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JP4129507B2 |
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JP4119770B2 |
Premixed material was formed by mixing alumina fiber and/or carbon fiber, titanium oxide particle and aluminum powder and was sintered to bind alumina (aluminum oxide), produced by the oxidation-reduction reaction of titanium oxide parti...
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JP4115682B2 |
There is provided a process for producing an intermetallic compound-based composite material containing a reinforcing material and an intermetallic compound. The process includes infiltrating a metal powder into the gaps of a reinforcing...
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JPWO2006088065A1 |
The present invention is characterized in that the heat radiating member is made of a composite material of carbon fibers and copper substantially aligned in one direction, and the metal structure of the copper in the heat radiating memb...
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JP2008144208A |
To provide a fullerene composite manufactured by compounding fullerene with a metal without heating, and to provide a method for manufacturing the same.Disclosed is a fullerene composite manufactured by integrally binding a powder mixtur...
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JP2008144207A |
To provide a carbon nanotube composite manufactured by compounding a carbon nanotube with a metal without heating, and to provide a method for manufacturing the same.Disclosed is a carbon nanotube composite manufactured by integrally bin...
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JPWO2006082962A1 |
Provided is a method for producing a composite particle, which contains fine fibers in the particle and can stably obtain fine composite particles having a spherical shape and a particle size of 1 μm or less. When producing composite pa...
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JP2008144189A |
To obtain a carbon-based contacting plate excellent in wear resistance and also, arc-resistance.This contacting plate is formed from a material composed of the carbon and copper as the main components and further, containing carbon fiber...
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JP4108648B2 |
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JP4106395B2 |
A method is provided for producing a metal-based carbon fiber composite material lightweight, high in the thermal conductivity and also capable of controlling the direction of heat flow, while inhibiting metal carbide formation. The meth...
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JP4091551B2 |
To provide a dispersion technique where carbon nanofibers are satisfactorily dispersed into metal powder. The production method comprises: a stage where a gel-like dispersion liquid obtained by adding borax to polyvinylalcohol aqueous so...
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JP4089460B2 |
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JP4086506B2 |
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JP4084793B2 |
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JP4081426B2 |
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JP4080053B2 |
To prevent an inorganic structural body from being broken by arranging a fibrous inorganic material adjacently to the porous inorganic structural body, impregnating a metal therein by the high-pressure casting method or the molten metal ...
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JP4072984B2 |
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JP4074117B2 |
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JP2008069403A |
To provide a heat-resistant alloy having a coating structure superior in anti-oxidation, by suppressing the peeling of a surface oxide layer for intercepting oxygen from the alloy and the progress of oxidation.In the anti-oxidation coati...
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JP4067165B2 |
To obtain a machinable metal/inorganic fiber composite excellent in plating suitability and also to provide a heat sink free from occurrence of solder crack and deterioration in adhesion to a radiation fin. The composite material is form...
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JP2008056950A |
To provide a silver composite material excellent in durability and electric conductivity, and a producing method thereof.In the silver composite material mainly containing the silver and carbon fibers, the silver composite material has t...
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JP4053110B2 |
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JP4051720B2 |
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JP4053729B2 |
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JP4052789B2 |
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JP4051141B2 |
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JP4048581B2 |
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JP4046950B2 |
An apparatus for coating a fiber-reinforced metal matrix composite wire includes an entering orifice provided at an inlet for inserting inorganic fiber bundles, an exit orifice provided at an outlet for inserting the inorganic fiber bund...
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JP4030299B2 |
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JPWO2005070825A1 |
The subject of the present invention is that carbon nanotubes, which are difficult to handle due to their high hardness but extremely small diameter and extremely large aspect ratio, can be practically dispersed evenly and easily handled...
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JP4019123B2 |
To provide a carbon fiber Ti—Al composite material having hardness, heat resistance and abrasion resistance, having reduced weight, improved strength, elastic modulus and thermal conductivity and being excellent in the uniformity of th...
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JP2007302931A |
To efficiently manufacture a large composite material with a complicated shape when manufacturing a metal-ceramics composite material by a high pressure casting process. The method for manufacturing the metal-ceramics composite material ...
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JP2007291432A |
To provide a carbon fiber reinforced metal matrix composite material excellent in thermal conductivity which can be tightly joined to its peripheral region and in which pitch-based carbon fibers, carbon nanotubes, etc., are used and also...
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JP2007291449A |
To provide a method where, when a metal-ceramic composite material is produced by a high pressure casting process, the generation of shrinkage cavities upon solidification is reduced, and a metal-ceramic composite material having reduced...
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JP2007291438A |
To provide a method for producing a magnesium alloy having carbon uniformly dispersed. The method for producing the carbon-containing magnesium alloy comprises the steps of: preparing a master batch by mixing at least one material among ...
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JP4005058B2 |
A method of producing a carbon fiber composite material including: mixing an elastomer which includes an unsaturated bond or a group having affinity to carbon nanofibers with metal particles; and dispersing the carbon nanofibers into the...
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JP4001291B2 |
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JP4002294B2 |
To provide a carbon fiber Ti—Al composite material having hardness, heat resistance and abrasion resistance, having reduced weight and improved strength and thermal conductivity and being excellent in uniformity of the quality. A carbo...
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JP3999988B2 |
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JP2007268586A |
To provide a method for manufacturing fiber reinforced metal, which method can manufacture a composite material at a required portion even when the density of a reinforcing fiber preform is lower than that of molten metal, and further to...
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JP2007270340A |
To provide a method for manufacturing a large-sized metal-ceramic composite material capable of suppressing the occurrence of a crack and enhancing a manufacturing yield. The metal-ceramic composite material 10 of which the principal sur...
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JP2007254886A |
To provide a metal/fine carbon fiber composite material having a high thermal conductivity in which the characteristics of fine carbon fiber are made the most. Regarding the composite material obtained by a process including the followin...
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JP3985036B2 |
To provide a zirconium aluminide reinforced composite material synthesized by the reaction between zirconia ZrO2 particles and aluminum and exhibiting high speed superplasticity and to provide a method for producing the same. This zircon...
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JP3986615B2 |
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JP2007247056A |
To provide composite particles which can improve adhesiveness to a resin, etc., and a production method therefor. The production method for the composite particles comprises producing the composite particles by adding a nickel compound w...
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JP3974646B2 |
To provide a fine carbon fiber/metal composite material having high mechanical strength, a high thermal conductivity and a low coefficient of thermal expansion and suitable as a substrate for an electronic device. A fine carbon fiber/met...
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JP2007224359A |
To provide metal matrix composite powder, even when nanocarbon fibers represented by carbon nanotubes or the like are used as reinforcing fibers, in which these reinforcing fibers can be uniformly dispersed/oriented into a metal matrix a...
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JP3962779B2 |
To enable both the adoption of an easy and low-cost method such as a mixing step for dispersing an alumina-silica-based fiber and a solid lubricant in water and mixing both and further the production of a preform in which suppressing eff...
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JP2007204839A |
To provide a method for producing a fiber-reinforced metal matrix composite having superior isotropy, by three-dimensionally and uniformly distributing short fibers in a matrix metal, and to provide the fiber-reinforced metal matrix comp...
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JP3947918B2 |
To provide a metal sintered compact which has no sintering failure, besides having high density, dimensional accuracy, and a uniform density and/or structure even for the compact with a high aspect ratio, and to provide a manufacturing m...
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