Patents Examined by H. Dean
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Patent number: 5248351Abstract: A copper alloy for an electronic device comprises 2.0 wt% -8 wt% of Ni, 0.1 wt% -0.8 wt% of P, 0.06 wt% -1 wt% of Si and the rest being Cu and unavoidable impurities.The rest may include 0.03 wt% -2.0 wt% of Zn. The copper allow has an oxygen content of 20 ppm or less.Type: GrantFiled: February 18, 1992Date of Patent: September 28, 1993Assignee: Mitsubishi Denki Kabushiki KaishaInventors: Kenji Kubozono, Takashi Nakagima, Takefumi Itou, Kimio Hashizume, Shinichi Iwase
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Patent number: 5246511Abstract: A high-strength lead frame material consists, by weight, of 0.5 to 22% Co, 22 to 32.5% Ni, not more than 1.0% Mn, not more than 0.5% Si, at least one kind of 0.1 to 3.0% in total selected from the group consisting of Nb, Ti, Zr, Mo, V, W and Be, and the balance Fe and incidental impurities; the total content of Ni and Co being selected so that the content of Ni is in the range of 27 to 32.5% when the content of Co is less than 12% and so that 66%.ltoreq.2Ni+Co.ltoreq.74% is met when the content of Co is not less than 12%; the lead frame material having a duplex-phase structure composed of a reverse-transformed austenite phase (which can involve a residual austenite phase) and a martensite phase; and the austenite phase being not less than 50%.Type: GrantFiled: September 18, 1992Date of Patent: September 21, 1993Assignee: Hitachi Metals, Ltd.Inventors: Shuichi Nakamura, Hakaru Sasaki, Hironori Nakanishi, Tsutomu Inui
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Patent number: 5207844Abstract: A method for manufacturing an Fe-Ni alloy cold-rolled sheet excellent in cleanliness and etching pierceability, comprising: preparing an Fe-Ni molten alloy, containing 30 to 45 wt. % nickel, and subjected to dephosphorization and decarburization; adding aluminum and flux to the Fe-Ni molten alloy in a ladle made of an MgO-CaO refractory containing 20 to 45 wt. %; strongly stirring the Fe-Ni molten alloy which contains the added aluminum and flux in the ladle to produce a CaO-Al.sub.2 O.sub.3 -MgO slag so as to react the Fe-Ni molten alloy with the CaO-Al.sub.2 O.sub.3 -MgO slag to deoxidize the Fe-Ni molten alloy while controlling a value of activity of SiO.sub.2 from 0.001 to 0.005 and a value of activity of Al.sub.2 O.sub.3 from 0.1 to 0.3 in the CaO-Al.sub.2 O.sub.3 -MgO slag, and the CaO-Al.sub.2 O.sub.3 -MgO slag having the following chemical composition: CaO and Al.sub.2 O.sub.3 : at least 57 wt. %, wherein the ratio of CaO/(CaO+Al.sub.2 O.sub.3) being at least 0.45, MgO: up to 25 wt. %, SiO.sub.Type: GrantFiled: May 18, 1992Date of Patent: May 4, 1993Assignee: NKK CorporationInventors: Atsushi Watanabe, Teruyuki Hasegawa, Tadashi Inoue, Tomoyoshi Okita, Yoshiteru Kikuchi, Hidetoshi Matsuno
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Patent number: 5207843Abstract: A modified H-13 hot work die steel in which impact toughness and thermal fatigue resistance is greatly improved. The steel consists of in weight %:______________________________________ Carbon (C): 0.34-0.40, Manganese (Mn): 0.25-0.45, Silicon (Si): 0.85-1.15, Chromium (Cr): 5.00-5.40, Nickel (Ni): 0.30 max, Molybdenum (Mo): 1.20-1.50, Vanadium (V): 0.31-0.52, Niobium (Nb): 0.02-0.09, Iron (Fe) and Incidental impurities: Balance ______________________________________The steel also preferably includes about 0.01-0.20 weight % titanium (Ti) and is preferably subjected to premium quality treatment, including remelting and homogenization, either thermal or mechanical (by hot working).Type: GrantFiled: July 31, 1991Date of Patent: May 4, 1993Assignee: Latrobe Steel CompanyInventors: James L. Maloney, William P. Edwards, Mark S. Rodney
