Rhenium Or Noble Metal Containing Patents (Class 420/432)
-
Patent number: 10407757Abstract: Provided in one embodiment is a method, comprising: sintering a plurality of nanocrystalline particulates to form a nanocrystalline alloy, wherein at least some of the nanocrystalline particulates may include a non-equilibrium phase comprising a first metal material and a second metal material, and the first metal material may be soluble in the second metal material. The sintered nanocrystalline alloy may comprise a bulk nanocrystalline alloy.Type: GrantFiled: March 14, 2014Date of Patent: September 10, 2019Assignee: Massachusetts Institute of TechnologyInventors: Christopher A. Schuh, Mansoo Park
-
Publication number: 20150004337Abstract: The present invention provides a cold sprayed layer of tungsten, molybdenum, titanium, zirconium, or of mixtures of two or more of tungsten, molybdenum, titanium and zirconium, or of alloys of two or more of tungsten, molybdenum, titanium and zirconium, or of alloys of tungsten, molybdenum, titanium, zirconium with other metals, wherein the cold spayed layer has an oxygen content of below 1,000 ppm.Type: ApplicationFiled: July 4, 2014Publication date: January 1, 2015Inventors: STEFAN ZIMMERMANN, UWE PAPP, HEINRICH KREYE, TOBIAS SCHMIDT
-
Publication number: 20120121925Abstract: Coated articles, electrodeposition baths, and related systems are described. The article may include a base material and a coating comprising silver formed thereon. In some embodiments, the coating comprises a silver-based alloy, such as a silver-tungsten alloy. The coating can exhibit desirable properties and characteristics such as durability (e.g., wear), hardness, corrosion resistance, and high conductivity, which may be beneficial, for example, in electrical and/or electronic applications. In some cases, the coating may be applied using an electrodeposition process.Type: ApplicationFiled: September 14, 2011Publication date: May 17, 2012Applicant: Xtalic CorporationInventors: Jonathan C. Trenkle, Christopher A. Schuh, Alan C. Lund, John Cahalen
-
Publication number: 20110319931Abstract: The present invention provides a rhenium tungsten wire comprising 10 to 30 mass % of rhenium and balance of tungsten, and having a wire diameter D of 0.10-0.40 mm, wherein a tensile strength T (N/mm2) of the rhenium tungsten wire exists within a range specified by an equation (1). 6314.6×D2?7869.3×D+4516.3?T?5047.4×D2×7206.4×D+5129.2??(1). In a case where the medical needle is manufactured from the above rhenium tungsten wire, crack and breakage hardly occur at a time of performing a pressing work or a bending work, so that a production yield and durability of the resultant products can be greatly improved.Type: ApplicationFiled: December 25, 2009Publication date: December 29, 2011Applicants: TOSHIBA MATERIALS CO., LTD., KABUSHIKI KAISHA TOSHIBAInventor: Motoaki Esaki
-
Patent number: 7695851Abstract: The present teachings are directed toward electrocatalyst compositions of alloys of platinum, tungsten and nickel for use in fuel cells. The alloys consists essentially of platinum present in an atomic percentage ranging between about 20 percent and about 45 percent, tungsten present in an atomic percentage ranging between about 30 percent and about 70 percent, and nickel present in an atomic percentage ranging between about 5 percent and about 25 percent.Type: GrantFiled: September 26, 2008Date of Patent: April 13, 2010Assignee: Honda Motor Co., Ltd.Inventors: Ting He, Eric Rolland Kreidler
-
Patent number: 7608560Abstract: A fuel cell catalyst comprising platinum, titanium and tungsten. In one or more embodiments, the concentration of platinum is less than 60 atomic percent, and/or the concentration of titanium is at least 20 atomic percent, and/or the concentration of tungsten is at least 25 atomic percent.Type: GrantFiled: June 7, 2004Date of Patent: October 27, 2009Assignees: Symyx Technologies, Inc., Honda Giken Kogyo Kabushiki KaishaInventors: Qun Fan, Peter Strasser, Alexander Gorer, Martin Devenney, Ting He, Hiroyuki Oyanagi, Daniel M. Giaquinta, Kenta Urata, Hiroichi Fukuda, Konstantinos Chondroudis, Keith James Cendak
-
