Patents Examined by David Schumaker
-
Patent number: 5108700Abstract: The specification discloses nickel aluminide alloys which include as a component from about 0.5 to about 4 at. % of one or more of the elements selected from the group consisting of molybdenum or niobium to substantially improve the mechanical properties of the alloys in the cast condition.Type: GrantFiled: August 21, 1989Date of Patent: April 28, 1992Assignee: Martin Marietta Energy Systems, Inc.Inventor: Chain T. Liu
-
Patent number: 5106702Abstract: A reinforced aluminum matrix composite having improved toughness and ductility over known composites, without any sacrifice in strength or stiffness. In particular, the invention relates to a reinforced aluminum alloy consisting essentially of copper and magnesium as the principal alloying elements. The alloy may have other soluble alloying elements up to their solubility limits in the base alloy. The alloy may include a small percentage of insoluble metallic elements in amounts which do not adversely affect the sought after improvements in ductility and toughness. The reinforcement may be either a ceramic material, in the form of whiskers, particles, or chopped fibers, or a metal.Type: GrantFiled: August 4, 1988Date of Patent: April 21, 1992Assignee: Advanced Composite Materials CorporationInventors: J. Andrew Walker, Edgar A. Starke, Jr., Paul W. Niskanen
-
Patent number: 5104748Abstract: A copper base alloy exhibits improved wear resistance particularly at elevated temperatures, which consists essentially of, in percent by weight, 10-40% of Ni, 1-7% of Si, 0.5-5% of B, 1-20% of Cr, and the balance of Cu, wherein particles of at least one of chromium boride and chromium silicide having a size of about 0.1 to about 50 .mu.m are evenly dispersed in a copper-nickel base matrix. The alloy may further contain W, Mo or Fe and/or a high-melting carbide such as WC and TaC.Type: GrantFiled: March 9, 1990Date of Patent: April 14, 1992Assignee: Toyota Jidosha Kabushiki KaishaInventors: Kazuhiko Mori, Soya Takagi, Minoru Kawasaki, Shinji Kato
-
Patent number: 5077137Abstract: A process for providing a slip resistant surface by thermally applying a metallic spray coat from materials in a hollow wire with the characteristics of the final coated surface being selectively variable by varying the materials in the hollow wire and an article formed by such process, the slip resistant surface on the article being jagged and generally defined by randomly distributed sharp ridges and pointed peaks of varying depths.Type: GrantFiled: April 4, 1990Date of Patent: December 31, 1991Assignee: W. S. Molnar Co.Inventor: William S. Molnar
-
Patent number: 5074936Abstract: A substantially amorphous aluminum/magnesium alloy optionally containing up to about ten atom percent calcium. The alloy contains from about 45 to about 75 atom percent aluminum and from about 25 to about 50 atom percent magnesium.Type: GrantFiled: May 2, 1990Date of Patent: December 24, 1991Assignee: The Dow Chemical CompanyInventor: Lowell E. Hazelton
-
Patent number: 5075175Abstract: A composite bar structure is composed of at least outer and inner members extending parallelly in the longitudinal direction of the structure and joined mechanically at an interface therebetween in an interlocked. The structure is fabricated by forming a plurality of projections on the inner member over the entire interface, preparing the outer member in a tubular shape to readily encompass the inner member, relatively positioning the members to place the inner member within the outer member in telescoped state, and applying a constrictive compression force on the outer member so that it undergoes plastic deformation and reduction in diameter, whereby the projections bite into the inner surface of the outer member. The members are thus joined tightly to form the integral composite bar structure.Type: GrantFiled: July 12, 1989Date of Patent: December 24, 1991Assignee: Kawasaki Jukogyo Kabushiki KaishaInventors: Shigetomo Matsui, Takeshi Yamada, Yasuhiro Kumon, Makoto Ryoji
-
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
-
