip transformation occurs after slip transformation in the grain boundaries, wherefore cold rolling is rendered possible. In addition, a mixture powder wherein pure iron powder and Fe—Si powder are mixed together in a prescribed proportion is fabricated with a powder metallurgy technique, and an iron-rich phase is caused to remain in the sintered body, whereby cold rolling is possible using the plastic transformation of those crystal grains. Furthermore, when a minute amount of a non-magnetic metal element such as Ti, V, or Al, etc.Type: GrantFiled: March 21, 2000Date of Patent: September 3, 2002Assignee: Sumitomo Special Metals Co., Ltd.Inventors: Osamu Yamashita, Ken Makita, Masao Noumi, Tsunekazu Saigo
-
Publication number: 20020119067Abstract: Process for treatment of gases which are exhausted through a sinter bed in a sintering plant, wherein a distinction can be made between a cold zone of the sintering plant with relatively low gas temperatures and a hot zone of the sintering plant with substantially higher gas temperatures. The gases from the cold zone of the sintering plant and the gases from the hot zone of the sintering plant are exhausted and treated as separate partial flows.Type: ApplicationFiled: February 28, 2002Publication date: August 29, 2002Inventors: Karl-Rudolf Hegemann, Helmut Weissert
-
Patent number: 6428904Abstract: An improved X-ray tube target comprises a refractory metal target substrate and a refractory metal focal track applied to the target substrate by a tape casting process. The X-ray tube target comprises a refractory metal target substrate and a refractory metal focal track formed on the target substrate to form a focal track/target substrate interface plane that varies less than about ±0.13 mm.Type: GrantFiled: June 28, 2001Date of Patent: August 6, 2002Assignee: Generel Electric CompanyInventors: Wayne Charles Hasz, Mark Gilbert Benz, Charles Gitahi Mukira, Thomas Robert Raber, Gregory Alan Steinlage, Gregory Reznikov
-
Publication number: 20020098105Abstract: A method for manufacturing complex shape memory alloy materials is described. The method comprises generating a particulate form of a shape memory alloy, combining the particulate with a binder, molding, heating (which may include the steps of debinding and sintering), and thermo-mechanical processing. The method allows for the formation of complex shape memory alloy materials that exhibit the desirable properties of shape memory alloys, namely shape memory and superelasticity.Type: ApplicationFiled: January 24, 2001Publication date: July 25, 2002Applicant: SciMed Life Systems, Inc.Inventors: Thomas D. Kadavy, Donald C. Baumgarten
-
Patent number: 6413472Abstract: A method of manufacturing screws which can form screws each having a desired hollow axial bore easily and having excellent machinability is provided. The method comprises the steps of (A) producing a green body containing metal powder by means of extrusion molding; (B) debinding the green body to obtain a brown body; and (C) sintering the brown body to obtain a sintered compact, wherein at least one machine working including a thread cutting process is carried out at anytime after the completion of the step (A). The step (C) of this method may include a pre-sintering step for obtaining a pre-sintered compact and a secondary sintering process, and the machining process including a thread cutting process is carried out onto the pre-sintered compact after the completion of the pre-sintering step.Type: GrantFiled: August 14, 2000Date of Patent: July 2, 2002Assignee: Injex CorporationInventors: Masaaki Sakata, Junichi Hayashi
-
Patent number: 6409794Abstract: A method for producing composite powders based on silver-tin oxide, by chemically reductive precipitation of silver onto particulate tin oxide. A solution of a silver compound and a solution of a reducing agent are simultaneously added in stoichiometrically equivalent amounts, separately and continuously with intensive mixing, to an aqueous suspension of tin oxide. The resulting composite powders have very high homogeneity, and can be processed to make electrical contact materials. The method is particularly suitable for producing composite powders based on silver-tin oxide doped with indium oxide, to be used in the manufacture of electrical contact materials.Type: GrantFiled: April 4, 2001Date of Patent: June 25, 2002Assignee: DMCInventors: Roger Wolmer, Mechthild Mueller, Frank Heringhaus, Dietrich Ruehlicke, Dan Goia
