Abstract

22) discharged in a furnace method in which a secondary raw material is used as a raw material hydrocarbon, this method for producing carbon black is characterized in that, using a reaction furnace for carbon black production in which a fuel combustion zone, a primary raw material introduction zone, a heating zone, and a secondary raw material introduction zone are provided sequentially from the upstream side toward the downstream direction of a gas flow path: an oxygen-containing gas and fuel are introduced into the fuel combustion zone, mixed, and combusted to generate a fuel combustion gas flow; a hydrocarbon that serves as the primary raw material is introduced while the fuel combustion gas is introduced into the primary raw material introduction zone, and a primary-reactant-containing gas is generated; the primary-reactant-containing gas is then electrically heated in the heating zone; and a hydrocarbon that serves as the secondary raw material is then introduced while the electrically heated primary-reactant-containing gas is introduced into the secondary raw material introduction zone to carry out a secondary reaction.

IPC Classes  ?

• C09C 1/48 - Carbon black

Abstract

This method for producing modified recycled carbon black is characterized by involving a main burner modification step in which main burner fuel, an oxygen-containing gas, and a recycled carbon black raw material are continuously supplied to a main burner generating flames by burning fuel, to burn the main burner fuel, and while continuously generating flames by the main burner, the recycled carbon black raw material is introduced into the flames and allowed to pass through the flames, wherein the total carbon burning rate of the main burner represented by formula (1) is less than 100.0%. Formula (1): main burner total carbon burning rate (%) = (A/(B + C)) × 100. According to the present invention, it is possible to provide a method for producing modified recycled carbon black, the method being capable of effectively removing rubber residues attached to a surface of a recycled carbon black raw material and being able to be continuously performed.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers

Abstract

22SA is 50 m2/g to 250 m2/g; and when the peak intensity of a peak having a peak top in the range of 1350±20 cm-1in a Raman spectrum obtained by measurement using laser Raman spectroscopy at an excitation wavelength of 532 nm is 100, the peak intensity of a peak having a peak top in the range of 1580±20 cm-1 is 84 to 111. According to the present invention, it is possible to provide recycled carbon black that bonds strongly to rubber components and has high rubber product-reinforcing properties.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers

Goods & Services

Carbon black for industrial purposes; carbon; silicon carbide; carbides; chemical intensifiers for rubber; chemicals; carburizing agents; graphite; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions for sintering Carbon black as pigment; pigments for color inks; pigments; paints; printing ink Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; moulds (parts of machines); elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; solar cell manufacturing machines and apparatus and their parts and fittings Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; electric resistors and their parts and fittings; silicon carbide wafers; semi-conductor wafers; sounding rocket and their parts and fittings; satellites and their parts and fittings Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for industrial use, except for laboratory use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines Carbon heat resistant brick; refractory products for industrial furnaces; carbon heat resistant materials used as building or construction materials; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials; carbon semi-worked materials; silicon carbide semi-worked materials; mineral semi-worked materials

Abstract

200, a 311, a 111 and a 220200, a 311, a 111 and a 220XYZXYZ111200220311XYZ111200220311200200311311311 in the second main surface is 10.0% or less is satisfied. The polycrystalline SiC molded article has excellent flatness. Also provided is a method for producing the polycrystalline SiC molded article.

IPC Classes  ?

• C23C 16/42 - Silicides
• C30B 29/36 - Carbides
• H01L 21/205 - Deposition of semiconductor materials on a substrate, e.g. epitaxial growth using reduction or decomposition of a gaseous compound yielding a solid condensate, i.e. chemical deposition

Abstract

The purpose of the present disclosure is to provide a SiC molded article having low resistance, and a method for manufacturing the SiC molded article.　The present disclosure provides a SiC molded article which has a volume resistivity of not more than 7.0×10-3Ω･cm, and which has a nitrogen concentration of greater than 1,000 ppm and not more than 4,500 ppm.

IPC Classes  ?

• C23C 16/42 - Silicides

Abstract

The present invention addresses the problem of providing: a polycrystalline SiC molded article that has a small volume resistivity despite having a small crystal grain size; and a method for producing the same. The present invention provides a polycrystalline SiC molded body in which the average crystal grain size of 5 μm or less, a nitrogen concentration of 2.7×1019 to 5.4×1020 (pcs./cm3), and the product of the carrier density×Hall mobility of 4.0×1020 to 6.0×1021 (pcs./cmVsec).

IPC Classes  ?

• C30B 29/36 - Carbides
• C30B 28/14 - Production of homogeneous polycrystalline material with defined structure directly from the gas state by chemical reaction of reactive gases

Abstract

22SA) of 50-150 m2/g, a DBP absorption quantity of 205-300 mL/100 g, and a full width at half maximum ΔD of a Raman scattering peak appearing in the range 1340-1360 cm-1when 532 nm is the excitation wavelength of 100-260 cm-1 is used as the conductive carbon black.

IPC Classes  ?

• C09C 1/50 - Furnace black
• H01B 1/04 - Conductors or conductive bodies characterised by the conductive materialsSelection of materials as conductors mainly consisting of carbon-silicon compounds, carbon, or silicon
• H01M 4/13 - Electrodes for accumulators with non-aqueous electrolyte, e.g. for lithium-accumulatorsProcesses of manufacture thereof
• H01M 4/62 - Selection of inactive substances as ingredients for active masses, e.g. binders, fillers

Abstract

A graphite electrode includes a pole having a socket in an internal screw shape at an end portion, and a nipple in an external screw shape that can be fastened to the socket, wherein a value obtained by subtracting an effective diameter on a small diameter end side of the nipple from an effective diameter on a small diameter end side of the socket is 0.05 to 0.7 mm, and a value obtained by subtracting a taper angle of the socket from a taper angle of the nipple is −2 minutes to −3 minutes 30 seconds.

IPC Classes  ?

• H05B 7/10 - Mountings, supports, terminals, or arrangements for feeding or guiding electrodes
• H05B 7/085 - Electrodes non-consumable mainly consisting of carbon

Abstract

To provide carbon black that further improves the electrical insulating property and mechanical strength of rubber, and a method for producing the same.　Carbon black having a strong acid group concentration of 0.50×10-5222SA) and IA of 1.20×103to 1.50×103m2/g, and a DBP absorption level of 130-150 cm3/100 g.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C09C 1/48 - Carbon black
• C09C 3/04 - Physical treatment, e.g. grinding, treatment with ultrasonic vibrations

Abstract

Provided are a polycrystalline SiC compact capable of achieving uniform plasma etching when used as electrodes and a method for manufacturing the same. A polycrystalline SiC compact has a major surface in which Wa (0 to 10 mm) is 0.00 to 0.05 m or less, Wa (10 to 20 mm) is 0.13 μm or less, and Wa (20 to 30 mm) is 0.20 μm or less.

IPC Classes  ?

• H01J 37/32 - Gas-filled discharge tubes
• B24B 7/22 - Machines or devices designed for grinding plane surfaces on work, including polishing plane glass surfacesAccessories therefor characterised by a special design with respect to properties of the material of non-metallic articles to be ground for grinding inorganic material, e.g. stone, ceramics, porcelain

Abstract

The present invention provides: a polycrystalline SiC molded article that has low resistivity and little variation in resistivity in the thickness direction thereof; and a method for producing the polycrystalline SiC molded article. The polycrystalline SiC molded article has a resistivity or not more than 0.050 Ωcm. When "A" is defined as the peak intensity in the range of a wavenumber of 950-970 cm-1in a Raman spectrum, and "B" is defined as the peak intensity in the range of a wavenumber of 780-800 cm-1 in a Raman spectrum, the average value of a peak intensity ratio (A/B) is not more than 0.040. The difference between the average peak intensity ratio of a growth face side and the average peak intensity ratio of a substrate face side is not more than 0.040.

IPC Classes  ?

• C23C 16/42 - Silicides
• C01B 32/977 - Preparation from organic compounds containing silicon

Abstract

−1.

IPC Classes  ?

• C08K 3/04 - Carbon
• C09C 1/50 - Furnace black
• C09C 1/58 - Agglomerating, pelleting, or the like by wet methods

Abstract

The present invention addresses the problem of providing: a polycrystalline SiC molded article that has a small volume resistivity despite having a small crystal grain size; and a method for producing the same. The present invention provides a polycrystalline SiC molded body in which the average crystal grain size is 5 μm or less, the nitrogen concentration is 2.7 × 1019to 5.4 × 1020(pcs./cm3), and the product of the carrier density × the hole mobility is 4.0 x 1020to 6.0 × 1021 (pcs./cmVsec).

IPC Classes  ?

• C23C 16/32 - Carbides

Abstract

The present invention addresses the problem of providing a technology with which, in a sintered metal friction material with reduced copper content, agglomerates are less likely to occur during manufacturing, the strength of a molded body can be maintained, and wear can be suppressed during use. The present invention provides a sintered metal friction material, which is a sintered material of a friction material composition, wherein: the friction material composition comprises 42-95 mass% of matrix metal powder; the matrix metal powder includes 20-40 mass% of iron powder with respect to the mass of the friction material composition, and 20-40 mass% of nickel powder with respect to the mass of the friction material composition; the copper content of the friction material composition is at most 0.5 mass%; and the nickel powder includes spherical nickel powder and chain-like nickel powder.

IPC Classes  ?

• B22F 7/00 - Manufacture of composite layers, workpieces, or articles, comprising metallic powder, by sintering the powder, with or without compacting
• C22C 30/00 - Alloys containing less than 50% by weight of each constituent
• C22C 30/04 - Alloys containing less than 50% by weight of each constituent containing tin or lead
• C22C 30/06 - Alloys containing less than 50% by weight of each constituent containing zinc
• F16D 69/02 - Composition of linings
• B22F 1/00 - Metallic powderTreatment of metallic powder, e.g. to facilitate working or to improve properties
• B22F 1/05 - Metallic powder characterised by the size or surface area of the particles
• B22F 1/06 - Metallic powder characterised by the shape of the particles
• B22F 1/065 - Spherical particles
• C09K 3/14 - Anti-slip materialsAbrasives
• C22C 1/05 - Mixtures of metal powder with non-metallic powder

Abstract

22SA) of not less than 20 (m2/g) but less than 50 (m2/g), a DBP absorption of not less than 120 ml/100 g but less than 150 ml/100 g, a γab Della, which is the polar component of the surface free energy, of 20 mJ/m2to 40 mJ/m2, and a strongly acidic group concentration of 0.2 µmol/m2to 0.6 µmol/m2.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C08L 21/00 - Compositions of unspecified rubbers
• C08K 3/04 - Carbon
• C09C 1/48 - Carbon black

Abstract

A polycrystalline SiC molded body comprising a first structure and a second structure, wherein the polycrystalline SiC molded body is plate-shaped and has a substantially flat main surface, the first structure is a polycrystalline SiC having a 3C-type crystal structure, the second structure is different from the first structure, in the first structure, the (111) plane, (200) plane, (220) plane, or (311) plane is oriented along a direction substantially normal to the main surface of the polycrystalline SiC molded body, the area fraction of the first structure in the main surface is more than 0% and less than 50%, the average crystal grain size is 5 μm or less, and in the X-ray diffraction pattern on the main surface, the ratio of the X-ray diffraction peak intensity of the SiC (111) plane to the total X-ray diffraction peak intensity of SiC (111) plane, SiC (200) plane, SiC (220) plane, and SiC (311) plane is 0.8 or more.

