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JP5827956B2 |
A method for manufacturing a straight insert intended to be incorporated in a metal container by HIC includes placing coated wires in a rectilinear juxtaposition over a predefined length in a straight gutter-shaped tool and joining the c...
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JP2015203155A |
To provide a nanocarbon-reinforced aluminum composite material and a method of manufacturing the same.The method of manufacturing a nanocarbon-reinforced aluminum composite material is characterized in that composite powder in which cera...
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JP2015120626A |
To provide an efficient production method for copper-carbon fiber composite in which carbon fibers are grown from the surface of copper alloy particles.The production method for copper-carbon fiber composite comprises: a step of preparin...
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JP5724373B2 |
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JP5697045B2 |
A composite electric cable including a plurality of element wires twisted together. The element wires include a material wire formed of a composite material containing an aluminum material and carbon nanotubes dispersed in the aluminum m...
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JP2015048488A |
To provide a high intensity Ti material.There is provided a Ti/TiC composite material in which substantially no carbon simple substance exists in the TiC and 0.3 mass% or more oxygen is dissolved as a solid-solution in the composite mate...
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JP2015028203A |
To provide an inorganic fiber-containing clad material imparted with lightness characteristics of aluminum and adiabaticity of an inorganic fiber.An inorganic fiber-containing clad material 1 is cladded with an inorganic fiber sheet 3 ha...
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JP5657392B2 |
The invention relates to a method for making a metal part that comprises a reinforcement (15) made of ceramic fibers. The method comprises the following steps: forming at least one annular-shaped insert (15) by assembling a bundle of met...
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JP5639329B2 |
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JP2014141746A |
To provide a composite material for heat release which contains a metal matrix and a fine carbon based filler and has suitably improved thermal conductivity.A method of producing a composite material for heat release comprising a metal m...
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JP5560189B2 |
The process for manufacturing a mechanical component (10), comprises fabricating a draft of insert by winding a beam or a sheet linked with coated wire (32) around a rotating polygonal component, inserting the draft in a first container,...
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JP2014517143A |
The invention first relates to a feedstock for PIM, including a metal or ceramic powder; a polymeric binder; metallic or ceramic fibers or nanofibers, the fibers or nanofibers being metallic when the powder is metallic, and the fibers or...
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JP5539222B2 |
A process for manufacturing a metal part reinforced with ceramic fibers, in which: a housing for an insert is machined in a metal body having an upper face; an insert formed from a fiber bundle having a metal matrix is placed in the hous...
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JP5535649B2 |
A fibre composite material having a metal matrix includes a fibre material having individual fibres. A metal coating includes a metallization layer disposed on the individual fibres so as to surround the fibres. A metal final layer is di...
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JP5537004B2 |
Electrochemically deposited indium composites are disclosed. The indium composites include indium metal or an alloy of indium with one or more ceramic materials. The indium composites have high bulk thermal conductivities. Articles conta...
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JP5527328B2 |
An object of the present invention is to provide an aluminum foil that can make a positive electrode current collector thinner for size reduction and higher energy density of electrical storage devices, be produced easily and has a low s...
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JP5512667B2 |
A process for manufacturing a metal part reinforced with ceramic fibers including machining at least one housing for an insert in a metal body having an upper face. At least one insert formed from ceramic fibers in a metal matrix is plac...
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JP5512666B2 |
A method for producing a metallic part including inner reinforcements of ceramic fibers, according to which: at least one recess for an insert is machined in a metallic body having an upper surface; at least one insert of ceramic fibers ...
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JP5500710B2 |
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JP2014077154A |
To provide, by targeting a metal-ceramic composite obtained by inducing the infiltration, in a non-compressed state, of a metal provided as a matrix into a preform including a ceramic as a reinforcement, a method for manufacturing a meta...
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JP2014065945A |
To provide a composite material in which cracks and metal veins upon infiltration of a molten material are prevented, and cleavages caused thereby are hard to occur, and a method for producing the same.A composite material 10 comprises: ...
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JP5463563B2 |
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JP5467782B2 |
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JP5462537B2 |
A composite metal object comprises ductile crystalline metal particles in an amorphous metal matrix. An alloy is heated above its liquidus temperature. Upon cooling from the high temperature melt, the alloy chemically partitions, forming...
