| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 420442000 |
Chromium containing
| 139 |
| 420455000 |
Rare earth containing
| 7 |
| 420456000 |
Noble metal containing | 5 |
| 20080292490 | HIGH-TEMPERATURE COATINGS AND BULK ALLOYS WITH PT METAL MODIFIED GAMMA-NI + GAMMA'-NI3AL ALLOYS HAVING HOT-CORROSION RESISTANCE - An alloy including a Pt-group metal, Ni and Al, wherein the concentration of Al is limited with respect to the concentration of Ni and the Pt-group metal such that the alloy includes substantially no β-NiAl phase, and wherein the Pt-group metal is present in an amount sufficient to provide enhanced hot corrosion resistance. | 11-27-2008 |
| 20090028744 | Ultra-high purity NiPt alloys and sputtering targets comprising same - A method of making a NiPt alloy having an ultra-high purity of at least about 4N5 and suitable for use as a sputtering target, comprises steps of: heating predetermined amounts of lesser purity Ni and Pt at an elevated temperature in a crucible to form a NiPt alloy melt, the crucible being composed of a material which is inert to the melt at the elevated temperature; and transferring the melt to a mold having a cavity with a surface coated with a release agent which does not contaminate the melt with impurity elements. The resultant NiPt alloy has a very low concentration of impurity elements and is subjected to cross-directional hot rolling for reducing thickness and grain size. | 01-29-2009 |
| 20100129256 | HIGH TEMPERATURE AND OXIDATION RESISTANT MATERIAL - High-temperature materials, based on alloyed intermetallic NiAl, have the following chemical composition (values in % by weight):
| 05-27-2010 |
| 20140308158 | SOLID METAL ALLOY - The present invention addresses the problem of providing a novel, sold metal alloy. Provided is a metal alloy containing two or more types of metal, wherein an equilibrium diagram of the metal alloy shows the two or more types of metal in a finely mixed state at the nanolevel in a specific region where the two types of metal are unevenly distributed. This metal alloy has a substitutional solid solution of the two or more types of metal as the principal constituent thereof. This metal alloy is preferably one obtained by precipitation after mixing ions of two or more types of metal and a reducing agent in a thin-film fluid formed between processing surfaces, at least one of which rotates relative to the other, which are arranged so as to face one another and are capable of approaching and separating from one another. | 10-16-2014 |
| 20150098858 | SOLID GOLD-NICKEL ALLOY NANOPARTICLES AND PRODUCTION METHOD THEROF - The purpose of the present invention is to provide novel solid gold-nickel alloy nanoparticles and a production method thereof. Provided are solid gold-nickel alloy nanoparticles having a particle diameter of 500 nm or less. In particular, gold-nickel alloy nanoparticle are provided in which the concentration of nickel in the gold-nickel alloy is 2.0-92.7 wt %, and the main component is a gold-nickel alloy in which gold and nickel are in a nano-level fine mixed state. The gold-nickel alloy particles have as the main component a substitutional solid solution of gold and nickel. These gold-nickel alloy particles are optimally formed by mixing and discharging gold ions, and a substance having reducing characteristics in the thin film fluid occurring between processing surfaces which are arranged facing each other, which can move towards and away from each other, and at least one of which rotates relative to the other. | 04-09-2015 |
| 420457000 |
Copper containing | 3 |
| 20100047111 | MAGNETIC SHIELDING MATERIAL, MAGNETIC SHIELDING COMPONENT, AND MAGNETIC SHIELDING ROOM - Disclosed are: a magnetic shielding material having excellent magnetic shielding property at a low magnetic field; and a magnetic shielding component and a magnetic shielding room each using the magnetic shielding material. Specifically disclosed is a magnetic shielding material comprising the following components (by mass): Ni: 70.0-85.0%, Cu: 0.6% or less, Mo: 10.0% or less and Mn: 2.0% or less, with the remainder being substantially Fe. The magnetic shielding material has a relative magnetic permeability of 40,000 or more under a magnetic field of 0.05 A/m and a squareness ratio (Br/B | 02-25-2010 |