IPC Classes  ?

• C30B 29/36 - Carbides
• C04B 41/87 - Ceramics
• C04B 41/91 - After-treatment of mortars, concrete, artificial stone or ceramicsTreatment of natural stone of only ceramics involving the removal of part of the materials of the treated articles, e.g. etching
• C23C 16/32 - Carbides

Abstract

22SA of 80 to 250 m2/g, a DBP oil absorption amount of 140 to 200 ml/100 g and an acidic hydroxyl group amount of 300 to 1200 μmol/g, in which the average particle diameter of the oxidized carbon black is preferably 100 to 300 nm.

IPC Classes  ?

• C09D 5/24 - Electrically-conducting paints
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C09D 201/00 - Coating compositions based on unspecified macromolecular compounds
• C09D 7/61 - Additives non-macromolecular inorganic
• C09C 1/56 - Treatment of carbon black

Abstract

A wafer lift pin for lifting a silicon wafer mounted on a susceptor, the wafer lift pin being inserted to be vertically movable in an insertion hole of the susceptor inside a semiconductor manufacturing device. The wafer lift pin has a rod-shaped base made of glassy carbon, and an SiC film that is formed using the CVD method and that coats the surface of the base. At least a part sliding along the inside of the insertion hole of the susceptor is coated by the SiC film. When the surface of the SiC film is observed using a scanning electron microscope, all the surfaces of the wafer lift pin in the observation field are coated with SiC particles, and in the observation field, the ratio of the observation area of SiC small particles for which the particle diameter is 2.00 µm or less with respect to the total coating area of the SiC film is 50% or greater, and the part in contact with the silicon wafer is not coated by the SiC film. According to the present invention, it is possible to provide a wafer lift pin that is not susceptible to cracking of the SiC film due to the difference in the coefficient of thermal expansion between the SiC film and the glassy carbon during cooling after SiC film formation.

IPC Classes  ?

• H01L 21/205 - Deposition of semiconductor materials on a substrate, e.g. epitaxial growth using reduction or decomposition of a gaseous compound yielding a solid condensate, i.e. chemical deposition

Abstract

Provided is a polycrystalline SiC molded body capable of realizing uniform plasma etching when used as an electrode, and a method for manufacturing same.　This polycrystalline SiC molded body, wherein Wa (0-10 mm) of a main surface is 0.00-0.05 μm or less, Wa (10-20 mm) is 0.13 μm or less, and Wa (20-30 mm) is 0.20 μm or less.

IPC Classes  ?

• C23F 4/00 - Processes for removing metallic material from surfaces, not provided for in group or
• C04B 41/87 - Ceramics
• C01B 32/977 - Preparation from organic compounds containing silicon
• C30B 29/36 - Carbides
• C23C 16/42 - Silicides
• H01L 21/3065 - Plasma etchingReactive-ion etching

Goods & Services

(1) Carbon black for industrial purposes; carbon; silicon carbide; carbides; chemical intensifiers for rubber; chemicals; carburizing agents; graphite; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; non-metallic minerals; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions for sintering. (2) Carbon black as pigment; pigments for color inks; pigments; paints; printing ink. (3) Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; chemical processing machines and apparatus and their parts and fittings; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; moulds [parts of machines]; metalworking machines and tools and their parts and fittings; machines for the metallurgy industry and their parts and fittings; construction machines and their parts and fittings; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; non-electric prime movers, not for land vehicles, and their parts and fittings; parts of non-electric prime movers for land vehicles; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; machine elements, not for land vehicles; solar cell manufacturing machines and apparatus and their parts and fittings; agricultural machines and agricultural implements and their parts and fittings. (4) Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; power distribution or control machines and apparatus and their parts and fittings; telecommunication machines and apparatus and their parts and fittings; electric resistors and their parts and fittings; apparatus and instruments for conducting, switching, transforming, accumulating, regulating or controlling electricity; silicon carbide wafers; semi-conductor wafers; electronic machines and apparatus and their parts and fittings; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; laboratory apparatus and instruments and their parts and fittings; measuring or testing machines and instruments and their parts and fittings. (5) Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for industrial use, except for laboratory use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines; drying apparatus. (6) Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their parts and fittings; railcars and their parts and fittings; automobiles and their parts and fittings; two-wheeled motor vehicles and bicycles, and their parts and fittings. (7) Carbon heat resistant brick; refractory products for industrial furnaces; carbon heat resistant materials used as building or construction materials; cement and cement products; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials; carbon semi-worked materials; silicon carbide semi-worked materials; mineral semi-worked materials.

Goods & Services

(1) Carbon black for industrial purposes; carbon; silicon carbide; carbides; chemical intensifiers for rubber; chemicals; carburizing agents; graphite; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; non-metallic minerals; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions for sintering. (2) Carbon black as pigment; pigments for color inks; pigments; paints; printing ink. (3) Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; chemical processing machines and apparatus and their parts and fittings; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; moulds [parts of machine]; metalworking machines and tools and their parts and fittings; machines for the metallurgy industry and their parts and fittings; construction machines and their parts and fittings; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; non-electric prime movers, not for land vehicles, and their parts and fittings; parts of non-electric prime movers for land vehicles; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; machine elements, not for land vehicles; solar cell manufacturing machines and apparatus and their parts and fittings; agricultural machines and agricultural implements and their parts and fittings. (4) Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; power distribution or control machines and apparatus and their parts and fittings; telecommunication machines and apparatus and their parts and fittings; electric resistors and their parts and fittings; apparatus and instruments for conducting, switching, transforming, accumulating, regulating or controlling electricity; silicon carbide wafers; semi-conductor wafers; electronic machines and apparatus and their parts and fittings; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; laboratory apparatus and instruments and their parts and fittings; measuring or testing machines and instruments and their parts and fittings. (5) Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for industrial use, except for laboratory use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines; drying apparatus. (6) Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their parts and fittings; railcars and their parts and fittings; automobiles and their parts and fittings; two-wheeled motor vehicles and bicycles, and their parts and fittings. (7) Carbon heat resistant brick; refractory products for industrial furnaces; carbon heat resistant materials used as building or construction materials; cement and cement products; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials; carbon semi-worked materials; silicon carbide semi-worked materials; mineral semi-worked materials.

Abstract

Provided is a polycrystalline SiC molded body wherein the resistivity is not more than 0.050 Ωcm and, when the diffraction peak strength in a diffraction angle 2θ range of 33-34° in an X-ray diffraction pattern is regarded as “A” and the diffraction peak strength of the SiC(111) plane in the X-ray diffraction pattern is regarded as “B”, then the ratio (A/B) is not more than 0.018.

IPC Classes  ?

• H01L 29/04 - Semiconductor bodies characterised by their crystalline structure, e.g. polycrystalline, cubic or particular orientation of crystalline planes
• H01L 29/16 - Semiconductor bodies characterised by the materials of which they are formed including, apart from doping materials or other impurities, only elements of Group IV of the Periodic System in uncombined form
• H01L 21/02 - Manufacture or treatment of semiconductor devices or of parts thereof
• C23C 16/32 - Carbides

Abstract

Provided is a polycrystalline SiC molded body wherein the resistivity is not more than 0.050 Ωcm and, when the peak strength in a wave number range of 760-780 cm−1 in a Raman spectrum is regarded as “A” and the peak strength in a wave number range of 790-800 cm−1 in the Raman spectrum is regarded as “B”, then the peak ratio (A/B) is not more than 0.100.

IPC Classes  ?

• C30B 29/36 - Carbides
• C30B 28/14 - Production of homogeneous polycrystalline material with defined structure directly from the gas state by chemical reaction of reactive gases
• C30B 33/06 - Joining of crystals

Abstract

The present invention provides a negative electrode material for lithium ion secondary batteries that have excellent high-rate charge and discharge characteristics and excellent initial efficiency.　A negative electrode material for lithium ion secondary batteries, the negative electrode material being composed of composite graphite particles that are obtained by specific steps, which are: a first coating step for coating graphite oxide particles with an organic binder; a step for forming amorphous carbon particle-adhered graphite oxide particles, in said step amorphous carbon particles being adhered to the organic binder; a second coating step for obtaining graphite oxide particles, each of which has an amorphous carbon particle-containing layer in the surface, by coating the amorphous carbon particles with an organic binder; and a burning carbonization step in which the graphite oxide particles, each of which has an amorphous carbon particle-containing layer in the surface, are subjected to burning carbonization.

IPC Classes  ?

• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/583 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx

Abstract

22SA) of 25 to 60 m2/g, a DBP absorption amount of 90 to 180 cm3222SA) to a iodine adsorption amount (IA) of 1.10×103to 1.50×103m2/g, an NMR hydrogen amount of 150 to 250 /g, and a ΔD value of 260 to 290 cm-1.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon

Abstract

A graphite electrode comprises a pole having a internally threaded socket in an end thereof and a externally threaded nipple that can be fastened to the socket. The value obtained by subtracting the effective diameter of the small diameter end side of the nipple from the effective diameter of the small diameter end side of the socket is from 0.05 mm to 0.7 mm, and the value obtained by subtracting the taper angle of the socket from the taper angle of the nipple is from –2' to –3' 30".

IPC Classes  ?

• H05B 7/085 - Electrodes non-consumable mainly consisting of carbon
• H05B 7/14 - Arrangements or methods for connecting successive electrode sections

Abstract

This friction material for brakes is used when a vehicle is travelling and when parked. The friction material is a sintered body of a raw material powder containing 20-50 mass% of copper, 7-25 mass% of graphite, 8-35 mass% of nickel, and abrasive particles having a particle diameter of 40-70 µm. The abrasive particles have a modified Mohs' hardness of 8-12, and are present in the friction material for brakes at a quantity of 20-50 (particles/mm2).

IPC Classes  ?

• C09K 3/14 - Anti-slip materialsAbrasives
• F16D 65/12 - DiscsDrums for disc brakes
• F16D 69/02 - Composition of linings
• F16D 69/04 - Attachment of linings

Abstract

2/g), and when a nuclear magnetic resonance signal of a spin-spin relaxation process observed by a solid echo method is represented by a sum of a first signal and a second signal having a time constant larger than that of the first signal, an amount of hydrogen represented by a signal intensity per unit mass at time 0 of the first signal is 50.0 to 250.0 (/g).

IPC Classes  ?

• C09C 1/50 - Furnace black
• B60C 1/00 - Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
• C08L 7/00 - Compositions of natural rubber

Abstract

A negative electrode material for lithium ion secondary batteries, said negative electrode material being characterized by being composed of graphite particles and cover layers that cover the graphite particles, while containing amorphous carbon particles and an amorphous carbonized binder material. This negative electrode material is also characterized in that: the coverage of the amorphous carbon particles is 50% or more when the surface thereof is examined; and the buried ratio of the amorphous carbon particles is from 10% to 90% when a cross-section thereof is examined.　The present invention is able to provide a negative electrode material for lithium ion secondary batteries, said negative electrode material having excellent high-rate charge and discharge characteristics, while using a graphite material.