Publication number: 20090157117Abstract: A method of mechanically treating alloy metal surgical needles to improve bending strength is disclosed. The needles are curved and reverse-curved in this method to improve bending strength.Type: ApplicationFiled: December 17, 2007Publication date: June 18, 2009Inventors: Eugene D. Reynolds, Robert Maurer, Michael Nordmeyer, Frank R. Cichocki, Lester E. Schaible, Daniel J. Smith
-
Patent number: 7435504Abstract: The present teachings are directed toward electrocatalyst compositions of alloys of platinum, tungsten and one of either of nickel or zirconium for use in fuel cells. The alloys consists essentially of platinum present in an atomic percentage ranging between about 20 percent and about 45 percent, tungsten present in an atomic percentage ranging between about 30 percent and about 70 percent, and one of either nickel present in an atomic percentage ranging between about 5 percent and about 25 percent, or zirconium present in an atomic percentage ranging between about 5 percent and about 40 percent.Type: GrantFiled: August 25, 2005Date of Patent: October 14, 2008Assignee: Honda Motor Co., Ltd.Inventors: Ting He, Eric Rolland Kreidler
-
Publication number: 20080216602Abstract: Disclosed is a process for the reprocessing or production of a sputter target or an X-ray anode wherein a gas flow forms a gas/powder mixture with a powder of a material chosen from the group consisting of niobium, tantalum, tungsten, molybdenum, titanium, zirconium, mixtures of two or more thereof and alloys thereof with at least two thereof or with other metals, the powder has a particle size of 0.5 to 150 ?m, wherein a supersonic speed is imparted to the gas flow and the jet of supersonic speed is directed on to the surface of the object to be reprocessed or produced.Type: ApplicationFiled: November 5, 2007Publication date: September 11, 2008Applicant: H. C. Starck GmbHInventors: Stefan Zimmermann, Uwe Papp, Hans Keller, Steven A. Miller, Prabhat Kumar, Mark Gaydos, Rong-Chen Richard Wu
-
Publication number: 20080081214Abstract: A diffusion barrier alloy film has a diffusion barrier layer which has more excellent diffusion barrier properties than an Re—Cr alloy film, and can stand usage at higher temperatures (e.g., 1150° C. or higher). The diffusion barrier layer 18 is made of an Re—W alloy ? phase containing 12.5 to 56.5% of. W in terms of atomic composition and the remainder of Re excluding unavoidable impurities. A metal base 10 has a surface coated with a diffusion barrier layer 18. If required, the diffusion barrier layer 18 has a surface coated with a diffusion alloy layer 20 containing 10% or greater and less than 50% of Al, Cr, or Si in terms of atomic composition, providing a high-temperature apparatus member.Type: ApplicationFiled: January 14, 2005Publication date: April 3, 2008Inventors: Toshio Narita, Hiroshi Yakuwa
-
Patent number: 6830637Abstract: A large-diameter tungsten-lanthana rod having an elongated grain structure substantially parallel to the longitudinal axis of the rod is described. The large diameter rod is produced by rolling at a temperature greater than 1400° C. and less than 1700° C. to achieve at least about a 40% reduction in cross-sectional area. The high strength of the longitudinally elongated grain structure is desirable for applications such as rocket nozzles.Type: GrantFiled: May 31, 2002Date of Patent: December 14, 2004Assignee: Osram Sylvania Inc.Inventors: Ricky D. Morgan, Thomas J. Dixon, Harry D. Martin, III
-
Patent number: 6746782Abstract: A barrier coating is disclosed, containing about 15 atom % to about 95 atom % chromium; and about 5 atom % to about 60 atom % of at least one of rhenium, tungsten, and ruthenium. Nickel, cobalt, iron, and aluminum may also be present. The barrier coating can be disposed between a metal substrate (e.g., a superalloy) and an oxidation-resistant coating, preventing the substantial diffusion of various elements at elevated service temperatures. A ceramic overcoat (e.g., based on zirconia) can be applied over the oxidation-resistant coating. Related methods for applying protective coatings to metal substrates are also described.Type: GrantFiled: June 11, 2001Date of Patent: June 8, 2004Assignee: General Electric CompanyInventors: Ji-Cheng Zhao, Melvin Robert Jackson
-