| 20110150695 | ELECTRONIC GRADE METAL NANOSTRUCTURES - Methods for producing electronic grade metal nanostructures having low levels of contaminants are provided. Monolayer arrays, populations, and devices including such electronic grade nanostructures are described. In addition, novel methods and compositions for production of Group 10 metal nanostructures and for production of ruthenium nanostructures are provided, along with methods for recovering nanostructures from suspension. | 06-23-2011 |
| 20080267810 | Apparatus and process for making high purity nickel - An improved method of reducing a mixed metal oxide composition comprising oxides of nickel, cobalt, copper and iron in a hydrogen atmosphere to produce a mixture of the respective metals, the improvement wherein the atmosphere further comprises water vapour at a concentration, temperature and time to effect selective reduction of the oxides of nickel cobalt and copper relative to the iron oxide to produce the metallic mixture having a reduced ratio of metallic iron relative to metallic nickel, cobalt and copper. | 10-30-2008 |
| 420460000 |
Aluminum containing | 1 |
| 20130189149 | Re-ADDED Ni-BASED DUAL MULTI-PHASE INTERMETALLIC COMPOUND ALLOY AND METHOD FOR PRODUCING THE SAME - The present invention provides an Ni-based intermetallic compound alloy having excellent hardness. The present invention provides an Ni-based dual multi-phase intermetallic compound alloy comprising Ni as a main component, and 5 to 12 atomic % of Al, 11 to 17 atomic % of V and 1 to 5 atomic % of Re, and having a dual multi-phase microstructure including a primary precipitate L1 | 07-25-2013 |
| Entries |
| Document | Title | Date |
|---|
| 20090010796 | LONG FATIGUE LIFE NITINOL - A high fatigue life superelastic nickel-titanium (nitinol) wire, ribbon, sheet, tubing, or the like is disclosed. The nitinol has a 54.5 to 57.0 weight percent nickel with a balance of titanium composition and has less than 30 percent cold work as a final step after a full anneal and before shape setting heat treatment. Through a rotational beam fatigue test, fatigue life improvement of 37 percent has been observed. | 01-08-2009 |
| 20090142221 | ENGINE COMPONENTS AND METHODS OF FORMING ENGINE COMPONENTS - Engine components that include a compacted powder material comprising a nickel-based superalloy having less than five parts per million sulfur, by weight and methods of forming the components are provided. In an embodiment, by way of example only, a method includes flowing a gas into a can with a metal powder therein, the gas comprising hydrogen, the can configured to be used for a consolidation process, and the superalloy comprising sulfur. Gas is flowed into and then removed from the can. A sulfur content of the removed gas is determined during the process. The can and the metal powder therein are subjected to the consolidation process, if a determination is made that the sulfur content of the metal powder is below a threshold value, the threshold value being a value below about 1 part per million by weight. | 06-04-2009 |
| 20090148337 | Method of Manufacturing Ni-Based Superalloy Component For Gas Turbine Using One-Step Process Of Hot Isostatic Pressing And Heat Treatment And Component Manufactured Thereby - Disclosed herein are a method of manufacturing a Ni-based superalloy component for a gas turbine using a one-step process of hot isostatic pressing (HIP) and heat treatment, and a component manufactured by the method. In the method, an HIP process and a heat treatment process, which have been performed to manufacture or repair a Ni-based superalloy component for a gas turbine, are performed as a one-step process using an HIP apparatus. Thus, component defects, such as micropores and microcracks, which are generated when casting, welding, or brazing the Ni-based superalloy component for a gas turbine used for a combined cycle thermal power plant or airplane, can be cured using an HIP apparatus at high temperature and high pressure and, at the same time, the physical properties of the Ni-based superalloy component can be optimized using the heat treatment process. | 06-11-2009 |