Patent number: 5051235Abstract: The invention relates to a novel palladium-based alloy.This palladium-based alloy comprises at least one additional element selected from indium, bismuth, silver and copper, in an amount sufficient to impart an acceptable resistance to corrosion by molten glass, preferably being essentially equivalent to that of platinum-rhodium 10% alloys.An alloy of this type can be used in the glass industry for making components which come into contact with molten glass, which preferably essentially contains no oxides less stable than the oxide of the additional element, such as lead oxide, because is has an excellent resistance to corrosion by molten glass and is less expensive than the platinum-rhodium 10% alloy normally used. Moreover, by the addition of at least one element selected from platinum (0-50% by weight), rhodium (0-20% by weight), iridium (0-20% by weight), ruthenium (0-20% by weight) and tin (0-20%), the mechanical strength at high temperature, especially the creep strength, is significantly improved.Type: GrantFiled: January 8, 1990Date of Patent: September 24, 1991Assignee: Comptoir Lyon-Alemand-Louyot, Societe AnonymeInventors: Jean-Paul Guerlet, Dan Weber
-
Patent number: 5049452Abstract: A target according to the present invention contains metallic copper ranging from about 8% to about 40% by volume and an oxide containing a rare earth metal such as yttrium and an alkaline earth metal, and has a metallic structure where the oxide is substantially uniformly dispersed into the metallic copper, so that a large thermal conductivity, great mechanical strength and a low electric resistivity are achieved.Type: GrantFiled: August 9, 1989Date of Patent: September 17, 1991Assignee: Mitsubishi Metal CorporationInventors: Takuo Takeshita, Tadashi Sugihara
-
Patent number: 5041341Abstract: In accordance with the present invention, there are provided information recording media having a substrate and thereon a recording layer and a metallic layer, wherein the metallic layer is composed of an aluminum alloy containing (i) titanium and (ii) at least one metal selected from among chromium, niobium and magnesium. The information recording media thus provided are excellent in corrosion resistance and small in dependence of the recording power on linear velocity.Type: GrantFiled: May 23, 1990Date of Patent: August 20, 1991Assignee: Mitsui Petrochemical Industries, Ltd.Inventors: Kiyotaka Shindo, Koichi Igarashi, Kunihiko Mizumoto, Hidehiko Hashimoto
-
Patent number: 5041342Abstract: In a multilayered ceramic substrate having a ceramic substrate fireable in low temperatures and a metal member for input/output brazed to the ceramic substrate, an intermediate layer including a ceramic component is arranged between the ceramic substrate and the metal member in such a manner that thermal coefficients .alpha..sub.1, .alpha..sub.2 and .alpha..sub.3 between a room temperature and near a brazing temperature of the metal member, the ceramic component in the intermediate layer and the ceramic layer, respectively, maintains a relation of .alpha..sub.1 >.alpha..sub.2 >.alpha..sub.3. Moreover, the ceramic substrate fireable in low temperatures is constructed by first ceramic layer having a flexural strength more than 25 kg/mm.sup.2 and a second ceramic layer having a dielectric constant less than 7.Type: GrantFiled: July 6, 1989Date of Patent: August 20, 1991Assignee: NGK Insulators, Ltd.Inventors: Yuhji Umeda, Tadashi Otagiri, Go Suzuki
-
Patent number: 5041340Abstract: A fiber-reinforced light alloy member excellent in heat conductivity and sliding properties which contains a mixed fiber uniformly dispersed in a light alloy matrix, the mixed fiber including of a ceramic fiber having a fiber volume fraction of 4 to 60% and a carbon fiber having a fiber volume fraction of 0.5 to 10%, and is produced through a thermal treatment at a heating temperature of 400.degree. to 550.degree. C.Type: GrantFiled: September 2, 1988Date of Patent: August 20, 1991Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Hideaki Ushio, Tadayoshi Hayashi, Kazuo Shibata
-
Patent number: 5030519Abstract: A matrix-bonded carbide-containing material of high hardness is prepared using a mixture containing a matrix alloy having a composition in weight percent of from about 15 to about 45 percent chromium, from 0 to about 3 percent silicon, from about 2 to about 6 percent boron, from about 3 to about 11 percent titanium (either as metal or as a compound), balance iron and impurities, and a mass of tungsten carbide particles, the tungsten carbide particles preferably being present in an amount of from about 15 to about 60 percent by weight of the total mixture and the matrix alloy preferably being present in an amount of from about 85 to about 40 percent by weight of the total mixture. The matrix alloy is melted to produce a flowable mixture having a liquid phase and solid tungsten carbide particles, and thereafter solidified. During melting, the tungsten carbide particle size is reduced by interaction with the liquid phase.Type: GrantFiled: April 24, 1990Date of Patent: July 9, 1991Assignee: Amorphous Metals Technologies, Inc.Inventors: David M. Scruggs, Gerald A. Croopnick