IPC Classes  ?

• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• H01M 4/62 - Selection of inactive substances as ingredients for active masses, e.g. binders, fillers

Abstract

The present invention provides a negative electrode material for lithium ion secondary batteries, said negative electrode material having excellent initial efficiency, while being capable of imparting high-rate charge and discharge characteristics and achieving a high discharge capacity.　A negative electrode material for lithium ion secondary batteries, said negative electrode material being characterized by being composed of composite graphite particles that are obtained by specific steps, namely a coating step, a step for obtaining graphite particles with amorphous carbon particles, and a carbonization burning step for burning and carbonizing the graphite particles with amorphous carbon particles, while being also characterized in that if the surfaces of the composite graphite particles are observed, the coverage of the graphite particles by the amorphous carbon particles is 5% or more but less than 50%.

IPC Classes  ?

• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals

Abstract

Provide is a negative electrode material that is for a lithium ion secondary battery and that exhibits excellent initial efficiency and high-speed charge/discharge characteristics.　The negative electrode material for the lithium ion secondary battery is characterized by comprising composite graphite particles obtained by performing specific steps including a covering step, a step for obtaining amorphous carbon particle-attached graphite particles, and a sintering and carbonizing step for sintering and carbonizing the amorphous carbon particle-attached graphite particles, and is characterized in that the composite graphite particles have a coverage of 50% or more in which, when surface observation is performed, the graphite particles are covered with the amorphous carbon particles.

IPC Classes  ?

• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• H01M 4/62 - Selection of inactive substances as ingredients for active masses, e.g. binders, fillers

Abstract

A negative electrode material for lithium ion secondary batteries, said negative electrode material being characterized by being composed of graphite particles and coating layers that cover the graphite particles, while containing amorphous carbon particles and an amorphous carbonization binder material. This negative electrode material for lithium ion secondary batteries is also characterized in that: the average particle diameter of the amorphous carbon particles as determined by surface observation is from 50 nm to 300 nm; the coverage of the amorphous carbon particles as determined by surface observation is 50% or more; and the specific surface area of this negative electrode material for lithium ion secondary batteries is from 3.0 to 7.0 m2/g.　The present invention is able to provide a negative electrode material for lithium ion secondary batteries, said negative electrode material using a graphite material and exhibiting excellent high-rate charge and discharge characteristics.

IPC Classes  ?

• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals

Abstract

Provided is a polycrystalline SiC molded body wherein the resistivity is not more than 0.050 Ωcm and, when the peak strength in a wave number range of 760-780 cm-1in a Raman spectrum is regarded as "A" and the peak strength in a wave number range of 790-800 cm-1 in the Raman spectrum is regarded as "B", then the peak ratio (A/B) is not more than 0.100.

IPC Classes  ?

• C30B 29/36 - Carbides
• C01B 32/977 - Preparation from organic compounds containing silicon
• C23C 16/42 - Silicides
• C30B 28/14 - Production of homogeneous polycrystalline material with defined structure directly from the gas state by chemical reaction of reactive gases

Abstract

Provided is a polycrystalline SiC molded body wherein the resistivity is not more than 0.050 Ωcm and, when the diffraction peak strength in a diffraction angle 2θ range of 33-34° in an X-ray diffraction pattern is regarded as "A" and the diffraction peak strength of the SiC(111) plane in the X-ray diffraction pattern is regarded as "B", then the ratio (A/B) is not more than 0.018.

IPC Classes  ?

• C30B 29/36 - Carbides
• C01B 32/977 - Preparation from organic compounds containing silicon
• C23C 16/42 - Silicides
• C30B 33/06 - Joining of crystals

Abstract

A polycrystalline SiC molded body according to the present invention has a resistivity of 0.050 Ωcm or less, while having a residual stress of 120 MPa or less as determined by an X-ray diffraction method.

IPC Classes  ?

• C01B 32/977 - Preparation from organic compounds containing silicon
• C04B 35/569 - Fine ceramics
• C23C 16/42 - Silicides

Abstract

The present invention provides a sintered metal friction material that has excellent wear resistance, heat resistance even at high load and has a higher friction coefficient while maintaining a friction coefficient and wear resistance that are hard to decrease, and has a reduced content of copper of less than 5 mass %. There is provided a sintered metal friction material characterized in that the sintered metal friction material comprises a sintered material of a friction material composition, the friction material composition comprises matrix metals and a friction modifier, the matrix metals comprise following 20 to 40 mass % of iron powder, 20 to 40 mass % of nickel powder, 0.5 to 10 mass % of zinc powder, 0.5 to 5 mass, of tin powder, 0.5 to 4 mass % of copper powder and 0.5 to 5 mass % of sintering assist powder.

IPC Classes  ?

• F16D 69/02 - Composition of linings
• B22F 7/04 - Manufacture of composite layers, workpieces, or articles, comprising metallic powder, by sintering the powder, with or without compacting of composite layers with one or more layers not made from powder, e.g. made from solid metal
• B22F 9/08 - Making metallic powder or suspensions thereofApparatus or devices specially adapted therefor using physical processes starting from liquid material by casting, e.g. through sieves or in water, by atomising or spraying
• B22F 9/30 - Making metallic powder or suspensions thereofApparatus or devices specially adapted therefor using chemical processes with decomposition of metal compounds, e.g. by pyrolysis
• C22C 1/05 - Mixtures of metal powder with non-metallic powder
• C22C 38/00 - Ferrous alloys, e.g. steel alloys
• C22C 38/08 - Ferrous alloys, e.g. steel alloys containing nickel
• C22C 38/16 - Ferrous alloys, e.g. steel alloys containing copper

Abstract

It is intended to provide a carbon black which can confer reinforcing properties and low exothermicity, which are usually incompatible, as well as excellent abrasion resistance, when mixed with a rubber component, and is suitable for tire tread rubber that is used particularly under severe driving conditions. 2.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08L 21/00 - Compositions of unspecified rubbers

Abstract

10, and a crystallite size Lc (004) within a predetermined range, and the proportion of the graphite particle spherical aggregates in which the largest flat graphite particle observed on the outermost surface has a circle equivalent diameter of 2 μm to 12 μm in graphite particle spherical aggregates having a circle equivalent diameter of 10 μm or more when observed by SEM is 80% or more.

IPC Classes  ?

• H01M 4/133 - Electrodes based on carbonaceous material, e.g. graphite-intercalation compounds or CFx
• H01M 4/04 - Processes of manufacture in general
• H01M 4/1393 - Processes of manufacture of electrodes based on carbonaceous material, e.g. graphite-intercalation compounds or CFx
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• H01M 10/0525 - Rocking-chair batteries, i.e. batteries with lithium insertion or intercalation in both electrodesLithium-ion batteries
• H01M 4/02 - Electrodes composed of, or comprising, active material

Abstract

Provided is a carbon black capable of exhibiting excellent abrasion resistance while suppressing heat generation properties when mixed with a rubber composition such as a tire tread rubber composition, etc.　This carbon black is characterized in that: the total active point represented by the product of the full width at half maximum of the Raman scattering peak that appears in the range of 1340-1360 cm-1when the excitation wavelength is 532 nm, and the specific surface area when nitrogen gas is adsorbed, is 3.60×104to 8.20×104(cm−1·m2/g); and when a nuclear magnetic resonance signal of a spin-spin relaxation process recorded by the solid echo method is represented by the sum of a first signal and a second signal having a larger relaxation time than the first signal, the amount of hydrogen represented by the signal intensity per unit mass at time 0 of the first signal is 50.0-250.0 (/g).

IPC Classes  ?

• B60C 1/00 - Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
• C09C 1/48 - Carbon black
• C08L 21/00 - Compositions of unspecified rubbers
• C08K 3/04 - Carbon

Abstract

5022SA of from 20 m2/g to 50 m29050905050 of from 1.2 to 2.0.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C01G 49/00 - Compounds of iron
• C09C 3/06 - Treatment with inorganic compounds
• C09D 11/322 - Pigment inks

Goods & Services

Carbon black as pigment

Abstract

901010, and crystal size Lc (004) within a prescribed range. When observed with SEM, in a graphite particle spherical aggregate have a circle equivalent diameter of at least 10µm, the proportion of the largest flat graphite particles observed on the outermost surface with a circle equivalent diameter of 2-12µm is 80% or higher.

IPC Classes  ?

• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• H01M 4/36 - Selection of substances as active materials, active masses, active liquids

Goods & Services

Carbon black for industrial purposes; carbon; silicon carbide; carbides; chemical intensifiers for rubber; chemicals; carburizing agents; graphite; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; non-metallic minerals; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions for sintering. Carbon black as pigment; pigments for color inks; pigments; paints; printing ink. Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; chemical processing machines and apparatus and their parts and fittings; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; moulds [parts of machines]; metalworking machines and tools and their parts and fittings; machines for the metallurgy industry and their parts and fittings; construction machines and their parts and fittings; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; non-electric prime movers, not for land vehicles, and their parts and fittings; parts of non-electric prime movers for land vehicles; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; machine elements, not for land vehicles; solar cell manufacturing machines and apparatus and their parts and fittings; agricultural machines and agricultural implements and their parts and fittings. Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; power distribution or control machines and apparatus and their parts and fittings; telecommunication machines and apparatus and their parts and fittings; electric resistors and their parts and fittings; apparatus and instruments for conducting, switching, transforming, accumulating, regulating or controlling electricity; silicon carbide wafers; semi-conductor wafers; electronic machines and apparatus and their parts and fittings; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; laboratory apparatus and instruments and their parts and fittings; measuring or testing machines and instruments and their parts and fittings. Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for industrial use, except for laboratory use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines; drying apparatus. Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their parts and fittings; railcars and their parts and fittings; automobiles and their parts and fittings; two-wheeled motor vehicles and bicycles, and their parts and fittings. Carbon heat resistant brick; refractory products for industrial furnaces; carbon heat resistant materials used as building or construction materials; cement and cement products; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials; carbon semi-worked materials; silicon carbide semi-worked materials; mineral semi-worked materials.

Goods & Services

Carbon black for industrial purposes; carbon; silicon carbide; carbides; chemical intensifiers for rubber; chemicals; carburizing agents; graphite; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; non-metallic minerals; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions for sintering. Carbon black as pigment; pigments for color inks; pigments; paints; printing ink. Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; chemical processing machines and apparatus and their parts and fittings; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; moulds [parts of machine]; metalworking machines and tools and their parts and fittings; machines for the metallurgy industry and their parts and fittings; construction machines and their parts and fittings; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; non-electric prime movers, not for land vehicles, and their parts and fittings; parts of non-electric prime movers for land vehicles; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; machine elements, not for land vehicles; solar cell manufacturing machines and apparatus and their parts and fittings; agricultural machines and agricultural implements and their parts and fittings. Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; power distribution or control machines and apparatus and their parts and fittings; telecommunication machines and apparatus and their parts and fittings; electric resistors and their parts and fittings; apparatus and instruments for conducting, switching, transforming, accumulating, regulating or controlling electricity; silicon carbide wafers; semi-conductor wafers; electronic machines and apparatus and their parts and fittings; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; laboratory apparatus and instruments and their parts and fittings; measuring or testing machines and instruments and their parts and fittings. Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for industrial use, except for laboratory use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines; drying apparatus. Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their parts and fittings; railcars and their parts and fittings; automobiles and their parts and fittings; two-wheeled motor vehicles and bicycles, and their parts and fittings. Carbon heat resistant brick; refractory products for industrial furnaces; carbon heat resistant materials used as building or construction materials; cement and cement products; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials; carbon semi-worked materials; silicon carbide semi-worked materials; mineral semi-worked materials.