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Patent number: 5139584Abstract: A process and an installation for heat treatment or thermochemical treatment of steel permit instantaneous and permanent checking of the concentration of carbon at the surface of the steel, particularly in the course of the carbon enrichment of the surface zone of a workpiece. The process provides for the circulation in contact with this surface zone of a gaseous flux permitting the saturation concentration of carbon at the surface to be obtained at maximum speed, and for regulating this flux as a function of time. The installation comprises a monitored-atmosphere furnace having an input and an outlet for a gaseous flux, feed means forming this gaseous flux, and means for regulating the gaseous flux; it is equipped with data-storage and/or calculating means, and the feed means are designed to form a gaseous flux suitable for obtaining a saturation concentration of carbon at the surface of the workpieces in less than one minute.Type: GrantFiled: July 9, 1990Date of Patent: August 18, 1992Assignee: Solo Fours Industriels SAInventor: Michel Gantois
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Patent number: 5130088Abstract: The present invention provides an alloy having improved crack growth inhibition and having high strength at high temperatures. The composition of the alloy is essentially as follows:______________________________________ Ingredient Concentration in weight 5 ______________________________________ Ni balance Co 15 Cr 10 Mo 3 Al 5.5 Ti 2.25 Ta 2.70 Nb 1.35 Zr 0.06 V 1 C 0.05 B 0.03.Type: GrantFiled: August 13, 1990Date of Patent: July 14, 1992Assignee: General Electric CompanyInventor: Michael F. Henry
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Patent number: 5120373Abstract: A process for producing a fine grain forged superalloy article having a high yield strength at intermediate temperatures. A preferred starting composition comprises, by weight, 15% Cr, 13.6% Co, 4.1% Mo, 4.6% Ti, 2.2% Al, 0.01% C, 0.007% B, 0.07% Zr, balance Ni. This material is forged at a temperature above the gamma prime solvus and at a true strain of at least 0.5. Alternately, the material may be forged below the gamma prime solvus temperature with intermediate super solvus anneals. The overaged material is then worked at a temperature below the gamma prime solvus. The resultant fine grain material is then heat treated or can be further isothermally forged prior to heat treatment to produce complex shapes.Type: GrantFiled: April 15, 1991Date of Patent: June 9, 1992Assignees: United Technologies Corporation, Teledyne Industries, Inc.Inventors: John A. Miller, Daniel F. Paulonis, Paul D. Genereux, Jeffery W. Samuelson, Laurence A. Jackman, Frederick P. Vaccaro, William M. Thomas
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Patent number: 5110371Abstract: An aluminum alloy consists of, by weight, from 0.08 to 0.50 percent silicon, from 0.15 to 0.90 percent iron, the weight ratio of iron to silicon being from 1.4 to 2.2, and the remainder aluminum, intermetallic compounds of .alpha.-type Al-Fe-Si system being contained in the alloy. A light gray oxide film is formed on the alloy by anodic treatment.Type: GrantFiled: July 9, 1991Date of Patent: May 5, 1992Assignee: Nippon Light Metal Company, Ltd.Inventors: Takeshi Moriyama, Katsuji Ogawa, Fumio Ohtake, Akito Nishizawa
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Patent number: 5102477Abstract: A method of producing Fe-Ni system high permeability alloy comprising the steps of obtaining cast steel sheet 0.3 to 7 mm thick by direct casting of a steel melt containing 35 to 85% by weight of nickel with the balance of iron and unavoidable impurities, forcibly cooling the sheet from solidification to 1200.degree. C. at a cooling rate of at least 75.degree. C./s, and cold-rolling the sheet at a reduction ratio of at least 20%.Type: GrantFiled: September 10, 1991Date of Patent: April 7, 1992Assignee: Nippon Steel CorporationInventors: Kenzo Iwayama, Tsunehiro Shimizu, Hidehiko Sumitomo
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Patent number: 5102476Abstract: Components made from steel can be nitrocarburized in cyanate- and cyanide-containing salt baths within relatively short times if the process is carried out at 600.degree. to 700.degree. C. in a first stage and at 560.degree. to 590.degree. C. in a second stage. The components exhibit the same or better characteristics as compared to considerably longer processing at 560.degree. to 590.degree. C.Type: GrantFiled: October 1, 1990Date of Patent: April 7, 1992Assignee: Degussa AktiengesellschaftInventor: Georg Wahl