-
Patent number: 6391083Abstract: A mixture for a powder metallurgy product, including iron powder, graphite powder and copper (Cu) of about 3.0 to about 5.0 weight percent. Iron powder includes iron grains which contain MnS therein. The mixture contains the MnS of about 0.65 to about 1.40 weight percent. The graphite powder is contained in the mixture such that an amount of carbon (C) in the powder metallurgy product is about 0.3 to about 0.7 weight percent. An amount (wt % C) of the carbon and an amount (wt % Cu) of the copper is determined to obtain a target fatigue strength FS (MPa) and a target hardness HR (HRB) based on a relation FS=66.63×(wt % C)+22.61×(wt % Cu)+280.84 HR=22.96×(wt % C)+2.99×(wt % Cu)+78.91.Type: GrantFiled: November 9, 2000Date of Patent: May 21, 2002Assignees: Kobeico Metal Powder of America, Inc., Kobe Steel, Ltd., Honda Giken Kogyo Kabushiki KaishaInventors: Nobuaki Akagi, Shinya Kawai, Masaaki Satoh, Yoshikazu Seki, Masaki Amano, Hideaki Ushio, Russell T. Scott
-
Patent number: 6383248Abstract: A wedding ring is manufactured by a process comprising the production of a metal powder by the atomizing of a stream of molten precious metal, for example a gold alloy, the compaction of the metal powder into a hollow cylindrical body, the sintering of the compacted body, optionally the compression of the sintered body into a more toroidal shape, optionally the sintering of the toroidal body and the subjecting of the body to ring-rolling and annealing. The powder that is compacted any also comprise a minor proportion of precious-metal powder obtained by means other than atomization. The process may also be applied to the manufacture of artifacts other than rings by compacting the powder into an appropriate shape and modifying the compressing step, if employed, as appropriate to the intended product; in such embodiments, the ring-rolling step may be replaced by an appropriate step of further modifying the shape and/or dimension of the body. or may be omitted entirely.Type: GrantFiled: March 23, 2000Date of Patent: May 7, 2002Assignee: Engelhard-CLAL UK Ltd.Inventors: Terence Ernest Taylor, Stephen Paul Hurford
-
Publication number: 20020051725Abstract: A method of forging a raw material for sintering and forging. The method comprises the steps of: (a) compacting metallic powder containing iron as a main component and graphite to obtain a compact having a predetermined density; (b) sintering the compact at a temperature ranging from 700 to 1000° C. to form a sintered compact having a texture in which graphite is retained at grain boundary of metal powder; (c) compressing the sintered compact from two directions to obtain a compressed sintered compact; and (d) extruding the compressed sintered compact upon pressing the compressed sintered compact from the two directions in a manner that a pressure in one of the two directions is reduced relative to a pressure in the other of the two directions to accomplish extrusion forging.Type: ApplicationFiled: October 29, 2001Publication date: May 2, 2002Applicant: UNISIA JECS CORPORATIONInventors: Takashi Yoshimura, Mitsumasa Iijima, Shin Koizumi, Yasuo Hatai
-
Publication number: 20020014406Abstract: The first Al-based target material for sputtering contains 0.01-10 atomic % of at least one intermetallic compound-forming element, and an intermetallic compound having a maximum diameter of substantially 50 &mgr;m or less. The second Al-based target material for sputtering has a microstructure comprising an alloy phase containing 20 atomic % or less of the intermetallic compound-forming element and Al and an Al matrix phase comprising substantially pure Al, the maximum diameter of the intermetallic compound in the alloy phase being substantially 50 &mgr;m or less. The content of the intermetallic compound forming element based on the whole structure is 0.01-10 atomic %. These target materials are produced by pressure-sintering a rapid solidification powder at 400-600° C. After the pressure sintering, the target material is preferably hot-rolled at 400-600° C.Type: ApplicationFiled: May 21, 1998Publication date: February 7, 2002Inventor: HIROSHI TAKASHIMA
-