Abstract

Provided is a sintered metal friction material which has exceptional wear resistance and heat resistance even under high power, and in which the friction coefficient and wear resistance do not readily decrease and the copper content is reduced to less than 5% mass while the sintered metal friction material has a higher friction coefficient. The sintered metal friction material is characterized by comprising a sintered product of a friction material composition that includes 20-40% by mass of iron powder, 20-40% by mass of nickel powder, 0.5-10% by mass of zinc powder, 0.5-5% by mass of tin powder, 0.5-4% by mass of copper powder, and 0.5-5% by mass of sintering auxiliary powder as a matrix metal, and also includes a friction modifier.

IPC Classes  ?

• C09K 3/14 - Anti-slip materialsAbrasives
• B22F 7/00 - Manufacture of composite layers, workpieces, or articles, comprising metallic powder, by sintering the powder, with or without compacting
• B22F 7/04 - Manufacture of composite layers, workpieces, or articles, comprising metallic powder, by sintering the powder, with or without compacting of composite layers with one or more layers not made from powder, e.g. made from solid metal
• B22F 9/08 - Making metallic powder or suspensions thereofApparatus or devices specially adapted therefor using physical processes starting from liquid material by casting, e.g. through sieves or in water, by atomising or spraying
• B22F 9/30 - Making metallic powder or suspensions thereofApparatus or devices specially adapted therefor using chemical processes with decomposition of metal compounds, e.g. by pyrolysis
• C22C 1/05 - Mixtures of metal powder with non-metallic powder
• C22C 30/06 - Alloys containing less than 50% by weight of each constituent containing zinc
• C22C 33/02 - Making ferrous alloys by powder metallurgy
• F16D 13/62 - Clutch-bandsClutch-shoesClutch-drums
• F16D 69/02 - Composition of linings

Goods & Services

Carbon black for industrial purposes; carbon; silicon carbide for use as a raw material in the manufacture of other goods; carbides; chemicals for rubber processing applications, namely, chemical intensifiers for rubber; industrial chemicals; carburizing agents; natural and artificial graphite; natural and artificial graphite for negative-electrode material of lithium ion secondary batteries; natural and artificial graphite in raw or semi-finished form for use in manufacture; natural and artificial graphite for negative-electrode material of secondary batteries, natural and artificial graphite for batteries and natural and artificial graphite for electrodes; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions in the solid state for sintering Carbon black as pigment; pigments for color inks; pigments; paints; printing ink Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; machine parts, namely, molds for use in the manufacture of molten metal; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; solar cell manufacturing machines and apparatus and their parts and fittings Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; electric resistors and their parts and fittings; silicon carbide wafers; structured semi-conductor wafers; sounding observation rockets and their parts and fittings; satellites and their parts and fittings Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite foundry crucibles for industrial use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; ships and their structural parts and fittings; aircraft and their structural parts and fittings; railcars and their structural parts and fittings; automobiles and their structural parts and fittings; two-wheeled motor vehicles and bicycles, and their structural parts and fittings Carbon heat resistant brick; refractory bricks, not of metal for industrial furnaces; carbon refractory bricks, not of metal used as building or construction materials; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; non-metal forms for use in casting, not of metal; nonmetallic minerals for building or construction, namely, graphite semi-worked materials; non-metallic minerals for building or construction, namely, carbon semi-worked materials; non-metallic minerals for building or construction, namely, silicon carbide semi-worked materials; non-metallic mineral semi-worked materials for building or construction

Goods & Services

Carbon black for industrial purposes; carbon; silicon carbide for use as a raw material in the manufacture of other goods; carbides; chemicals for rubber processing applications, namely, chemical intensifiers for rubber; industrial chemicals; carburizing agents; natural and artificial graphite; natural and artificial graphite for negative-electrode material of lithium ion secondary batteries; natural and artificial graphite in raw or semi-finished form for use in manufacture; natural and artificial graphite for negative-electrode material of secondary batteries, natural and artificial graphite for batteries and natural and artificial graphite for electrodes; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions in the solid state for sintering Carbon black as pigment; pigments for color inks; pigments; paints; printing ink Semiconductor manufacturing machines and apparatus and their parts and fittings; cleaning machines for cleaning electronic components, ceramic and glass components, plastic formed products and metal processed components; electric discharge machine and their parts and fittings; continuous casting machines and their parts and fittings; machine parts, namely, molds for use in the manufacture of molten metal; elevators and their parts and fittings; loading-unloading machines and apparatus and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; exhaust gas treating device for internal combustion engine and their parts and fittings; brushes being parts of machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles; clutches, other than for land vehicles; brakes for machines; solar cell manufacturing machines and apparatus and their parts and fittings Electrodes and their parts and fittings; graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; electric resistors and their parts and fittings; silicon carbide wafers; structured semi-conductor wafers; sounding observation rockets and their parts and fittings; satellites and their parts and fittings Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite foundry crucibles for industrial use; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; ships and their structural parts and fittings; aircraft and their structural parts and fittings; railcars and their structural parts and fittings; automobiles and their structural parts and fittings; two-wheeled motor vehicles and bicycles, and their structural parts and fittings Carbon heat resistant brick; refractory bricks, not of metal for industrial furnaces; carbon refractory bricks, not of metal used as building or construction materials; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; non-metal forms for use in casting, not of metal; nonmetallic minerals for building or construction, namely, graphite semi-worked materials; non-metallic minerals for building or construction, namely, carbon semi-worked materials; non-metallic minerals for building or construction, namely, silicon carbide semi-worked materials; non-metallic mineral semi-worked materials for building or construction

Goods & Services

(1) Carbon black for industrial purposes; carbon compounds; powdered carbon in the form of a non-metallic element; carbon for the additive to a resin; carbon for the additive to an elastomer; silicon carbide; carbides; chemical intensifiers for rubber; industrial chemicals, namely, carbon compound; carburizing agents for increasing the amount of carbon, namely, graphite cuttings and graphite powder; natural graphite; artificial graphite for industrial purposes; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions in the solid state for sintering (2) Carbon black as pigment; pigments for use in the manufacture of colour printing inks; printing ink (3) Semiconductor making machines and their parts and fittings; semiconductor wafer processing equipment and their parts and fittings; continuous casting machines and their parts and fittings; metalworking machines and tools and their parts and fittings; elevators and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; exhaust gas treating device, namely, catalytic converters for internal combustion engine and their parts and fittings; brushes being parts of machines, namely, rotary brushes for machines, dynamo brushes, electric carbon brushes for machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles, namely, brake pads for machines; clutches, other than for land vehicles, namely, clutches for industrial machinery; brakes for machines; solar cell manufacturing machines and their parts and fittings (4) Graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings; fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; electric resistors and their parts and fittings; silicon carbide wafers; semi-conductor wafers; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; crucibles for laboratory use (5) Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for melting metal; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements; garbage incinerators; heat exchangers, other than parts of machines (6) Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their structural parts and fittings; railcars and their structural parts and fittings; automobiles and their structural parts and fittings; two-wheeled motor vehicles, namely, motorcycles and structural parts therefor; bicycles and bicycle parts and fittings (7) Carbon heat resistant brick; refractory bricks, not of metal for industrial furnaces; carbon heat resistant materials used as building or construction materials; carbon insulation materials used as building or construction materials; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials for building and construction; carbon semi-worked materials for building and construction; silicon carbide semi-worked materials for building and construction; non-metallic mineral semi-worked materials for building and construction

Goods & Services

(1) Carbon black for industrial purposes; carbon compounds; powdered carbon in the form of a non-metallic element; carbon for the additive to a resin; carbon for the additive to an elastomer; silicon carbide; carbides; chemical intensifiers for rubber; industrial chemicals, namely, carbon compound; carburizing agents for increasing the amount of carbon, namely, graphite cuttings and graphite powder; natural graphite; artificial graphite for industrial purposes; graphite for negative-electrode material of lithium ion secondary batteries; graphite in raw or semi-finished form for use in manufacture; graphite for negative-electrode material of secondary batteries, graphite for batteries and graphite for electrodes; unprocessed artificial resins for industrial purposes; unprocessed plastics in all forms; ceramic compositions in the solid state for sintering (2) Carbon black as pigment; pigments for use in the manufacture of colour printing inks; printing ink (3) Semiconductor making machines and their parts and fittings; semiconductor wafer processing equipment and their parts and fittings; continuous casting machines and their parts and fittings; metalworking machines and tools and their parts and fittings; elevators and their parts and fittings; rocket engines, not for land vehicles, and their parts and fittings; exhaust gas treating device, namely, catalytic converters for internal combustion engine and their parts and fittings; brushes being parts of machines, namely, rotary brushes for machines, dynamo brushes, electric carbon brushes for machines and their parts and fittings; brake linings for machines; brake pads, other than for vehicles, namely, brake pads for machines; clutches, other than for land vehicles, namely, clutches for industrial machinery; brakes for machines; solar cell manufacturing machines and their parts and fittings (4) Graphite electrodes and their parts and fittings; electric furnace electrodes and their parts and fittings (5) Fuel cell separators and their parts and fittings; fuel cells and their parts and fittings; solar cells and their parts and fittings; electric resistors and their parts and fittings; silicon carbide wafers; semi-conductor wafers; sounding rocket and their parts and fittings; satellites and their parts and fittings; furnaces for laboratory experiments and their parts and fittings; crucibles for laboratory use (6) Heat treat furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for heat treat furnaces; electric furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for electric furnaces; industrial furnaces and their parts and fittings, including electrodes and nipples for electrodes adapted for industrial furnaces; heating elements (7) Nuclear reactors and their parts and fittings, including electrodes and nipples for electrodes adapted for nuclear reactors; graphite crucibles for melting metal; garbage incinerators; heat exchangers, other than parts of machines (8) Clutch mechanisms for land vehicles; brake linings for land vehicles; brake pads for land vehicles; brakes for land vehicles; machine elements for land vehicles; ships and their parts and fittings; aircraft and their structural parts and fittings; railcars and their structural parts and fittings; automobiles and their structural parts and fittings; two-wheeled motor vehicles, namely, motorcycles and structural parts therefor; bicycles and bicycle parts and fittings (9) Carbon heat resistant brick; refractory bricks, not of metal for industrial furnaces; carbon heat resistant materials used as building or construction materials; carbon insulation materials used as building or construction materials; building glass; fired refractory materials, not of metal; pitch; non-metallic minerals for building or construction; foundry molds, not of metal; graphite semi-worked materials for building and construction; carbon semi-worked materials for building and construction; silicon carbide semi-worked materials for building and construction; non-metallic mineral semi-worked materials for building and construction

