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US20140079583 |
TITANIUM TUNGSTEN ALLOYS PRODUCED BY ADDITIONS OF TUNGSTEN NANOPOWDER
Disclosed herein are titanium-tungsten alloys and composites wherein the tungsten comprises 0.5% to 40% by weight of the alloy. Also disclosed is a method of making such alloys and composites... |
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US20070264501 |
MULTI-PHOTON REACTIVE COMPOSITIONS WITH INORGANIC PARTICLES AND METHOD FOR FABRICATING STRUCTURES
A multi-photon reactive composition including: (a) at least one reactive species; and (b) multi-photon photoinitiator system; and (c) a plurality of substantially inorganic particles, wherein the... |
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US20100054981 |
MAGNETIC NANOPARTICLES, BULK NANOCOMPOSITE MAGNETS, AND PRODUCTION THEREOF
Provided herein are systems, methods, and compositions for magnetic nanoparticles and bulk nanocomposite magnets. |
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US20160339517 |
POWDERS FOR ADDITIVE MANUFACTURING
A precursor for additive manufacturing includes a powder of metallic particulates, each particulate having a metal core having mean diameters between 10 and 150 μm, the metal core having a first... |
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US20120114961 |
BULK NANOCOMPOSITE THERMOELECTRIC MATERIAL, NANOCOMPOSITE THERMOELECTRIC MATERIAL, AND METHOD OF PREPARING THE BULK NANOCOMPOSITE THERMOELECTRIC MATERIAL
A bulk nanocomposite thermoelectric material including: a plurality of grains of a thermoelectric material; and a metal nanolayer on a boundary of the plurality of grains, wherein the metal... |
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US20130209308 |
METHOD OF MAKING A METALLIC POWDER AND POWDER COMPACT AND POWDER AND POWDER COMPACT MADE THEREBY
A method of making a nanoscale metallic powder is disclosed. The method includes providing a base material comprising a metallic compound, wherein the base material is configured for chemical... |
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US20120326097 |
Half-Heusler Alloys with Enhanced Figure of Merit and Methods of Making
Thermoelectric materials and methods of making thermoelectric materials having a nanometer mean grain size less than 1 micron. The method includes combining and arc melting constituent elements of... |
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US20100206724 |
Method of Producing Sintered Compact, Sintered Compact, Sputtering Target Formed from the same, and Sputtering Target-Backing Plate Assembly
Provided is a method of producing a sintered compact including the steps of mixing raw material powders respectively composed of a chalcogenide element and a Vb group element or raw material... |
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US20070175296 |
Method of forming conductors at low temperatures using metallic nanocrystals and product
Metallic nanoparticles are provided which can be used in forming metallic film conductors at reduced temperatures compatible with plastic carriers for the film conductors. This is realized by... |
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US20150217371 |
MANUFACTURING METHOD OF COMPACT, MANUFACTURING METHOD OF STRUCTURE, AND CUTTING PROCESSED MATERIAL
A manufacturing method of a compact including pressure molding a composition including a metallic powder and a binder to obtain a green compact in which a relative density of a constituent... |
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US20100240006 |
DENTAL SCALER TIP FOR DENTAL IMPLANT AND MANUFACTURING METHOD OF DENTAL SCALER TIP
Disclosed are a scaler tip for a dental implant using a Powder Injection Molding (PIM) of silver, copper, a silver alloy, or a copper alloy, and a method for manufacturing the scaler tip. The... |
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US20090081067 |
Method of fabricating rare-earth sintered magnet and method of fabricating rare-earth bonded magnet
A method of fabricating a rare-earth based sintered magnet having improved magnetic and mechanical characteristics is offered. Also, a method of fabricating a rare-earth bonded magnet having... |
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US20070092855 |
Molding made from a dental alloy for producing dental parts
A molding can be worked by removing material to produce dental parts of improved mechanical properties is provided, the molding consisting of a dental alloy powder dense-sintered by hot-isostatic... |
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US20060198753 |
METHOD OF MANUFACTURING WICK STRUCTURE FOR HEAT PIPE
A method is disclosed to produce a wick structure for a heat pipe. The wick structure is a sintered powder wick and is produced by sintering process. A group of powders is firstly provided. The... |
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US20160107237 |
PROCESS FOR PRODUCING A CU-CR MATERIAL BY POWDER METALLURGY
A process for producing a Cu—Cr material by powder metallurgy for a switching contact, in particular for vacuum switches, includes the steps of pressing a Cu—Cr powder mixture formed from Cu... |
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US20060099103 |
Metal powder injection molding material and metal powder injection molding method
A novel metal injection molding material contains a) from 40 to 70% by volume of metal powder, including at least 50% by weight, based on the total amount of metal, of an iron-containing powder,... |