Patent number: 6338747Abstract: A method for producing a material includes providing a metallurgical powder including iron, 1.0 to 3.5 weight percent copper, and 0.3 to 0.8 weight percent carbon. At least a portion of the powder is compressed at 20 tsi to 70 tsi to provide a compact, and subsequently the compact is heated at high temperature and then cooled at a cooling rate no greater than 60° F. per minute to increase the surface hardness of the compact to no greater than RC 25. The density of at least a region of the sintered compact is increased, by a mechanical working step or otherwise, to at least 7.6 grams/cc. The sintered compact is then re-heated to high temperature and cooled at a cooling rate of at least 120° F./min. so as to increase the surface hardness of the compact to greater than RC 25, and preferably at least RC 30. Material made by the method of the invention also is disclosed.Type: GrantFiled: August 9, 2000Date of Patent: January 15, 2002Assignee: Keystone Investment CorporationInventor: John C. Kosco
-
Patent number: 6332936Abstract: A powder metallurgical process of preparing a sheet from a powder having an intermetallic alloy composition such as an iron, nickel or titanium aluminide. The sheet can be manufactured into electrical resistance heating elements having improved room temperature ductility, electrical resistivity, cyclic fatigue resistance, high temperature oxidation resistance, low and high temperature strength, and/or resistance to high temperature sagging. The iron aluminide has an entirely ferritic microstructure which is free of austenite and can include, in weight %, 4 to 32% Al, and optional additions such as ≦1% Cr, ≧0.05% Zr ≦2% Ti, ≦2% Mo, ≦1% Ni, ≦0.75% C, ≦0.1% B, ≦1% submicron oxide particles and/or electrically insulating or electrically conductive covalent ceramic particles, ≦1% rare earth metal, and/or ≦3% Cu.Type: GrantFiled: September 20, 1999Date of Patent: December 25, 2001Assignee: Chrysalis Technologies IncorporatedInventors: Mohammad R. Hajaligol, Clive Scorey, Vinod K. Sikka, Seetharama C. Deevi, Grier Fleischhauer, A. Clifton Lilly, Jr., Randall M. German
-
Patent number: 6332906Abstract: Aluminum-silicon alloys having high stiffness are used in forming computer memory disks and actuator arms. Disks formed with the alloy have low flutter and can be spun at 12,000 RPM or greater with a flutter of 10 Å or less.Type: GrantFiled: March 24, 1998Date of Patent: December 25, 2001Assignee: California Consolidated Technology, Inc.Inventors: Tom Haynes, Kevin Anderson
-
Publication number: 20010047936Abstract: A method for fabricating cylindrical sputter targets for rotary cylindrical cathodes used in depositing a dielectric layer of desired alloy on non-planar substrates during sputtering. The method includes forming a cooling tube having a passage within to receive a cooling medium, then fabricating multiple annular rings including each of the basic metal constituents of the desired alloy and attaching the annular rings to the cooling tube such the exposed outer portions of the annular rings provide a homogeneous layer of the desired alloy on the non-planar substrates during sputtering.Type: ApplicationFiled: May 31, 2001Publication date: December 6, 2001Applicant: Seagate Technology LLCInventor: Paul Stephen McLeod
-
Patent number: 6319459Abstract: Organic acid-based binders are efficiently removed from powder metallurgy compacts, such as tantalum capacitor anode bodies, by immersion in a heated aqueous alkanolamine solution followed by rinsing in warm water. This method results in lower residual carbon and oxygen levels than are found with thermal binder removal methods.Type: GrantFiled: October 18, 1999Date of Patent: November 20, 2001Assignee: Kemet Electronics CorporationInventors: Brian John Melody, John Tony Kinard, Keith Lee Moore, David Alexander Wheeler
-
Patent number: 6312495Abstract: The present invention relates to a powder-metallurgically produced composite material comprising a matrix and a granular additive comprising at least one fine-grained refractory metal with an average grain size of at most 2 &mgr;m uniformly distributed in the matrix, so that the composite exhibits a residual porosity of <0.5%. Furthermore, the invention relates to a method for the production of the composite and its use as an electrical contact material.Type: GrantFiled: April 7, 2000Date of Patent: November 6, 2001Assignee: Louis Renner GmbHInventors: Gerd Renner, Udo Siefken
-