| 20090269238 | Nickel material for chemical plant - A nickel material, which comprises by mass percent, C: 0.003 to 0.20% and one or more elements selected from Ti, Nb, V and Ta: a total content less than 1.0%, the contents of these elements satisfying the relationship specified by the formula of “( 12/48)Ti+( 12/93)Nb+( 12/51)V+( 12/181)Ta—C≧0”, with the balance being Ni and impurities, does not deteriorate in the mechanical properties and corrosion resistance even when it is used at a high temperature for a long time and/or it is affected by the heat affect on the occasion of welding. Therefore, it can be suitably used as a member for use in various chemical plants including facilities for producing caustic soda, vinyl chloride and so on. Each element symbol in the above formula represents the content by mass percent of the element concerned. | 10-29-2009 |
| 20110020169 | Sputtering Target Material for Producing Intermediate Layer Film of Perpendicular Magnetic Recording Medium and Thin Film Produced by Using the Same - There is disclosed a sputtering target material for producing an intermediate layer film of a perpendicular magnetic recording medium, which is capable of dramatically reducing the crystal grain size of a thin film formed by sputtering. The sputtering target material comprises, in at %, 1 to 20% of W; 0.1 to 10% in total of one or more elements selected from the group consisting of P, Zr, Si and B; and balance Ni. | 01-27-2011 |
| 20110103998 | Production of Nickel - A method of producing a nickel product (including nickel alloy products and products such as nickel matte) from a nickel intermediate product is disclosed. The method comprises smelting a dried nickel intermediate product in a molten bath-based smelter and forming a molten pool containing a molten metal and a slag, with the molten metal being the nickel product. Intermediate and end products produced by the method are also disclosed. | 05-05-2011 |
| 20110142711 | OXIDE-DISPERSION-STRENGTHENED ALLOY - The present invention provides an oxide dispersion strengthened alloy in which even with aluminum contained, the particle diameter and dispersion spacing of the oxide are decreased, and the strength at high temperature, the high temperature oxidation and the corrosion resistance can be improved. An oxide dispersion strengthened alloy being a nickel-base alloy containing aluminum, hafnium, and yttrium oxide, wherein a complex oxide of the yttrium oxide and hafnium oxide is dispersed in a matrix of the nickel-base alloy, with the aluminum contained. | 06-16-2011 |
| 20120039740 | PROCESSING OF NICKEL-TITANIUM ALLOYS - Processes for producing a nickel-titanium alloy are disclosed. The processes are characterized by the production of nickel-titanium alloy articles having improved microstructure. A pre-alloyed nickel-titanium alloy is melted and atomized to form molten nickel-titanium alloy particles. The molten nickel-titanium alloy particles are cooled to form nickel-titanium alloy powder. The nickel-titanium alloy powder is consolidated to form a fully-densified nickel-titanium alloy preform that is hot worked to form a nickel-titanium alloy article. Any second phases present in the nickel-titanium alloy article have a mean size of less than 10 micrometers measured according to ASTM E1245-03 (2008) or an equivalent method. | 02-16-2012 |
| 20120100036 | METHOD OF MANUFACTURING ULTRA FINE METAL POWDER AND ULTRA FINE METAL POWDER MANUFACTURED BY THE SAME - Disclosed are a method of manufacturing ultra fine metal powder used for an electrode for an MLCC and ultra fine metal powder manufactured by the same. The method of manufacturing ultra fine metal powder includes: preparing a master mold in which a pattern is formed; forming a sacrificial layer by applying a polymer material on the pattern; forming a metal layer on the sacrificial layer; and forming individual ultra fine metal powder by removing the sacrificial layer and separating the metal layer from the master mold. | 04-26-2012 |
| 20120171071 | Ni3(Si, Ti)-BASED INTERMETALLIC COMPOUND TO WHICH Ta IS ADDED - The present invention provides a structural material having excellent hardness (strength) characteristics. | 07-05-2012 |
| 20140093419 | MOLD MADE OF NICKEL-PHOSPHORUS ALLOY - A nickel-phosphorus alloy is consisted of nickel and phosphorus. The weight percent of the nickel element is from about 86.95% to about 87.05%. The weight percent of the phosphorus element is from about 12.95% to about 13.05%. | 04-03-2014 |