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Patent number: 5098487Abstract: A metal liner for a shaped charge device having a ductile metal matrix and a discrete second phase is provided. The allow composition is selected so the second phase is molten when the liner is accelerated following detonation. The molten phase reduces the tensile strength of the matrix so that the liner slug is pulverized on striking a well casing. The slug does not penetrate the hole perforated in the well casing by the liner jet and oil flow into the well bore is not impeded. The liner is formed by directly casting the desired alloy to the desired shape.Type: GrantFiled: November 28, 1990Date of Patent: March 24, 1992Assignee: Olin CorporationInventors: Dennis R. Brauer, Frank N. Mandigo, Derek E. Tyler
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Patent number: 5094699Abstract: A method of manufacturing high strength and hard metallic composite layer materials by connecting several metal layers with one another, includes forming the metal layers as flat products by rolling from a metal with low base strength, alloying and hardening the flat products over their whole cross-section with a metalloid by heat treatment in a metalloid containing gas atmosphere, then connecting the flat products with one another by diffusion welding. As metalloids preferably nitrogen, boron and carbon are used. Diffusion welding is performed by hot isostatic pressure method.Type: GrantFiled: February 20, 1990Date of Patent: March 10, 1992Assignee: Vereinigte Schmiedewerke GmbHInventors: Heinrich K. Feichtinger, Gerald Stein, Marcus O. Speidel, Joachim Menzel
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Patent number: 5073210Abstract: A method of making material in the form of a fine wire or thin strip or sheet suitable for use as electrical conductors comprises: forming an ingot substantially consisting of an alloy of gold and one or more of the metals titanium, lutetium, zirconium, scandium and hafnium, the amount of the or each of said one or more of the metals in the alloy lying in the range from substantially 0.1 at % to an upper limit comprising the atomic percentage of that metal corresponding to the maximum solubility of that metal in the alloy; solution heat treating the ingot and then quenching the ingot from the solution heat treatment temperature; mechanically working the ingot to have a maximum dimension in at least one direction of not greater than 250 .mu.m; and heat treating the resulting material at a temperature below its solvus temperature from an ambient atmosphere containing oxygen and/or nitrogen in the ambient atmosphere.Type: GrantFiled: May 22, 1990Date of Patent: December 17, 1991Assignee: The General Electric Company, p.l.c.Inventors: Giles Humpston, David M. Jacobson
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Patent number: 5071494Abstract: An aged copper alloy comprising:0.15-1.0 wt % Fe,0.05-0.3 wt % P, and0.05-0.3 wt % Mg and 0.05-0.3 wt % Pbwith the balance being essentially composed of Cu.Type: GrantFiled: January 22, 1991Date of Patent: December 10, 1991Assignee: Yazaki CorporationInventors: Yasusuke Ohashi, Toshihiro Fujino, Yasuhito Taki, Tamotsu Nishijima
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Patent number: 5064478Abstract: A method for producing a selectively surface hardened cast iron part includes uniformly heating the surface of the part by immersion into a molten metallic bath until a desired thickness of surface austenite is produced, and thereafter quenching the heated cast iron part in a liquid quenching bath which is maintained at a temperature of between about 450.degree. to about 800.degree. F. for about 10 minutes to about 4 hours. The resultant selectively surface hardened cast iron part is surface hardened with the bulk of the body of the part remaining untempered. An apparatus for performing this process includes a molten metal bath chamber for containing the molten metal and a molten salt bath quenching chamber for quenching the cast iron parts with a conveyor means extending between the molten metal bath and the molten salt bath chambers. A second conveyor means removes the parts from the molten salt bath chamber.Type: GrantFiled: December 4, 1989Date of Patent: November 12, 1991Assignee: Applied ProcessInventors: Bela V. Kovacs, John R. Keough, Douglas M. Pramstaller