-
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
-
Patent number: 5006417Abstract: A ternary metal matrix composite comprising a metallic binding matrix material and a reinforcement material consisting essentially of an insoluble ceramic and a semi-metal. The ternary metal matrix composite of the invention has a coefficient of thermal expansion which is lower and more consistent than that of known binary composites using similar materials. The coefficient of thermal expansion may be tailored to meet specific application needs. The invention also has a low density, good thermal conductivity, dimensional stability, and formability. In one form of the invention, the insoluble ceramic and semi-metal contain the same element. In a preferred form of the invention, the ternary metal matrix composite comprises an aluminum alloy matrix and a reinforcement material of silicon carbide and silicon.Type: GrantFiled: June 9, 1988Date of Patent: April 9, 1991Assignee: Advanced Composite Materials CorporationInventors: Michael B. Jackson, Peter A. Roth
-
Patent number: 5004720Abstract: A process for producing a superconductor of an oxide system, which comprises uniformly mixing metal elements for constituting the oxide system at least partly in the form of acetylacetonates in a solvent with the rest, if any, being in the form of alkoxides, carboxylates and/or inorganic salts, hydroxides and/or oxides to obtain a homogeneous mixture, and sintering the mixture.Type: GrantFiled: August 24, 1988Date of Patent: April 2, 1991Assignee: Mitsubishi Denki Kabushiki KaishaInventors: Toshio Kobayashi, Fusaoki Uchikawa, Kenji Nomura, Masao Morita, Shouichi Yokoyama
-
Patent number: 4983576Abstract: A superconducting structural body comprisinga superconducting ceramics anda metal sheath surrounding the superconducting ceramics,the metal sheath includingan Ag portion anda non-Ag metal portion, the Ag portion existing from inner to outer faces of the metal sheath, and the superconducting ceramics portion existing in the structural body and the non-Ag metal portion used as a structural material for the metal sheath as the outermost indirectly contacting each other through the Ag material.Type: GrantFiled: August 24, 1989Date of Patent: January 8, 1991Assignee: Mitsubishi Kinzoku Kabushiki KaishaInventors: Sadaaki Hagino, Motokazu Suzuki, Shigeru Nishikawa, Kenichi Hayashi
-
Patent number: 4980242Abstract: A fiber-reinforced metal composite (aluminum-matrix composite) consisting essentially of reinforcing fibers and an aluminum alloy containing 6 to 11 wt. % of nickel of a metal matrix.Type: GrantFiled: March 31, 1989Date of Patent: December 25, 1990Assignee: Ube Industries, Ltd.Inventors: Tadashi Yamamoto, Michiyuki Suzuki, Yoshiharu Waku, Masahiro Tokuse
-
Patent number: 4977039Abstract: A superconducting wire comprises a wire element wherein a plurality of superconducting filaments are arranged in a metallic matrix, and a covering layer which is formed on the surface of the wire element with a number of filaments and has a laminated structure including at least one insulator film as the lower layer and at least one thermal conductor film as the upper layer. Frictional heat generated on the surface of the superconducting wire is prevented from being conducted to superconducting filaments by virtue of the presence of the insulator film, and is conducted through the thermal conductor film to be dissipated. Therefore, the temperature of the superconducting filaments is hardly raised.Type: GrantFiled: March 5, 1990Date of Patent: December 11, 1990Assignee: Agency of Industrial Science and TechnologyInventors: Toshitada Onishi, Noboru Higuchi, Itaru Ishii
-
Patent number: 4973365Abstract: The process for preparing a precursor Nb.sub.3 Sn superconductor wire first assembling a billet comprising Nb rods surrounded by Cu material. A barrier material such as Nb is placed around the Cu and an outer stabilizer tube encases the billet. The billet is then preferably hot compacted after which it is extruded at an elevated temperature. A Sn rod is placed in the center of the billet and the entire composite is then drawn and twisted to the final size desired.Type: GrantFiled: June 6, 1989Date of Patent: November 27, 1990Assignee: Advanced Superconductors, Inc.Inventors: Gennady Ozeryansky, Bruce A. Zeitlin