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US20160237530 |
MATERIAL PROCESSING FOR COMPONENTS
A method can include producing stock material via equal-channel angular pressing where the stock material includes an alloy that includes an average grain size less than approximately 500... |
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US20100300437 |
MANUFACTURE OF METERED DOSE VALVE COMPONENTS
Use of metal powder injection molding for the manufacture of a metal valve component, such as a valve stem or a valve body, of a metered dose dispensing valve for use in a medicinal pressurized... |
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US20080025866 |
Iron-Based Sintered Alloy, Iron-Based Sintered-Alloy Member and Production Process for Them
An iron-based sintered alloy of the present invention is an iron-based sintered alloy, which is completed by sintering a powder compact made by press forming a raw material powder composed of Fe... |
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US20160303651 |
Magnet Manufacturing Method And Magnet
A magnet manufacturing method has a step of preparing magnetic powder of a hard magnetic material, which includes one or more of an Fe-N-based compound and an R-Fe-N-based compound, a step of... |
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US20150211108 |
SPUTTERING TARGET AND PRODUCING METHOD THEREOF
The sputtering target has a component composition containing Ga: 2 to 30 at %, In: 15 to 45 at %, Na: 0.05 to 15 at % as metal components other than F, S and Se in the sputtering target and the... |
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US20120051919 |
POWDER COMPACT ROTOR FORGING PREFORM AND FORGED POWDER COMPACT TURBINE ROTOR AND METHODS OF MAKING THE SAME
A forging preform for a turbine rotor disk is disclosed. The preform includes a body of a superalloy material having a mass of about 5000 lbs or more, the superalloy material having a... |
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US20110103994 |
METHOD AND APPARATUS FOR PRODUCING A LIGHTWEIGHT METAL ALLOY
A method of forming a metal alloy from a powder composition comprising first particles in a range of approximately 20-90% by weight of the powder composition, the remainder of the powder... |
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US20120015204 |
STAINLESS STEEL ALLOY
Stainless steel alloy composition. The stainless steel alloy composition includes rounded carbides and free chromium in a ferrite matrix. The rounded carbides have particle sizes under 5 microns.... |
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US20150325349 |
HIGH PERFORMANCE PERMANENT MAGNET BASED ON MnBi AND METHOD TO MANUFACTURE SUCH A MAGNET
The invention refers to a method for manufacturing a at least 90% relative density of MnBi comprising permanent magnet (7), with a step of synthesizing (ST1a) an anisotropic low temperature phase... |
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US20070269332 |
Method for Producing Composite Soft Magnetic Material Having High Strength and High Specific Resistance
The present invention relates to composite soft magnetic materials having high strength and high specific resistance and a method of producing such materials by: heating mixture powder having a... |
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US20110064599 |
DIRECT EXTRUSION OF SHAPES WITH L12 ALUMINUM ALLOYS
A method for producing a high strength aluminum alloy brackets, cases, tubes, ducts, beams, spars and other parts containing L12 dispersoids from an aluminum alloy powder containing the L12... |
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US20080170959 |
Full density Co-W magnetic sputter targets
A sputter target is provided with a first elemental phase of a first material, the first material being either cobalt or tungsten, a first intermetallic phase including the first material and a... |
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US20070071631 |
Method for Producing Metallic Components, Corresponding Metallic Components and Kit for Carrying Out the Method
A method is described for producing a metallic component, comprising the following steps: provision of a negative model for the component, which (i) is electrically: conductive or is rendered... |
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US20100108501 |
MO-BASED SPUTTERING TARGET PLATE AND METHOD FOR MANUFACTURING THE SAME
A method for efficiently manufacturing a large-area Mo-based target plate at a high yield is provided. In the manufacturing method, the condition of the content of a trace element and the rolling... |
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US20110243785 |
PRECURSOR FOR THE PRODUCTION OF SINTERED METALLIC COMPONENTS, A PROCESS FOR PRODUCING THE PRECURSOR AND THE PRODUCTION OF COMPONENTS
A precursor for the production of a sintered metallic component includes a core comprising one particle of a first metallic powder having a particle size d90 of at least 50 μm. A shell layer is... |
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US20070138446 |
Nickel powder and method of producing the same
The nickel powder includes nickel particles, in each of which stabber-shaped projections are integrally formed on an outer surface. The nickel particles have diameters of 0.1-10 μm. Each of the... |
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US20140356216 |
SLIP AND PRESSURE CASTING OF REFRACTORY METAL BODIES
In various embodiments, powders with engineered particle-size distributions are slip or pressure casted to produce homogeneous parts without the need for additives such as flocculating or... |