| 20140119978 | METAL NANO PARTICLE AND METHOD FOR SURFACE TREATING THE SAME - Disclosed herein is a method for surface treating metal nano particles, including: surface treating metal nano particles with an alkanol amine containing solution. | 05-01-2014 |
| 20140134041 | DISPERSION LIQUID CONTAINING METAL NANOWIRES, AND CONDUCTIVE FILM - A dispersion liquid contains metal nanowires of excellent dispersion stability, and a conductive film that is formed using the dispersion liquid. This dispersion liquid is a dispersion liquid that contains metal nanowires. The metal nanowires are 10-200 nm in diameter, the coefficient of variation in diameter being less than 30%, and the ratio of the length to the diameter (length/diameter) being 10 or greater. The metal nanowires are metal members having as the principal constituent at least one metal selected from the group consisting of gold, nickel, and copper. | 05-15-2014 |
| 20140255246 | MEDICAL DEVICE HAVING NIOBIUM NITINOL ALLOY - Guide wire devices and other intra-corporal medical devices fabricated from a Ni—Ti—Nb alloy and methods for their manufacture. The Ni—Ti alloy includes nickel, titanium, and niobium either up to its solubility limit in Ni—Ti, or in amounts over 15 atomic percent so as to provide a dual phase alloy. In either case, the Ni—Ti—Nb alloy provides increased stiffness to provide better torque response, steerability, stent scaffolding strength, and similar properties associated with increased stiffness, while still providing super-elastic or linear pseudo-elastic properties. | 09-11-2014 |
| 20150050181 | FLUXING METHOD TO REVERSE THE ADVERSE EFFECTS OF ALUMINUM IMPURITIES IN NICKEL-BASED GLASS-FORMING ALLOYS - A fluxing method is disclosed by which the melt of aluminum-contaminated Ni-based glass-forming alloys is fluxed using a fluxing agent based on boron and oxygen in order to reverse the adverse effects of aluminum impurities on the glass-forming ability and toughness. | 02-19-2015 |
| 20150064057 | METHODS FOR PRODUCING NIO NANOPARTICLE THIN FILMS AND PATTERNING OFNI CONDUCTORS BY NIO REDUCTIVE SINTERING AND LASER ABLATION - A method for producing a nickel-containing surface coating that is metallic and conductive is provided. The method includes contacting a surface of a substrate with a liquid composition that includes nickel oxide nanoparticles, and modifying the nickel oxide nanoparticles to produce a nickel-containing metallic and conductive surface coating on the surface of the substrate. Also provided are nickel-containing (e.g., NiO and Ni containing) surface coatings and methods for making a liquid composition that includes nickel oxide nanoparticles. The methods and compositions find use in a variety of different applications. | 03-05-2015 |
| 20150345026 | High Phosphorus Electroless Nickel - An electroless nickel plating bath comprising: i) a source of nickel ions; ii) an effective amount of thiourea; iii) an effective amount of saccharin; iv) a source of hypophosphite ions; v) one or more chelating agents; and vi) optionally, other additives and a method of using the same to provide a high phosphorus electroless nickel plating deposit on a substrate. The high phosphorus electroless nickel deposit is capable of passing an RCA nitric acid test, whereby the substrate with the high phosphorus nickel deposit thereon is immersed into concentrated nickel acid for 30 seconds and a deposit that does not turn black or grey is deemed to have passed the RCA nitric acid test. | 12-03-2015 |
| 20160076150 | ROLL-TO-ROLL ELECTROLESS PLATING SYSTEM WITH SPREADER DUCT - A roll-to-roll electroless plating system including a sump and a pan containing a plating solution. A web advance system advances a web of substrate though the plating solution in the pan along a web advance direction, wherein a plating substance in the plating solution is plated onto predetermined locations on a surface of the web of substrate. A pan-replenishing pump moves plating solution from the sump to an inlet of the pan through a pipe connected to an outlet of the pan-replenishing pump, the inlet of the pan being located below the web of substrate. A spreader duct includes a channel that is in fluidic communication with the inlet of the pan, wherein the channel is positioned below the web of substrate and includes at least one outlet disposed beyond the first edge or the second edge of the web of substrate. | 03-17-2016 |