Abstract

Provided is a method for easily producing an oxidized carbon black aqueous dispersion that can highly remove multivalent metal ions and exhibit excellent dispersion stability. A method for producing an oxidized carbon black aqueous dispersion by successively performing on an aqueous slurry of oxidized carbon black having one or more anionic functional groups on a surface thereof a neutralization step of mixing an alkali metal hydroxide and performing heating/neutralization in the presence of one or more selected from a water-soluble chelating agent and a salt thereof or after mixing an alkali metal hydroxide and performing heating/neutralization, mixing one or more selected from a water-soluble chelating agent and a salt thereof and a separation and removal step of separating and removing a multivalent metal ion chelate complex from a mixed solution obtained at the neutralization step using a separation membrane.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• B41J 2/01 - Ink jet
• C09D 11/324 - Pigment inks containing carbon black
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

The present invention provides a carbon black that can impart, when mixed with a rubber component, excellent abrasion resistance together with reinforcing properties and low heat generating properties, which are normally difficult to make compatible with each other, and in particular that is suitable for a tire tread rubber that is used under severe driving conditions. Provided is a carbon black characterized in that the surface free energy γd obtained by reverse-phase gas chromatography analysis method is 50-200 mJ/m2, and the strongly acidic group concentration is 0-0.115 µmol/m2.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers
• C09C 1/50 - Furnace black

Abstract

Provided is a process whereby an aqueous dispersion of oxidized carbon black particles which is excellent in terms of dispersibility and storage stability is easily produced in the case where the aqueous dispersion of oxidized carbon black particles is produced by oxidizing carbon black particles in a liquid phase using a persulfuric acid salt. The process is for producing an aqueous dispersion of oxidized carbon black particles by contacting at least one persulfuric acid salt with carbon black particles to oxidize the carbon black particles in a liquid phase, and is characterized in that the persulfuric acid salt and the carbon black particles are contacted with each other in water in the presence of an inorganic alkali in an amount which is not smaller than a theoretical amount necessary for neutralizing an acidic reaction product to be generated by the liquid-phase oxidation, and that the liquid-phase oxidation is conducted with heating.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C09C 1/56 - Treatment of carbon black
• C09C 3/06 - Treatment with inorganic compounds

Abstract

Provided is a method for easily manufacturing an aqueous dispersion of oxidized carbon black whereby polyvalent metal ions are removed to a high degree and excellent dispersion stability can be demonstrated. A method for manufacturing an aqueous dispersion of oxidized carbon black, the method characterized by comprising sequentially performing: a neutralizing step for mixing an alkali metal hydroxide with an aqueous slurry of oxidized carbon black having one or more species of negative ionic functional groups on the surface thereof in the presence of one or more species selected from water-soluble chelating agents or salts thereof, and heating and neutralizing the mixture, or mixing the alkali metal hydroxide with the aqueous slurry and heating and neutralizing the mixture, and then mixing one or more species therewith selected from water-soluble chelating agents or salts thereof; and a separation removal step for separating and removing a polyvalent metal ion chelate complex, using a separation membrane, from the mixture obtained in the neutralizing step.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• B41J 2/01 - Ink jet
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C09C 1/48 - Carbon black
• C09D 11/324 - Pigment inks containing carbon black

Abstract

Carbon black is used as a component of a rubber composition, ensures that the resulting rubber exhibits improved processability, is reinforced in an improved manner, and exhibits low heat buildup, and may suitably be used for a rubber member (e.g., tire tread) and the like for which high abrasion resistance is required. The carbon black includes primary particles having an average particle size of 15 to 35 nm, and forms aggregates having a Stokes mode diameter measured using a centrifugal sedimentation method of 140 to 180 nm, and having a spherical shape when observed using a transmission electron microscope.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• B60C 1/00 - Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
• B01J 8/18 - Chemical or physical processes in general, conducted in the presence of fluids and solid particlesApparatus for such processes with fluidised particles
• B01J 8/24 - Chemical or physical processes in general, conducted in the presence of fluids and solid particlesApparatus for such processes with fluidised particles according to "fluidised-bed" technique

Abstract

Provided is a separator for fuel cells, which is not susceptible to occlusion of a flow channel due to water that is generated during the power generation for a long period of time, and which is suppressed in increase of the contact resistance and decrease of the power generation efficiency, while having excellent strength and excellent uniformity. A separator for fuel cells, which is obtained by forming a hydrophilic thermoset resin film on a main surface of a base that is formed of a graphite resin composite molded body having a surface that is provided with a rib portion and a groove portion. This separator for fuel cells is characterized in that: the graphite resin composite molded body contains a graphite powder and a resin component at a mass ratio, that is (the mass of the graphite powder)/(the mass of the resin component), of from 90/10 to 70/30; at least a part of the rib portion and a part of the groove portion formed in the surface of the base that is formed of the graphite resin composite molded body are subjected to a surface roughening treatment so as to have a surface roughness of 0.15-1.5 μm; and the hydrophilic thermoset resin film is formed only in the groove portion of the surface of the graphite resin composite molded body.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details
• H01M 8/10 - Fuel cells with solid electrolytes

Abstract

Provided is a completely novel carbon black whereby rubber characteristics such as reinforcing properties and heating characteristics can be improved. A carbon black characterized by having an aggregate void mode diameter (Dmp) of 25 nm to 60 nm calculated by a mercury penetration method, and the ratio ∆Dmp/mode diameter (Dmp) specified by the aggregate void mode diameter (Dmp) and the full width at half-maximum ∆Dmp of the aggregate void diameter distribution calculated by the mercury penetration method is 0.30 to 0.56.

IPC Classes  ?

• C09C 1/48 - Carbon black
• B60C 1/00 - Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers

Abstract

A method for easily producing a graphite powder for use as a lithium secondary battery negative electrode material with small specific surface area while reducing energy consumption, and achieving high graphitization efficiency, includes melt-mixing a coke powder and a carbon precursor binder so that an amount of fixed carbon included in the carbon precursor binder is 5 to 15 parts by mass based on 100 parts by mass of the coke powder, to prepare a mixture, and pressing the mixture to prepare a compact, the coke powder being obtained by heating a green coke powder at 600 to 1450° C. in a non-oxidizing atmosphere, the green coke powder having a cumulative particle size at 50% in a volumetric cumulative particle size distribution of 5 to 50 μm; heating the compact in a non-oxidizing atmosphere to effect carbonization and graphitization to obtain a graphitized compact; and grinding the graphitized compact.

IPC Classes  ?

• C01B 35/00 - BoronCompounds thereof
• C01B 31/04 - Graphite
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• C04B 35/52 - Shaped ceramic products characterised by their compositionCeramic compositionsProcessing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbon, e.g. graphite
• C04B 35/532 - Shaped ceramic products characterised by their compositionCeramic compositionsProcessing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbon, e.g. graphite obtained from carbonaceous particles with or without other non-organic components containing a carbonisable binder
• H01M 10/0525 - Rocking-chair batteries, i.e. batteries with lithium insertion or intercalation in both electrodesLithium-ion batteries
• C01B 32/05 - Preparation or purification of carbon not covered by groups , , ,
• C01B 32/20 - Graphite
• H01M 10/052 - Li-accumulators
• H01M 4/02 - Electrodes composed of, or comprising, active material

Abstract

A CVD-SiC formed body has low light transmittance and high resistivity, and may suitably be used as a member for an etcher that is used for a semiconductor production process, for example. The SiC formed body is formed using a CVD method, and includes 1 to 30 mass ppm of boron atoms, and more than 100 mass ppm and 1000 mass ppm or less of nitrogen atoms. The SiC formed body preferably has a resistivity of more than 10 Ω·cm and 100,000 Ω·cm or less, and a light transmittance at a wavelength of 950 nm of 0 to 1%.

IPC Classes  ?

• C04B 35/565 - Shaped ceramic products characterised by their compositionCeramic compositionsProcessing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides based on silicon carbide
• C23C 16/01 - Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes on temporary substrates, e.g. on substrates subsequently removed by etching
• C23C 16/32 - Carbides
• C01B 31/36 - Carbides of silicon or boron
• C01B 32/956 - Silicon carbide

Abstract

　Provided is a carbon black which, when used as compounded ingredient of a rubber composition, can improve the workability and reinforcing properties of the obtained rubber, as well as improving the exothermic characteristics of the obtained rubber, and which is suitable for use in rubber members of which high wear resistance is required, such as tire treads. This carbon black is characterized in that the mean particle size of the primary particles is 15-35 nm, and the Stokes mode diameter of the aggregate is 140-180 nm as measured by centrifugal sedimentation analysis, the aggregate being spherical in shape when observed with a transmission electron microscope.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers

Abstract

Provided is a process by which a graphite powder that is for a lithium secondary battery negative electrode material and that has a small specific surface area can be easily manufactured with a high graphitization efficiency while reducing energy consumption. A process for manufacturing a graphite powder for a lithium secondary battery negative electrode material, characterized by comprising: melt-mixing a coke powder obtained by subjecting a green coke powder which exhibits a particle diameter of 5 to 50μm at a cumulative volume of 50% in the volume-based cumulative particle size distribution to heat treatment in a non-oxidizing atmosphere at a temperature of 600 to 1450ºC with a carbon precursor binder so as to adjust the amount of fixed carbon of the carbon precursor binder to 5 to 15 parts by mass relative to 100 parts by mass of the coke powder; pressing the resulting mixture to form a compact; conducting the carbonization and graphitization of the compact by heat treatment in a non-oxidizing atmosphere to form a graphitized compact; and pulverizing the graphitized compact.

IPC Classes  ?

• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals
• C01B 31/02 - Preparation of carbon; Purification
• H01M 4/36 - Selection of substances as active materials, active masses, active liquids

Abstract

A sliding layer (21) of a sintered copper alloy is formed in the sliding surface (12A) of a valve plate (12). That is, the valve plate (12) is formed of a ferrous material such as cast iron or steel, while the sliding surface (12A) constituting the surface of the valve plate (12) is composed of the sliding layer (21). The sliding layer (21) consists of a sintered copper alloy which comprises Cu (copper) and Sn (tin) as main components with the balance containing 2 to 6 wt% of CaF2(calcium fluoride) as an essential component. The average particle diameter of the CaF2 is controlled to 40 to 350μm. On the other hand, the sliding surface (8A) of a cylinder block (8), namely a counterpart sliding surface, is composed of a sliding layer of a ferrous material. That is, the sliding layer (21) of a copper alloy is not formed in the sliding surface (8A).

IPC Classes  ?