Patent number: 6514456Abstract: The invention concerns the use of a WC—Co cutting metal alloy for a component or a tool insert, which is shaped from a corresponding cutting metal blank by means of an electrical discharge processing method. The WC fraction in the carbide phase of the cutting metal alloy is more than 90 wt %; the binder phase consists mostly of cobalt and is 8 to 15 wt % with reference to the cutting metal alloy. 0.1 to 3 wt % of one or more metals from the group Re, Ge, Ga, Ir, Os, Pd, Ag, Au, Pt, Te, Sb, Rh, and Ru, with reference to the binder phase, are dissolved in the binder phase.Type: GrantFiled: October 6, 2000Date of Patent: February 4, 2003Assignee: Plansee Tizit AktiengesellschaftInventors: Andreas Lackner, Werner Ferstl, Gerhard Kn{overscore (u)}nz, Hans-Peter Martinz, Klaus Prandini
-
Patent number: 5740516Abstract: A firearm bolt prepared from an alloy of tungsten, nickel and iron having a density of about from 14.1 g/cc to 18.0 g/cc. The alloy preferably also contains at least one of molybdenum, cobalt, rhenium, tantalum and gold. The alloy is preferably manufactured by standard powder metallurgical techniques followed by a liquid phase sinter and vacuum anneal. The bolt can also be manufactured using solid state sintering. The bolt can also be manufactured by mechanically working the material after sintering, after annealing, or after both sintering and annealing.Type: GrantFiled: December 31, 1996Date of Patent: April 14, 1998Assignee: Remington Arms Company, Inc.Inventors: Marlin R. Jiranek, II, Michael D. Keeney
-
Patent number: 5415707Abstract: Disclosed are sterile surgical needles formed of alloys of tungsten and a second metal selected from the group consisting of rhenium, rhodium and iridium. The needles exhibit a tensile yield strength in excess of 250,000 psi and a tensile modulus of elasticity in excess of 45.times.10.sup.6 psi, and have advantageously high ductility. The needles have a body portion, a distal point, and a proximal suture mounting portion. Preferably the needles comprise about 3 to about 84 6 weight percent of rhenium, rhodium and/or iridium. The needles exhibit improved yield point and elastic modulus in tension.Type: GrantFiled: October 5, 1993Date of Patent: May 16, 1995Assignee: Ethicon, Inc.Inventors: Lee P. Bendel, Lawrence P. Trozzo
-
Patent number: 5298218Abstract: Palladium based dental alloys do not show unaesthetic discolorations after ceramic firing if said alloys contain 66-85% by weight palladium, 1-20% by weight gold; 0-4% by weight silver; 0-4% by weight of at least one of platinum, iron and/or cobalt; 0.5-7% by weight of each of gallium, tin and indium, whereby the amount of said components total 9-14% by weight; 0-2% by weight germanium and/or zinc; and 0-1% by weight iridium, ruthenium and/or rhenium.Type: GrantFiled: September 4, 1992Date of Patent: March 29, 1994Assignee: Degussa AktiengesellschaftInventors: Werner Groll, Doris Hathaway, Bernd Kempf, Gernot Schock
-
Patent number: 5045400Abstract: Disclosed is a composition for metallizing a ceramic surface which consists essentially of 10.0 to 32.5% by weight of Mn, 45.0 to 67.5% by weight of W, up to 5.0% by weight of at least one member selected from Ti and Zr, and Ag and Ni in a total amount of 15.0 to 35.0% by weight, the amount of Ni being 5.0 to 20.0% by weight of the total amount of Ni and Ag. This composition is applied to the surface of a ceramic body in the form of a metal paste or metal powder and heat-fusion-bonded to the ceramic surface, or the composition is applied to the surface of a ceramic body by the gas-phase deposition method.Type: GrantFiled: February 1, 1990Date of Patent: September 3, 1991Assignee: Nippon Hybrid Technologies Co., Ltd.Inventor: Kiyoyuki Esashi
-
Patent number: 4908182Abstract: Tungsten-rich alloys of formula W.sub.100-P M.sub.X RE.sub.Y ME.sub.Z wherein W is tungsten, M is one or more elements selected from the group consisting of transition elements, RE is an element selected from the group consisting of rare earth and actinide elements, ME is silicon, boron, germanium or aluminum, X is 0 to 25 weight %, Y is 0 to 2 weight %, Z is 0.1 to 3 weight % and P=X+Y+Z where P.ltoreq.26 weight % are disclosed. The alloys possess high strength and ductility. A method for preparing the alloys by rapid solidification processing is also disclosed.Type: GrantFiled: April 11, 1988Date of Patent: March 13, 1990Assignee: Polytechnic UniversityInventor: Sung H. Whang