Publication number: 20010036418Abstract: A method for producing a contact material made of copper and chromium in a proportion of 40 to 75 wt.-% copper and 25 to 60 wt.-% of chromium for contact pieces for vacuum switch devices by pressing the powder mixture, sintering and infiltrating the compact and subsequent reshaping into a semi-finished contact material product having a density which corresponds to at least 99% of the theoretical density, as well as to contact pieces made of this semi-finished contact material product.Type: ApplicationFiled: March 2, 2001Publication date: November 1, 2001Inventors: Franz Hauner, Susett Rolle, Alfredo Lietz
-
Patent number: 6294130Abstract: A metallic alloy composition is manufactured into products such as press formed or stamped products or rolled products such as sheet, strip, rod, wire or band by one or more cold working steps with intermediate or final flash annealing. The method can include cold rolling an iron, nickel or titanium aluminide alloy and annealing the cold worked product in a furnace by infrared heating. The flash annealing is preferably carried out by rapidly heating the cold worked product to an elevated temperature for less than one minute. The flash annealing is effective to reduce surface hardness of the cold worked product sufficiently to allow further cold working. The product to be cold worked can be prepared by casting the alloy or by a powder metallurgical technique such as tape casting a mixture of metal powder and a binder, roll compacting a mixture of the powder and a binder or plasma spraying the powder onto a substrate.Type: GrantFiled: March 24, 2000Date of Patent: September 25, 2001Assignee: Chrysalis Technologies IncorporatedInventors: Mohammad R. Hajaligol, Vinod K. Sikka
-
Patent number: 6290903Abstract: The present invention relates generally to a monolithic broadhead including a ferrule and a blade having a tapered cross-section. The ferrule is formed with a threaded portion for attaching the broadhead to an arrow shaft in a conventional manner. Through the use of powdered metallurgy, the blade may be formed of a metal having a high hardness for maintaining edge sharpness and the ferrule may be formed of a high strength material for maintaining the durability of the broadhead.Type: GrantFiled: April 10, 2000Date of Patent: September 18, 2001Inventors: Louis Grace, Jr., Nathaniel G. Grace, Matthew L. Grace
-
Patent number: 6258147Abstract: The present invention relates to a sintered cemented carbide consisting of 50 to 90 wt-% submicron WC in a hardenable binder phase. The binder phase comprises, in addition to Fe, 10-60 wt-% Co, <10 wt-% Ni, 0.2-0.8 wt-% C, Cr, W, Mo and/or V in amounts satisfying the relations 2xC<xW+xCr+xMo+xV<2.5xC where x denotes mol fraction elements in the binder phase and the following relation for the total Cr content 0.03<wt-% Cr/(100-wt-% WC)<0.05 In addition, the binder phase consists of martensite with a fine dispersion, a few percent, of coherent carbides, preferably of M2C type, with a size of the order of 10 nm.Type: GrantFiled: January 19, 2000Date of Patent: July 10, 2001Assignee: Seco Tools ABInventors: Bo Jansson, Jan Qvick
-
Patent number: 6238455Abstract: A powder metallurgy article formed of a sulfur-containing, precipitation-hardenable, stainless steel alloy is described. The article has a unique combination of strength, ductility, processability, and machinability. The powder metallurgy article is formed of a stainless steel alloy having the following composition in weight percent. C 0.03 max. Mn 1.0 max. Si 0.75 max. P 0.040 max. S 0.010-0.050 Cr 10-14 Ni 6-12 Ti 0.4-2.5 Mo 6 max. B 0.010 max. Cu 4 max. Co 9 max. Nb 1 max. Al 1 max. Ta 2.5 max. N 0.03 max. The balance of the alloy is iron and the usual impurities. The powder metallurgy article according to this invention is characterized by a fine dispersions of titanium sulfides that are not greater than about 5 &mgr;m in major dimension. A method of preparing the powder metallurgy article is also described.Type: GrantFiled: October 22, 1999Date of Patent: May 29, 2001Assignee: CRS Holdings, Inc.Inventors: Robert S. Brown, Gregory J. Del Corso, Theodore Kosa, James W. Martin
-