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Patent number: 5061327Abstract: Disclosed is a method of producing an unrecrystallized aluminum alloy flat rolled product, e.g., plate or sheet, having improved levels of strength and fracture toughness. The method comprises the steps of providing a body of an aluminum base alloy, heating and hot working the body to a first product. This is followed by reheating, cooling and heat treating the first product prior to further working it to an unrecrystallized plate or sheet product, for example.Type: GrantFiled: April 2, 1990Date of Patent: October 29, 1991Assignee: Aluminum Company of AmericaInventors: Diana K. Denzer, John Liu
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Patent number: 5059491Abstract: A blade member for cutting-tools includes a cermet substrate which contains, apart from unavoidable impurities, a binder phase and a hard dispersed phase. The binder phase contains 5% to 30% by weight of cobalt and/or nickel. The hard dispersed phase contains a balance composite carbonitride of titanium and one or more of the elements tungsten, molybdenum, tantalum, niobium, hafnium and zirconium. The composite carbo-nitride satisfies the relationship 0.2.ltoreq.b/(a+b).ltoreq.0.7, where a and b denote atomic ratios of carbon and nitrogen, respectively. The substrate includes a hard surface layer in which the maximum hardness is present at a depth between 5 .mu.m and 50 .mu.m from a substrate surface thereof. The substrate surface has a hardness of 20% to 90% of the maximum hardness.Type: GrantFiled: November 9, 1989Date of Patent: October 22, 1991Assignee: Mitsubishi Metal CorporationInventors: Niro Odani, Kazuyoshi Yoshioka, Sinichi Sekiya
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Patent number: 5057200Abstract: A high-coercivity thin-film magnetic recording medium, and method of producing the medium, is disclosed. The medium has a sputtered chromium underlayer, preferably about 300-1,000 .ANG. thick, and a sputtered magnetic layer, preferably about 200-800 .ANG. thick, composed of an alloy containing between 70-80% cobalt, 10-20% chromium, 3-20% platinum, and 2-10% tantalum, formed on the chromium underlayer. The medium is characterized by high coercivity, resolution, amplitude and loop squareness value, and low bit shift.Type: GrantFiled: March 14, 1991Date of Patent: October 15, 1991Assignee: HMT Technology CorporationInventors: Brij B. Lal, Atef H. Eltoukhy
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Patent number: 5055255Abstract: Disclosed is an aluminum alloy suitable for high temperature applications comprised of at least 9 wt. % Si, 3 to 7 wt. % Ni, 1.5 to 6 wt. % Cu, at least one of the elements selected from Mg, Mn, V, Sc, Fe, Ti, Sr, Zn, B and Cr, the remainder aluminum and impurities.Type: GrantFiled: April 19, 1990Date of Patent: October 8, 1991Assignee: Aluminum Company of AmericaInventors: Gerald D. Scott, Barrie S. Shabel, Anthony Morales
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Patent number: 5043319Abstract: A mixture comprised of an alkali chloride solvent and reactants comprised of oxides of lanthanum, an alkaline earth and copper, wherein the reactants are formulated to produce a superconducting reaction product, is heated to melt the chloride solvent in which the reactants then dissolve and react precipitating a lanthanum-alkaline earth-copper-oxygen superconductive material.Type: GrantFiled: November 2, 1990Date of Patent: August 27, 1991Assignee: General Electric CompanyInventor: Ronald H. Arendt