• F04B 1/22 - Multi-cylinder machines or pumps characterised by number or arrangement of cylinders having cylinder axes coaxial with, or parallel or inclined to, main shaft axis having rotary cylinder block having two or more sets of cylinders or pistons
• F03C 1/24 - Reciprocating-piston liquid engines with movable cylinders in which the liquid exclusively displaces one or more pistons reciprocating in rotary cylinders
• F03C 1/253 - Reciprocating-piston liquid engines with movable cylinders in which the liquid exclusively displaces one or more pistons reciprocating in rotary cylinders with cylinder axes generally coaxial with, or parallel to, main shaft axis

Abstract

Provided is a CVD SiC molded body which has low light transmittance and high resistivity, and which is suitable for use as a member for an etcher that is used in a semiconductor production procedure, and the like. Specifically provided is an SiC molded body which is formed by a CVD method and contains 1-30 ppm by mass of boron atoms and more than 100 ppm by mass but 1,000 ppm by mass or less of nitrogen atoms. This SiC molded body preferably has a resistivity of more than 10 Ω·cm but 100,000 Ω·cm or less and a light transmittance of 0-1% at a wavelength of 950 nm.

IPC Classes  ?

• C23C 16/42 - Silicides
• C04B 35/565 - Shaped ceramic products characterised by their compositionCeramic compositionsProcessing powders of inorganic compounds preparatory to the manufacturing of ceramic products based on non-oxides based on carbides based on silicon carbide
• C23C 16/01 - Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes on temporary substrates, e.g. on substrates subsequently removed by etching

Abstract

3/100 g or more, neutralizing 5% or more and less than 50% of the acidic hydroxyl groups with a polyvalent cation, and neutralizing the remainder of the acidic hydroxyl groups with a monovalent cation.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

This substrate treatment device is equipped with: a treatment chamber for holding multiple glass substrates, on each of which a multi-layer film, comprising any one of copper-indium, copper-gallium, or copper-indium-gallium is formed; a reaction tube that is formed so as to define the treatment chamber; a cassette that is configured so as to be insertable into the treatment chamber, arranges the primary surfaces of the multiple glass substrates so as to face each other at a predetermined distance, and has a pair of sidewalls which cover the outer primary surfaces of the outermost glass substrates among the arranged multiple glass substrates; a gas supply pipe for introducing a selenium-containing gas or a sulfur-containing gas into the treatment chamber; an exhaust tube for exhausting the atmosphere in the treatment chamber; a heating section that is provided so as to surround the reaction tube; and fans for forcibly convecting the atmosphere in the treatment chamber in the short-side direction of the multiple glass substrates at the respective primary surfaces of the multiple glass substrates.

IPC Classes  ?

• H01L 21/365 - Deposition of semiconductor materials on a substrate, e.g. epitaxial growth using reduction or decomposition of a gaseous compound yielding a solid condensate, i.e. chemical deposition
• H01L 31/04 - SEMICONDUCTOR DEVICES NOT COVERED BY CLASS - Details thereof adapted as photovoltaic [PV] conversion devices

Goods & Services

Graphite electrodes

Abstract

Carbon black includes primary particles having an average particle size of 15 to 40 nm, microprotrusions having an average length of 2 to 10 nm being formed on a surface of the primary particles. A method for producing carbon black includes introducing an oxygen-containing gas and fuel into a fuel combustion zone, mixing and combusting the oxygen-containing gas and the fuel to produce a high-temperature combusted gas stream, introducing a raw material hydrocarbon in a first stage of a raw material introduction zone and introducing the raw material hydrocarbon and an oxygen-containing gas in a second stage of the raw material introduction zone while introducing the high-temperature combusted gas stream into the raw material introduction zone to produce a carbon black-containing gas which is introduced into a reaction termination zone while spraying a coolant.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08L 21/00 - Compositions of unspecified rubbers
• C08K 3/04 - Carbon
• B82Y 30/00 - Nanotechnology for materials or surface science, e.g. nanocomposites

Goods & Services

Carbon black for industrial purposes.

Goods & Services

Carbon black for industrial purposes.

Goods & Services

(1) Graphite electrodes for use in electric arc furnaces;

Abstract

Provided is a method for producing an aqueous dispersion of surface-treated carbon black particles that shows an excellent degree of black and dispersibility; when used as a water-based black ink, has excellent shelf life, shows little feathering, has excellent discharge stability and smear resistance (fast drying performance); and has a strong effect in terms of preventing metal corrosion. The method for producing an aqueous dispersion of surface-treated carbon black particles is characterized in that in an aqueous dispersion of oxidized carbon black particles wherein acidic hydroxyl groups have been imparted to the surface of carbon black particles having a DBP absorption of 120 cm3/100 g or greater, 5% or more but less than 50% of the acid hydroxyl groups are neutralized by polyvalent cations and then the remainder of the acidic hydroxyl groups are neutralized by monohydric cations.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C09C 1/56 - Treatment of carbon black

Abstract

Provided is a process for easily producing a pigment dispersion composition which exhibits excellent image density, dispersion properties and storage stability and high resolubility and which ensures excellent marker resistance and scratch resistance of ink film. A process for producing a pigment dispersion composition, characterized by comprising: bringing a pigment (I) which has acidic groups on the surface into contact with a basic compound (II) which has, in the molecule, two or more amino groups selected from primary amino groups and secondary amino groups in an aqueous medium to prepare a pigment which has unreacted amino groups on the surface; bringing the pigment which has unreacted amino groups on the surface into contact with a polyisocyanate polyurethane resin (III) which has two or more terminal isocyanate groups to form urea bonds and thus prepare a dispersion of a pigment-polyurethane resin adduct (A); and then subjecting the dispersion of a pigment-polyurethane resin adduct (A) to heat treatment at 40 to 100°C for 1 to 30 days.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• C08G 18/00 - Polymeric products of isocyanates or isothiocyanates
• C08L 75/04 - Polyurethanes
• C09C 1/56 - Treatment of carbon black
• C09C 3/10 - Treatment with macromolecular organic compounds

Abstract

A method of producing a polyurethane resin-bonded pigment aqueous dispersion includes causing (I) a pigment having a surface acidic group to come in contact with (II) a basic compound having two or more amino groups selected from a primary amino group and a secondary amino group in its molecule in an aqueous medium so that the pigment has an unreacted surface amino group, and causing the pigment to come in contact and react with (III) a polyurethane resin having an isocyanate end group. A polyurethane resin-bonded pigment aqueous dispersion produced by the method exhibits excellent image density, dispersibility, and storage stability.

IPC Classes  ?

• C08G 18/08 - Processes
• C08L 75/00 - Compositions of polyureas or polyurethanesCompositions of derivatives of such polymers
• C08K 5/01 - Hydrocarbons
• C08L 53/00 - Compositions of block copolymers containing at least one sequence of a polymer obtained by reactions only involving carbon-to-carbon unsaturated bondsCompositions of derivatives of such polymers

Abstract

A method of producing a surface-treated carbon black powder dispersion includes subjecting carbon black fine particles having a volume average particle size of 100 nm to 20 μm to wet granulation and drying by heating to obtain granulated carbon black having a hardness of 12 cN or less and a pH of less than 7, grinding the granulated carbon black to obtain a ground product having a volume average particle size of 20 nm to 20 μm, and subjecting the ground product to wet oxidization in an aqueous medium. The resulting surface-treated carbon black powder dispersion exhibits excellent print density, print quality, discharge stability, and storage stability when used as an inkjet printer aqueous black ink.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black

Abstract

Provided is a pigment which exhibits excellent image density, dispersibility, storage stability, resolubility, and excellent resistances of ink film to markers and scratch. The pigment is a polyurethane resin addition pigment characterized by being produced by: bringing, in an aqueous medium, a pigment (I) which has acid groups on the surface into contact with a basic compound (II) which has, in the molecule, two or more amino groups selected from among primary and secondary amino groups to form a pigment which has unreacted amino groups on the surface; and then bringing this pigment which has unreacted amino group on the surface into contact with a water-dispersible polyurethane resin (III) which has terminal isocyanate groups and a polyisocyanate compound (IV) to bond, by urea linkages, the water-dispersible polyurethane resin (III) and the polyisocyanate compound (IV) to the pigment which has unreacted amino groups on the surface.

IPC Classes  ?

• C09C 3/10 - Treatment with macromolecular organic compounds
• B41J 2/01 - Ink jet
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C08G 18/00 - Polymeric products of isocyanates or isothiocyanates
• C08K 9/04 - Ingredients treated with organic substances
• C08L 75/04 - Polyurethanes
• C09C 1/48 - Carbon black
• C09C 1/56 - Treatment of carbon black
• C09D 11/00 - Inks
• C09D 11/30 - Inkjet printing inks
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

Disclosed is a pigment with excellent image density, dispersion, storage stability, re-solubility, and resistance of an ink film to markers and abrasion. The disclosed polyurethane resin adhesion pigment is formed by contacting in an aqueous medium (I) a pigment having acidic groups on the surface, and (II) a water-dispersible polyurethane resin having tertiary amino groups and having anionic polar groups or nonionic polar chains. The aforementioned pigment (I) having acid groups on the surface is preferably a polyurethane resin adhesion pigment which is a self-dispersing carbon black having acid groups on the surface.

IPC Classes  ?

• C09C 3/10 - Treatment with macromolecular organic compounds
• B41J 2/01 - Ink jet
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C09C 3/06 - Treatment with inorganic compounds
• C09D 11/02 - Printing inks
• C09D 11/037 - Printing inks characterised by features other than the chemical nature of the binder characterised by the pigment
• C09D 11/322 - Pigment inks
• C09D 11/324 - Pigment inks containing carbon black
• C09D 11/326 - Pigment inks characterised by the pigment dispersant
• C09D 11/38 - Inkjet printing inks characterised by non-macromolecular additives other than solvents, pigments or dyes

Abstract

Provided is a carbon black that is formed from primary particles, the average grain size of which is 15 to 40 nm and the surface of which has microprotrusions having an average length of 2 to 10 nm. Preferably the carbon black absorbs 40 to 150 mL/100 g of DBP and has a nitrogen adsorption specific surface area of 50 to 150 m2/g. Also provided is a method for producing a carbon black in which a reaction furnace is used. The reaction furnace has a fuel combustion zone, a starting-material introduction zone, and a reaction suspension zone which are disposed in succession from the upstream to the downstream direction of a gas path. Oxygen-containing gas and fuel are introduced to the fuel combustion zone and mixed combustion is performed. The resulting high-temperature combustion gas current is introduced to the starting-material introduction zone as starting hydrocarbon is introduced at a first step and starting hydrocarbon and oxygen-containing gas are introduced at a second step, and the high-temperature combustion gas current is reacted with said starting materials in succession to generate a carbon black-containing gas. The carbon black-containing gas is introduced to the reaction suspension zone as a cooling liquid is sprayed.

IPC Classes  ?

• C09C 1/48 - Carbon black
• C08K 3/04 - Carbon
• C08L 21/00 - Compositions of unspecified rubbers

Abstract

Disclosed is a method for preparing an aqueous polymer-pigment dispersion that demonstrates superior image density, dispersion properties, and storage stability. Specifically disclosed is preparation method for an aqueous polyurethane resin-pigment dispersion that is characterized by bringing a pigment (I), which has an acidic group on the surface, and a basic compound (II), which has at least two amino groups selected from among a primary amino group and a secondary amino group in each molecule, into contact in an aqueous medium; and by, after preparing a pigment with a nonreactive amino group on the surface, further bringing a polyurethane resin (III) with a terminal isocyanate group into contact with and reacting with the same.