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JP5456995B2 |
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JP5448095B2 |
To provide a composite metal material including titanium as a base material, excellent in electrical conductivity and usable for the separator for fuel cell or the like, and to provide a method for production thereof.The composite metal ...
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JP2014043635A |
To provide a highly reliable composite material which suppresses separation occurring on a boundary surface between carbon fibers and a matrix metal, and has high electric conductivity, and to provide a method for manufacturing the same....
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JP5437616B2 |
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JP2014040638A |
To provide a material composed of tungsten or tungsten alloy as a matrix, having high fracture toughness even under a neutron irradiation environment or in a temperature region over a recrystallization temperature.A composite material co...
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JP5436510B2 |
In a copper-based slide member in which needle-shaped Mn—Si based compounds are dispersed in a brass structure, 50% or more of a total number of the needle-shaped Mn—Si based compounds having lengths of 50 μm or more in a major axis...
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JP5414997B2 |
The method involves fixing coated wires (2) of an annular bundle (2') of non-integrated wires near an end of a spindle shaped support part (7) by a fixation unit, where each wire has a ceramic fiber covered with a metallic sheath. An ass...
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JP5388654B2 |
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JP5384372B2 |
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JP2013544959A |
A method of fabricating a part, for example a reinforcing edge for a turbomachine blade, the method including: making at least one fiber structure by three-dimensionally weaving metal yarns; and subjecting the fiber structure to hot isos...
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JP5364905B2 |
An object of the present invention is to provide a metal-based carbon fiber composite material that exhibits an improved thermal expansion coefficient and an improved thermal conductivity, and is smaller in weight. The metal-based carbon...
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JP5362394B2 |
To provide a method for producing a preform for a composite material, upon impregnation of a molten metal, which can suppress seizure between the molten metal and a core, and to provide a method for producing a metal composite body obtai...
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JP5363418B2 |
To provide a technology that can manufacture a compound material with high thermal conductivity in which high thermal conductivity performance is maintained well.A mixed material 16 of a matrix metal 14 and a carbon fiber 15 as shown in ...
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JP5345738B2 |
According to the present invention, there is produced at least one of a center electrode or a ground electrode, the electrode including a core formed of a composite material containing a matrix metal, the matrix metal being copper or a m...
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JP5336000B2 |
According to the present invention, at least one of a center electrode or a ground electrode is produced by mixing a matrix metal with carbon so that the carbon content of the resultant mixture is adjusted to 80 vol.% or less; subjecting...
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JP2013212972A |
To provide a method (700) for applying a barrier coating (242) to a component (100).There is provided a method (700) including a step (701) of providing a component (100) and a step (703) of preparing a mixture-containing slurry (250). T...
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JP5296438B2 |
Disclosed is a method of encapsulating a carbon material within aluminum, the method including the steps of: (i) functionalizing a carbon material by introducing a defect therein; (ii) mixing the functionalized carbon material with alumi...
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JP5296439B2 |
Disclosed is a method for covalent bond formation between aluminum and a carbon material. More specially, there is provided a method of forming an Al-C covalent bond between aluminum and a carbon material by applying an electric arc to a...
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JP5288441B2 |
This invention provides a composite material that can effectively utilize the properties of a metal powder base material per se or further added ceramic, and ceramic base material per se, and excellent electric conductivity and thermal c...
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JP5270693B2 |
A process for manufacturing a metal part reinforced with ceramic fibers, in which: a housing is formed for an insert in a main metal body having an upper face; an insert formed from a bundle of fibers with a metal matrix is placed in the...
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JP5265857B2 |
The tubular component manufacturing process includes a stage in which a layer (21) of coated filaments is wrapped round a metal mandrel (24). Each filament comprises a ceramic fiber coated with metal and bonded together at welded points,...
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JP2013151781A |
To provide an improved TMC wire/fiber ring array that is capable of clearly arranging each composition in any of layers, and a method for manufacturing the same.A manufacturing apparatus for manufacturing a wire/fiber array includes: a r...
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JP5254978B2 |
The present invention relates to a composite sintering materials using a carbon nanotube (including carbide nano particles, hereinafter the same) and a manufacturing method thereof, the method comprises the steps of: combining or generat...
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JP5250785B2 |
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JP5229934B2 |
The heat conductivity of an aluminum composite material containing a fibrous carbon material is enhanced. In order to realize this, a spark plasma sintered body having a fibrous carbon material compounded in a metal matrix powder of alum...
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JP5229936B2 |
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