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US20070048167 |
METAL PARTICLES, PROCESS FOR MANUFACTURING THE SAME, AND PROCESS FOR MANUFACTURING VEHICLE COMPONENTS THEREFROM
Metal particles approximately in the form of spheres having a mean diameter of about 40 μm to about 100 μm, including magnesium silicide particles having a mean diameter of about 1 μm to about 10... |
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US20160082511 |
MATERIALS FOR DIRECT METAL LASER MELTING
A nickel alloy for direct metal laser melting is disclosed. The alloy comprising includes a powder that contains about 1.6 to about 2.8 weight percent aluminum, about 2.2 to about 2.4 weight... |
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US20110074530 |
MIXED RARE-EARTH PERMANENT MAGNET AND METHOD OF FABRICATION
A permanent magnet comprises boron, cobalt, a metallic alloy component, about 28-35 weight percent of mixed rare-earth material, and iron as a balance. The metallic alloy component is selected... |
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US20140010700 |
DIRECT EXTRUSION OF SHAPES WITH L12 ALUMINUM ALLOYS
A method for producing a high strength aluminum alloy brackets, cases, tubes, ducts, beams, spars and other parts containing L12 dispersoids from an aluminum alloy powder containing the L12... |
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US20150033894 |
MECHANICAL STRUCTURE COMPONENT, SINTERED GEAR, AND METHODS OF MANUFACTURING MECHANICAL STRUCTURE COMPONENT AND SINTERED GEAR
A sintered gear serving as a mechanical structure component is a mechanical structure component made of a metal sintered body, and includes a base region; and a high density region formed so as to... |
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US20110129379 |
METHOD FOR MANUFACTURING MASSIVE COMPONENTS MADE OF INTERMETALLIC MATERIALS
The invention relates to a method for manufacturing a massive component substantially wholly made of intermetallic material, comprising the steps of: a) preparing a mixture of powders of at, least... |
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US20100003157 |
METALLIC POWDER MIXTURES
The invention relates to mixtures of metal, alloy or composite powders which have a mean particle diameter D50 of not more than 75 μm, preferably not more than 25 μm, and are produced in a process... |
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US20080286141 |
Method for Preparing Nano-Sized Metal Powder Feedstock and Method for Producing Sintered Body Using the Feedstock
A method for preparing a nano-sized metal powder feedstock comprises the steps of preparing a nano-sized metal powder, mixing the metal powder with a solution of an organic binder in a solvent,... |
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US20110236246 |
METHOD OF FABRICATION OF MIXED RARE-EARTH PERMANENT MAGNET
A method of producing a permanent magnet includes: melting boron, cobalt, a metallic alloy component, a mixed rare earth material, and iron together to form a melted alloy and forming a first... |
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US20100226810 |
Process for Manufacturing Metal Particles
Metal particles approximately in the form of spheres having a mean diameter of about 40 μm to about 100 μm, including magnesium silicide particles having a mean diameter of about 1 μm to about 10... |
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US20090129963 |
Sliding Part and Method of Manufacturing the Same
There is provided a sliding part in which a surface coverage ratio of copper in the sliding part increases. A bearing which is the sliding part is formed by filling the raw powder into the filling... |
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US20120180589 |
POWER TRANSMISSION PART
A power transmission part is made of a sintered material obtained by press molding and firing granulated powder obtained by granulating raw material powder having iron as a main component. The... |
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US20090277415 |
CYLINDER CRANKCASE FOR A MOTOR VEHICLE
A quasi-monolithic cylinder crankcase is provided that is cast in a metal permanent mold for an internal combustion engine having an infiltration body penetrating the cylinder crankcase, wherein... |
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US20150130573 |
POWDER CORE, POWDER CORE MANUFACTURING METHOD, AND METHOD FOR ESTIMATING EDDY CURRENT LOSS IN POWDER CORE
An eddy current loss at a frequency of 3,000 Hz is set to less than 150 W/kg by setting a single particle diameter-equivalent diameter dS of soft magnetic metal powder represented by the following... |
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US20150147217 |
NANOCOMPOSITE PERMANENT MAGNETS AND METHOD OF MAKING
An article having a nanocomposite magnetic component and method of forming a nanocomposite magnetic component are disclosed. The article includes a plurality of nanocrystalline flake particles... |
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US20100239855 |
TOOL
Coated metal cutting tools with reduced adhesion weat and improved thermal resistance, processes for making the same and methods of use. |
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US20160151543 |
BIOCOMPATIBLE NANOPHASE MATERIALS
Provided is an implantable composition having a metallic component, the metallic component being made of metal selected titanium, a titanium alloy, and CoCrMo, wherein the metal is formed from... |