IPC Classes  ?

• C08G 18/00 - Polymeric products of isocyanates or isothiocyanates
• B41J 2/01 - Ink jet
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C08G 18/10 - Prepolymer processes involving reaction of isocyanates or isothiocyanates with compounds having active hydrogen in a first reaction step
• C08K 9/04 - Ingredients treated with organic substances
• C08L 75/04 - Polyurethanes
• C09C 1/56 - Treatment of carbon black
• C09D 11/00 - Inks

Abstract

Disclosed is a semiconductor substrate which has a semiconductor layer having high crystallinity. Specifically disclosed are: a semiconductor substrate that comprises a graphite layer, which is composed of a heterocycle polymer obtained by condensing an aromatic tetracarboxylic acid and an aromatic tetraamine, and a semiconductor layer that is provided on the surface of the graphite layer and uses the surface of the graphite layer as the growth surface; and a semiconductor substrate that comprises a substrate having a surface that is provided with a graphite layer, which is composed of a heterocycle polymer obtained by condensing an aromatic tetracarboxylic acid and an aromatic tetraamine, a buffer layer that is provided on the surface of the graphite layer and uses the surface of the graphite layer as the growth surface, and a semiconductor layer that is provided on the buffer layer and uses the surface of the buffer layer as the growth surface.

IPC Classes  ?

• C30B 29/38 - Nitrides
• C23C 14/06 - Coating by vacuum evaporation, by sputtering or by ion implantation of the coating forming material characterised by the coating material
• C23C 14/14 - Metallic material, boron or silicon
• C30B 29/06 - Silicon
• H01L 21/203 - Deposition of semiconductor materials on a substrate, e.g. epitaxial growth using physical deposition, e.g. vacuum deposition, sputtering

Abstract

A process for producing a dispersion of a surface-treated carbon black powder is provided, the dispersion giving a water-based black ink for ink-jet printers which attains excellent printed-image density and printed-image quality and has excellent delivery stability and storage stability. The process for producing a dispersion of a surface-treated carbon black powder is characterized by granulating fine carbon black particles having a volume-average particle diameter of 100 nm to 20 µm by a wet method, heating and drying the granules to produce carbon black granules having a hardness of 12 cN or lower and a pH less than 7, subsequently pulverizing the granules to obtain particles having a volume-average particle diameter of 20 nm to 20 µm, and subjecting the resultant particles to a wet oxidization treatment in an aqueous medium.

IPC Classes  ?

• C09C 3/06 - Treatment with inorganic compounds
• C09C 1/48 - Carbon black
• C09C 1/50 - Furnace black
• C09C 1/58 - Agglomerating, pelleting, or the like by wet methods

Abstract

Provided is a method for producing a fuel cell separator, comprising: a step for producing a premolding sheet for forming a delicate part by subjecting a molding material for a delicate part, which contains a carbonaceous powder and a thermosetting resin binder, to pressure molding under a temperature that is the softening temperature of the thermosetting resin binder or higher, but lower than the hardening temperature of the thermosetting resin binder; a step for producing a powder for forming a porous part, which contains a carbonaceous powder and a thermosetting resin binder; a step for filling the premolding sheet for forming a delicate part and the powder for forming a porous part in a mold which has an uneven molding surface corresponding to the shape of the gas flow path, such that the uneven molding surface and the powder for forming a porous part oppose each other; and a step for subjecting the premolding sheet for forming a delicate part and the powder for forming a porous part to molding by applying heat and pressure to the mold under a temperature that is at least the highest setting temperature from among the setting temperatures of the aforementioned plurality of thermosetting resin binders.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details
• H01M 8/10 - Fuel cells with solid electrolytes

Goods & Services

Graphite electrodes.

Abstract

Semiconductor processing and equipment are disclosed. The semiconductor equipment and processing provide semiconductor wafers with reduced defects.

IPC Classes  ?

• B24B 37/04 - Lapping machines or devicesAccessories designed for working plane surfaces
• H01L 21/687 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereofApparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for supporting or gripping using mechanical means, e.g. chucks, clamps or pinches
• C23C 16/34 - Nitrides
• C23C 16/458 - Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for supporting substrates in the reaction chamber
• C30B 25/12 - Substrate holders or susceptors
• H01L 21/673 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereofApparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components using specially adapted carriers

Abstract

The purpose of the object is to provide an aqueous dispersion of a carbon black which is suitable as an aqueous black ink for inkjet printers. An aqueous dispersion of a surface-treated carbon black comprising the surface-treated carbon black, which has been chemically modified by dehydrating and condensing a hydrophilic surface functional group of carbon black with an amino group-containing compound by using a triazine-based condensing agent to thereby form an amide bond, dispersed in an aqueous medium; and a method of producing an aqueous dispersion of a surface-treated carbon black which comprises adding an amino group-containing compound and a triazine-based condensing agent to a dispersion wherein a carbon black, which has been oxidized to form a hydrophilic surface functional group, is dispersed in an aqueous medium, stirring the mixture at room temperature to thereby dehydrate and condense the above-described hydrophilic surface functional group with the amino group-containing compound, and then removing large particles, the unreacted amino group-containing compound, a decomposition product of the triazine-based condensing agent and the unreacted matter followed by neutralization, purification and concentration.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09C 3/08 - Treatment with low-molecular-weight organic compounds
• C09D 11/00 - Inks
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

It is intended to provide dispersible surface-modified carbon black, in which a surface of carbon black is modified by binding a functional group on the surface of carbon black to one terminal diol-modified polymer via a triisocyanate compound, and which shows an excellent dispersibility in a nonpolar solvent, a low polar solvent or a resin. The dispersible surface-modified carbon black is characterized in that the functional group on the surface of carbon black is bound to an isocyanate group at one end of the triisocyanate compound having isocyanate groups at three ends of iso structure, and isocyanate groups at the other two ends are bound to a hydroxyl group of the one terminal diol-modified polymer.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09C 3/10 - Treatment with macromolecular organic compounds

Abstract

This invention provides a negative electrode material for a lithium rechargeable battery, which exhibit a higher lithium ion dope and undope speed, has excellent charge/discharge cycle properties, and has a high output suitable not only as power supplies for portable equipment but also as power sources for hybrid cars and electric vehicles. The negative electrode material is characterized by comprising carbon microspheres having an arithmetic mean primary particle diameter (dn) of 150 to 1000 nm as measured under an electron microscope, a volatile matter content (Vm) of not more than 5.0%, a ﶴDst/Dst ratio of 0.40 to 1.10, wherein Dst represents Stokes mode diameter as measured with a disk centrifuge apparatus (DCF) and ﶴDst represents the half value width of the Stokes mode diameter, and a lattice spacing (d002) of not more than 0.370 nm as measured by X-ray diffractometry.

IPC Classes  ?

• H01M 4/58 - Selection of substances as active materials, active masses, active liquids of inorganic compounds other than oxides or hydroxides, e.g. sulfides, selenides, tellurides, halogenides or LiCoFySelection of substances as active materials, active masses, active liquids of polyanionic structures, e.g. phosphates, silicates or borates
• H01M 10/36 - Accumulators not provided for in groups

Abstract

Disclosed is a method for efficiently producing a separator material for solid polymer fuel cells, which enables to obtain a uniformly thin separator material with good quality characteristics for miniaturizing fuel cells. This method for producing a separator material for solid polymer fuel cells is characterized by sequentially performing the following steps 1-3. Step 1: A slurry having a viscosity of 100-1500 mPa s is prepared by dispersing 100 parts by weight of a carbonaceous powder in a resin solution which is obtained by dissolving 10-35 parts by weight of a resin binder and 0.1-10 parts by weight of a dispersing agent in an organic solvent. Step 2: A green sheet is prepared by immersing an organic material sheet having an opening area ratio (R) of through holes of 25-85% in the slurry for applying the slurry over the both sides of the organic material sheet, and then drying the resulting sheet for fixing the slurry thereon. Step 3: The green sheet is cut into a predetermined shape, and one cut sheet or a laminate of two or more cut sheets are subjected to hot pressing.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details
• H01M 8/10 - Fuel cells with solid electrolytes

Abstract

Disclosed is a negative electrode material for lithium ion secondary batteries having excellent rate characteristics, high reversible capacity and high initial efficiency. Also disclosed is a method for producing such a negative electrode material for lithium ion secondary batteries. Specifically disclosed is a negative electrode material for lithium ion secondary batteries, which is characterized by being composed of a composite particle having a core/shell structure, wherein the surface of a graphite powder having an average particle diameter of 5-30 &mgr;m and an average lattice spacing d(002) of less than 0.3360 nm is bound and covered with an amorphous carbon powder having an average particle diameter of 0.05-2 &mgr;m and an average lattice spacing d(002) of not less than 0.3360 nm, by a carbide of a binder pitch. A method for producing such a negative electrode material for lithium ion secondary batteries is characterized in that after mixing a graphite powder with a pitch having a softening point of 70-250˚C, an amorphous carbon powder is added thereto and the resulting is kneaded while applying a mechanical impact thereto, thereby softening the pitch for dispersing and fixing the amorphous carbon powder in the softened pitch, and finally the resulting is fired and carbonized in a non-oxidizing atmosphere.

IPC Classes  ?

• H01M 10/36 - Accumulators not provided for in groups
• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/58 - Selection of substances as active materials, active masses, active liquids of inorganic compounds other than oxides or hydroxides, e.g. sulfides, selenides, tellurides, halogenides or LiCoFySelection of substances as active materials, active masses, active liquids of polyanionic structures, e.g. phosphates, silicates or borates

Abstract

An aqueous carbon black pigment that when used in an ink for inkjet printer, etc., attains excellent water resistance and fixability of prints; and a water-based dispersion thereof. The aqueous carbon black pigment is characterized by being obtained by crosslink bonding of oxidized carbon black with a water soluble resin by a water-dispersible crosslinking agent in an aqueous medium. Preferably, the water soluble resin is a resin having a monomer unit of acrylic acid and/or acrylic acid derivative as a constituent thereof, a resin having a monomer unit of maleic acid and/or maleic acid derivative as a constituent thereof, a resin composed mainly of a styrene-acrylic acid copolymer, a resin composed mainly of a styrene-maleic acid copolymer or styrene-maleic anhydride copolymer, etc., and the water-dispersible crosslinking agent is an isocyanate compound. The water-based dispersion is one having this aqueous carbon black pigment in a concentration appropriate according to intended use dispersed in an aqueous medium.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09C 3/10 - Treatment with macromolecular organic compounds
• C09D 11/00 - Inks
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

A negative electrode material for lithium ion secondary battery that taking advantage of the excellent rate characteristics of carbon black, ensures a high-level reversible capacity and initial efficiency; and a process for producing the same. The negative electrode material for lithium ion secondary battery is characterized in that it consists of composite particles of graphite powder particle, carbon black and pitch carbide, the composite particles having an average particle diameter (D50) of 8 to 15 騜m and a specific surface area of 15 m2/g or less. The process for producing the same is characterized by conducting mixing/kneading of 30 to 120 parts by weight of pitch after removal of free carbon or pitch of less than 1% quinoline insoluble content with 100 parts by weight of mixed powder obtained by mixing graphite powder particles of 3 to 10 騜m average particle diameter (D50) and 0.2 騜m or less standard deviation thereof with carbon black in a weight ratio of 1 : 1.5 to 3.0, and thereafter subjecting the mixture to firing carbonization, or further graphitization, in a nonoxidative atmosphere at 1000°C or higher.