-
Patent number: 4784690Abstract: A low density tungsten alloy article is disclosed and the method for producing the article. The method involves compacting a relatively uniform tungsten alloy powder with the tungsten content comprising no greater than about 90% by weight of the alloy and the balance a matrix phase to produce a preformed article which is then sintered in a reducing atmosphere at a temperature below the melting point of the matrix phase for a sufficient time to form a densified article which is mechanically worked to produce the final article.Type: GrantFiled: October 11, 1985Date of Patent: November 15, 1988Assignee: GTE Products CorporationInventor: James A. Mullendore
-
Patent number: 4719331Abstract: A ceramic glow plug in which a large resistance suitable for adapting the plug for use with a 24 V battery without having to use a thin or long heating wire. The glow plug includes a ceramic heater having a sintered ceramic body and a heating wire made of an alloy of a high melting point metal such as tungsten embedded in the ceramic body. The ceramic heater is secured to one end of a metal sheath with an outer end portion of the ceramic heater protruding from the end of the metal sheath by as small a distance as possible. A mounting shell receives the other end of the metal sheath. The heating wire is preferably made of a tungsten alloy containing 5 to 39 wt % rhenium to provide the desired resistance.Type: GrantFiled: September 19, 1986Date of Patent: January 12, 1988Assignee: NGK Spark Plug Co., Ltd.Inventors: Masatoshi Ito, Katsuhiko Tanaka
-
Patent number: 4529835Abstract: Disclosed herein is a ceramic thick film circuit substrate for use in an electronic circuit part, characterized in that a conductive layer at a place where it is to be connected with a thick film circuit is composed of a mixture of tungsten and at least one of platinum and palladium. Based on 100 parts by weight of tungsten, platinum is 0.1-100 parts by weight in the case of platinum alone, palladium is 0.1-20 parts by weight in the case of palladium alone; and a total amount of platinum and palladium is 0.1-76 parts by weight in the case of combination of platinum and palladium. Thereby, the ceramic thick film circuit substrate has an excellent oxidation resistance, and low contact resistance to the thick film circuit.Type: GrantFiled: October 21, 1983Date of Patent: July 16, 1985Assignee: NGK Insulators, Ltd.Inventor: Fukuzo Mizuno
-
Patent number: 4474614Abstract: A process for the formation of copper anodes useful in the electrorefining of copper. Molten partially refined copper is subjected to controlled cooling such that the impurities coalesce into larger agglomerations and in the resulting solid partially refined copper are found segregated at the boundaries of the copper crystals. These larger agglomerations are less susceptible to dissolution in the electrolyte and to deposition or entrainment at the cathode. The process allows the use of a less refined copper starting material to achieve a comparable final cathode copper product.Type: GrantFiled: February 14, 1983Date of Patent: October 2, 1984Assignee: Atlantic Richfield CompanyInventor: Charles Arentzen
-
Patent number: 4378330Abstract: An alloy for the commercial production of ductile superconducting wire is prepared by melting together copper and at least 15 weight percent niobium under non-oxygen-contaminating conditions, and rapidly cooling the melt to form a ductile composite consisting of discrete, randomly distributed and orientated dendritic-shaped particles of niobium in a copper matrix. As the wire is worked, the dendritric particles are realigned parallel to the longitudinal axis and when drawn form a plurality of very fine ductile superconductors in a ductile copper matrix. The drawn wire may be tin coated and wound into magnets or the like before diffusing the tin into the wire to react with the niobium. Impurities such as aluminum or gallium may be added to improve upper critical field characteristics.Type: GrantFiled: March 12, 1979Date of Patent: March 29, 1983Assignee: The United States of America as represented by the Department of EnergyInventors: John D. Verhoeven, Douglas K. Finnemore, Edwin D. Gibson, Jerome E. Ostenson