Patent number: 6233500Abstract: A method for predicting process parameters for optimization and control of microstructure in metal and alloy products of hot working fabrication processes is described. The method uses state-space material behavior models and hot deformation process models for calculating optimal strain, strain rate and temperature trajectories for processing the material. Using the optimal trajectories and appropriate optimality criteria, suitable process parameters such as ram velocity and die profile for processing the material are determined to achieve prescribed strain, strain rate and temperature trajectories.Type: GrantFiled: April 2, 1998Date of Patent: May 15, 2001Assignee: The United States of America as represented by the Secretary of the Air ForceInventors: James C. Malas, W. Garth Frazier, Enrique A. Medina, Venkat Seetharaman, S. Venugopal, R. Dennis Irwin, William M. Mullins, Steven C. Medeiros, Anil Chaudhary, Raghavan Srinivasan
-
Patent number: 6209420Abstract: A method of fabricating rotary-type drill bits, drilling-related structures, and other articles of manufacture. The method includes fabricating a machinable matrix, machining the matrix, and dispersing a binder material throughout the matrix. The matrix of the rotary-type drill bit may be fabricated by layered-manufacturing techniques or by disposing a particulate or powdered material into a mold and binding the particles together with a resin or by sintering. The matrix may have the desired dimensions and features, the approximate dimensions and features, or lack desired dimensions or features of a drilling-related structure or other article of manufacture. The matrix is machined to correct any anisotropies or imperfections of the matrix, to refine features of the matrix, or to define the features in the matrix. The machined matrix may be infiltrated with a binder material to define a drill bit body.Type: GrantFiled: August 17, 1998Date of Patent: April 3, 2001Assignee: Baker Hughes IncorporatedInventors: Trent N. Butcher, Sidney L. Findley, Redd H. Smith
-
Patent number: 6183688Abstract: A cutting member is manufactured by forming a mixture of cemented carbide and a bearer, and heating the mixture. Then, the heated mixture is injected into a mold for forming a body having a cutting edge in a front surface thereof, a flushing channel extending therethrough, and a rearwardly open blind hold formed centrally in a rear surface thereof. The body is then removed from the mold.Type: GrantFiled: July 7, 1999Date of Patent: February 6, 2001Assignee: Seco Tools ABInventors: Ronny Karlsson, Johnny Bruhn
-
Patent number: 6168754Abstract: A multi-stage forming tool for densifying the outer perimeter of post-sintered powder metal preforms includes a series of axially spaced die plates having different sized die openings arranged from largest to smallest. An oversized powder metal preform it is forced by a punch through the successive die openings causing the outer perimeter material to be displaced and densified. The space between successive dies allows for elastic recovery of the preform to maximize the compressive stress imparted to the preform at each die stage. A high density, high strength powder metal component results which is suitable as a replacement for wrought components in high strength applications such as transmission gears.Type: GrantFiled: February 17, 1999Date of Patent: January 2, 2001Assignee: Federal-Mogul World Wide, Inc.Inventors: Richard Mark Woolf, Eric Riley
-
Patent number: 6165412Abstract: A method of making a potassium-doped tungsten powder is described comprising forming a mixture of ammonium paratungstate or ammonium metatungstate and a potassium-containing compound selected from a thermally unstable potassium-containing salt or a potassium tungstate, and reducing the mixture in a single step without adding additional dopants to form a potassium-doped tungsten powder. The potassium-doped tungsten powder produced by the method of this invention can be pressed, sintered and drawn to produce a non-sag tungsten wire.Type: GrantFiled: September 7, 1999Date of Patent: December 26, 2000Assignee: Osram Sylvania Inc.Inventors: Hans-Joachim Lunk, Michael Salmen, Henry J. Stevens
-