IPC Classes  ?

• C01B 31/02 - Preparation of carbon; Purification
• C01B 31/04 - Graphite
• H01M 10/36 - Accumulators not provided for in groups

Abstract

A process for producing a negative electrode material for lithium ion secondary battery having reduced irreversible capacity and increased reversible capacity through inhibiting of a fresh exposure of active surface of graphite generated by pulverization. The process is characterized in that graphite particles, pitch of 0.3% or less quinoline insoluble content and 50% or more fixed carbon content and a fusible organic substance of 50% or more volatile content when heated in air at 400°C and 3% or less residual carbon ratio when heated in an inert atmosphere at 800°C are melt kneaded together and the resultant mixture is fired so as to attain carbonization and graphitization and thereafter pulverized. In this process, preferably, the mixing ratio of graphite particles and pitch is such that 25 to 40 parts by weight of pitch is used per 100 parts by weight of carbonaceous particles, and the kneaded mixture after being molded into a molded form is fired so as to attain carbonization and graphitization and thereafter pulverized.

IPC Classes  ?

• C01B 31/04 - Graphite
• H01M 4/36 - Selection of substances as active materials, active masses, active liquids
• H01M 4/587 - Carbonaceous material, e.g. graphite-intercalation compounds or CFx for inserting or intercalating light metals

Abstract

A separator material for fuel cells which is homogeneous and reduced in thickness unevenness and which has a small thickness, with the thinnest-part thickness being 0.3 mm or smaller, and enables fuel cell miniaturization. It is characterized by being obtained by: superposing green sheets produced by the doctor blade method from a slurry obtained by dispersing a graphite powder in a resin solution comprising an organic solvent and, dissolved therein, a resin binder and a dispersant; and molding the superposed sheets by hot pressing. Also provided is a process for producing the separator material characterized by dispersing 100 parts by weight of a graphite powder in a resin solution comprising an organic solvent and, dissolved therein, 10-35 parts by weight of a resin binder and 0.1-10 parts by weight of a dispersant to prepare a slurry having a viscosity of 100-2,000 mPa쮏s, applying the slurry to a film by the doctor blade method, drying the slurry applied, subsequently stripping the resultant coating from the film to produce a green sheet, superposing layers of this green sheet, and molding the stack by hot pressing.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details
• H01M 8/10 - Fuel cells with solid electrolytes

Abstract

A separator material suitable for use in a solid polymer electrolyte fuel cell, which is low in electrical resistivity and in its anisotropy, has excellent impermeability to gas and can be provided at low cost. The separator material is characterized in that it comprises a plate molded product of graphite/cured resin, the graphite/cured resin comprises 100 parts by weight of a graphite powder formed of a mixture of an artificial graphite powder having an average particle diameter A of 1 to 15 騜m and a natural graphite powder having an average particle diameter B of A × (2 to 20) 騜m at a weight ratio of 80 : 20 to 60 : 40 and 10 to 35 parts by weight of a heat curing resin, the graphite powder having been bonded to and integrated with one another with the aid of the heat curing resin, the plate molded product having properties of an electrical resistivity of not more than 0.02 俑cm, an anisotropic ratio of the electrical resistivity of not more than 2, and a gas permeability of not more than 10-6 cm3/cm2쮏min. There is also provided a production process of the separator material, characterized by comprising mixing a graphite powder, a heat curing resin, a dispersant, and a dispersing agent together to prepare a slurry and molding the slurry by thermocompression molding into a plate, or alternatively depositing the slurry onto a base material sheet to prepare a green sheet and then molding the green sheet by thermocompression molding into a plate.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details
• H01M 8/10 - Fuel cells with solid electrolytes

Abstract

The invention provides surface-modified carbon black which exhibits excellent dispersibility in silicone oil which is a nonpolar medium; and dispersions of the surface-modified carbon black. The surface-modified carbon black is characterized by chemical bonding of an isocyanate compound having isocyanate groups at both ends which compound is bound to a functional group on the surface of carbon black by a urethane linkage to a reactive silicone polymer, while the dispersions are characterized by being produced by dissolving an isocyanate compound having isocyanate groups at both ends in a solvent, adding carbon black to the solution to bind an isocyanate group to the surface of carbon black particles by a urethane linkage, removing unreacted isocyanate compound, dispersing the resulting system in silicone oil, adding a reactive silicone polymer to the dispersion, and subjecting the resulting dispersion to mixing and defoaming.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09C 3/12 - Treatment with organosilicon compounds
• C09D 17/00 - Pigment pastes, e.g. for mixing in paints

Abstract

Disclosed are: a surface-modified carbon black pigment, which is suitable as a black-color microparticle for use in an electronic paper; a dispersion of the carbon black pigment in a silicone oil; and a process for production of the carbon black pigment. The carbon black pigment for an electronic paper comprises a surface-modified carbon black, in which a diphenylmethane group urethane-bound to a carbon black particle through a functional group on the surface of the carbon black particle is bound to a polysiloxane group. The carbon black dispersion for an electronic paper comprises 1 to 20% by weight of the carbon black pigment dispersed in a silicone oil. The process for production of the carbon black pigment comprises the steps of: reacting a functional group on the surface of a carbon black particle with a diphenyl compound having an isocyanate group at its both termini in a non-reactive organic solvent to cause the attachment the diphenylmethane group to the surface of the carbon black particle through an urethane bond; and binding a polysiloxane to the resulting compound in a silicone oil.

IPC Classes  ?

• G02F 1/167 - Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulatingNon-linear optics for the control of the intensity, phase, polarisation or colour based on translational movement of particles in a fluid under the influence of an applied field characterised by the electro-optical or magneto-optical effect by electrophoresis
• G02F 1/17 - Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulatingNon-linear optics for the control of the intensity, phase, polarisation or colour based on variable-absorption elements not provided for in groups

Abstract

Methods are disclosed for providing reduced particle generating silicon carbide. The silicon carbide articles may be used as component parts in apparatus used to process semiconductor wafers. The reduced particle generation during semiconductor processing reduces contamination on semiconductor wafers thus increasing their yield.

IPC Classes  ?

• H01L 21/4763 - Deposition of non-insulating-, e.g. conductive-, resistive-, layers on insulating layersAfter-treatment of these layers

Abstract

An aqueous carbon black dispersion in which the carbon black has excellent dispersibility in the aqueous medium and which, when used as a water-based black ink such as, e.g., an ink for ink-jet printers, is reduced in feathering and excellent in marring resistance (rapid-drying properties), delivery stability, etc.; and a process for producing the dispersion. The aqueous carbon black dispersion comprises an aqueous medium and, dispersed therein, a carbon black in which hydrogen-containing acid groups present on the surface of the carbon black particles have been neutralized with cations having a valence of 2 or higher and monovalent cations to replace 50-95% of the hydrogen groups of the acid groups with divalent cations and replace the remaining hydrogen groups with monovalent cations. The process for producing the dispersion is characterized by mixing a carbon black with an aqueous solution of an oxidizing agent to oxidize the carbon black in the liquid phase, thereafter removing the salt formed by reduction and contained in the resultant slurry, subsequently adding cations having a valence of 2 or higher and monovalent cations to the slurry to neutralize the carbon black and thereby replace 50-95% of the hydrogen groups in the acid groups with divalent cations and the remaining hydrogen groups with the monovalent cations, and then purifying the carbon black.

IPC Classes  ?

• C09D 17/00 - Pigment pastes, e.g. for mixing in paints
• B41J 2/01 - Ink jet
• B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
• C09C 1/56 - Treatment of carbon black
• C09C 3/06 - Treatment with inorganic compounds
• C09D 11/00 - Inks
• C09D 11/322 - Pigment inks
• C09D 11/324 - Pigment inks containing carbon black
• C09D 11/326 - Pigment inks characterised by the pigment dispersant
• C09D 11/38 - Inkjet printing inks characterised by non-macromolecular additives other than solvents, pigments or dyes

Abstract

Semiconductor processing and equipment are disclosed. The semiconductor equipment and processing provide semiconductor wafers with reduced defects.

IPC Classes  ?

• B24B 1/00 - Processes of grinding or polishingUse of auxiliary equipment in connection with such processes

Abstract

A water-dispersible carbon black pigment excellent in water dispersibility and ink performance; and a process for producing an aqueous carbon black dispersion. The water-dispersible carbon black pigment comprises a mixture of a carbon black (A) having a nitrogen-adsorption specific surface area of 150 m2/g or larger, a DBP absorption of 95 cm3/100 g or higher, and a specific coloring power of 120% or higher and a carbon black (B) having a nitrogen-adsorption specific surface area smaller than 150 m2/g, a DBP absorption less than 95 cm3/100 g, and a specific coloring power of 120% or higher in a proportion of from 20:80 to 80:20 by weight, these carbon blacks having undergone a surface oxidation treatment and a neutralization treatment, and at least the carbon black (A) having undergone a disaggregation treatment. The process comprises separately dispersing the carbon black (A) and the carbon black (B) in an aqueous oxidizing agent solution to conduct an oxidation treatment, subjecting these carbon blacks to a neutralization treatment, subjecting at least the carbon black (A) to a disaggregation treatment, thereafter purifying them, subsequently mixing the carbon black (A) with the carbon black (B) in a proportion of from 20:80 to 80:20 by weight, and then dispersing the resultant water-dispersible carbon black pigment into an aqueous medium.

IPC Classes  ?

• C09C 1/56 - Treatment of carbon black
• C09C 3/04 - Physical treatment, e.g. grinding, treatment with ultrasonic vibrations

Abstract

A separator material for fuel cells which has high electrical conductivity, high gas impermeability, large breaking strain, and excellent strength properties; and a process for producing the material. The separator material for fuel cells comprises a graphite/cured-resin molding obtained by bonding with a thermosetting resin sphered natural-graphite particles which have been obtained by sphering flaky natural graphite having an average particle diameter of 1-50 쎽m by the high-speed flow impact method and which have an average particle diameter of 20-100 쎽m, a particle density as measured in water of 2 g/cm3 or higher, a compressive resilience, as measured after pressing at a pressure of 50 MPa, of 120% or lower, and a density during the compression of 1.9 g/cm3 or higher. The process is characterized by producing sphered natural-graphite particles having these properties, kneading the sphered natural-graphite particles together with a thermosetting resin in such amounts that the proportion of the graphite particles to the solid component of the resin is from 90/10 to 65/35 by weight, subsequently drying the mixture, pulverizing it to produce a molding powder, packing the molding powder into a mold bearing grooves/ridges serving to form a gas channel, and molding it by hot pressing at a temperature of 120°C or higher and a pressure of 20-100 MPa.

IPC Classes  ?

• H01M 8/02 - Fuel cellsManufacture thereof Details