Patent number: 6156093Abstract: A method of imparting high strength, high ductility, and high fracture toughness to a refractory metal alloy workpiece includes: (i) subjecting the workpiece to at least one pass that reduces the initial cross-sectional area of said workpiece, (ii) annealing the workpiece subsequent to the at least one pass, and (iii) subjecting the workpiece to a final working step comprising at least one pass conducted at a temperature between ambient and 300.degree. C., the final working step further reducing the cross-sectional area of the workpiece such that the total reduction in the initial cross-sectional area of the workpiece is approximately 40%-75% and the final cold working is 0.30 to 0.75 of the total reduction in cross-sectional area. The resulting article has a tensile yield strength of approximately 170-200 Ksi, a tensile elongation of approximately 12%-17%, and a Charpy 10 mm Smooth Bar impact toughness of approximately 100 ft.-lb. to 240 ft.-lb.Type: GrantFiled: December 14, 1999Date of Patent: December 5, 2000Assignee: Lockheed Martin CorporationInventor: William R. Spencer
-
Patent number: 6152040Abstract: A shaped charge or explosively formed penetrator liner and a method for producing the liner. The liner is preferably formed from a metal having a fine, uniform grain structure. The liner is preferably produced by an electron beam deposition process.Type: GrantFiled: November 26, 1997Date of Patent: November 28, 2000Assignee: Ashurst Government Services, Inc.Inventors: Michael A. Riley, Timothy J. Langan, David K. McNamara, Joseph R. Pickens
-
Patent number: 6143241Abstract: A metallic alloy composition is manufactured into products such as press formed or stamped products or rolled products such as sheet, strip, rod, wire or band by one or more cold working steps with intermediate or final flash annealing. The method can include cold rolling an iron, nickel or titanium aluminide alloy and annealing the cold worked product in a furnace by infrared heating. The flash annealing is preferably carried out by rapidly heating the cold worked product to an elevated temperature for less than one minute. The flash annealing is effective to reduce surface hardness of the cold worked product sufficiently to allow further cold working. The product to be cold worked can be prepared by casting the alloy or by a powder metallurgical technique such as tape casting a mixture of metal powder and a binder, roll compacting a mixture of the powder and a binder or plasma spraying the powder onto a substrate.Type: GrantFiled: February 9, 1999Date of Patent: November 7, 2000Assignee: Chrysalis Technologies, IncorporatedInventors: Mohammad R. Hajaligol, Vinod K. Sikka
-
Patent number: 6139975Abstract: In a method of manufacturing a sheet member comprising: obtaining a sintered compact by sintering a sheet-like compact having a reduced-thickness portion and an enlarged-thickness portion; and then repressing the sintered compact into a sheet member, a difference in density between the reduced-thickness portion and the enlarged-thickness portion of the sintered compact after repressing is adjusted to be in a range of .+-.1.5%. By doing so, the accuracy of flatness is enhanced and the amount of distortion, which would otherwise remain in the sheet member, is reduced because the sheet member is formed by sintering the sheet-like compact. In addition, the deformation caused by heating is greatly restricted. Accordingly, the prospect of the sheet member of the present invention is bright as a heat dissipating plate.Type: GrantFiled: January 26, 1999Date of Patent: October 31, 2000Assignee: Hitachi Powered Metals Co., Ltd.Inventors: Osamu Mawatari, Junichi Ichikawa, Zenzo Ishijima, Hideo Shikata
-
Patent number: 6136105Abstract: A method of imparting high strength, high ductility, and high fracture toughness to a refractory metal alloy workpiece includes: (i) subjecting the workpiece to at least one pass that reduces the initial cross-sectional area of said workpiece, (ii) annealing the workpiece subsequent to the at least one pass, and (iii) subjecting the workpiece to a final working step comprising at least one pass conducted at a temperature between ambient and 300.degree. C., the final working step further reducing the cross-sectional area of the workpiece such that the total reduction in the initial cross-sectional area of the workpiece is approximately 40%-75% and the final cold working is 0.30 to 0.75 of the total reduction in cross-sectional area. The resulting article has a tensile yield strength of approximately 170-200 Ksi, a tensile elongation of approximately 12%-17%, and a Charpy 10 mm Smooth Bar impact toughness of approximately 100 ft.-lb. to 240 ft.-lb.Type: GrantFiled: June 12, 1998Date of Patent: October 24, 2000Assignee: Lockheed Martin CorporationInventor: William R. Spencer