Patent application number | Description | Published |
20090241352 | BLADE USING ULTRA-HARD MICROSCOPIC PARTICLES - The present invention relates to a blade that comprises a blade main body and an edge part. In the blade main body and the edge part, one or more comprising the edge part are manufactured by using a powder composition that comprises less than 5% by weight of the ultra-hard particle powder having a particle size in the range of 1 μm to 5 μm based on a total weight of the powder composition and the balance metal powder forming a matrix according to a powder metallurgy process. The blade according to the present invention has a sawlike or wavy edge part to provide an excellent cutting ability. Even though the abrasion occurs by using the blade, since the sawlike or wavy edge part is semipermanently maintained, the cutting ability is not reduced. | 10-01-2009 |
20130133209 | Diamond-Containing Blade - Disclosed herein is a diamond-containing blade, including: a blade body having at proximal end a connection part to be fitted into a gripper; and an edge longitudinally formed along one side of the blade body, wherein the blade is manufactured by a process in which a power mixture for constituting the edge, including 20 wt % or less of diamond particles coated with Ti and having a particle size of 20 μm or less and residual Ti powder or Ti alloy powder, is charged in a space of a mold corresponding to the edge, Ti powder or Ti alloy powder for constituting the blade body is charged in another space of the mold corresponding to the blade body, the charged powders are pressed to obtain a molded product, the molded product is sintered to obtain a sintered body, and then an edge of the sintered body is sharpened. | 05-30-2013 |
Patent application number | Description | Published |
20090315139 | PATTERNING METHOD AND SEMICONDUCTOR DEVICE - A patterning method includes defining, in the case of an electric current which exceeds an allowable limit flowing between first conduction type well regions arranged in a semiconductor substrate, a first pattern between the first conduction type well regions; defining a second pattern by removing, in the case of a first region in which arrangement is inhibited being in the first pattern, the first region from the first pattern; defining a third pattern by removing, in the case of a second region which exceeds a fabrication limit being in the second pattern, the second region from the second pattern; and using the third pattern as a dummy active region in a second conduction type well region arranged in the semiconductor substrate. | 12-24-2009 |
20090327164 | LOAD DISTRIBUTING METHOD, COMPUTER PRODUCT, AND LOAD DISTRIBUTING APPARATUS - A load distributing method includes receiving information concerning resources of a terminal device from the terminal device in a grid on a network of a grid computing system; extracting, from a computation data group related to grid computing and based on the received information concerning resources, computation data corresponding to the resources; and distributing to the terminal device, the extracted computation data together with content reproducible during processing of the computation data. | 12-31-2009 |
20100014374 | FUSE ELEMENT READING CIRCUIT - A fuse element reading circuit including a first fuse element having a resistance which differs in accordance with whether the first fuse element is in a blown state or an unblown state, a reference voltage output circuit unit that outputs a reference voltage that differs in accordance with a normal mode or a test mode, and a voltage comparison circuit unit that compares a read voltage corresponding to the resistance of the first fuse element with the reference voltage output from the reference voltage output circuit unit. | 01-21-2010 |
20120297353 | PATTERNING METHOD AND SEMICONDUCTOR DEVICE - A patterning method includes defining, in the case of an electric current which exceeds an allowable limit flowing between first conduction type well regions arranged in a semiconductor substrate, a first pattern between the first conduction type well regions; defining a second pattern by removing, in the case of a first region in which arrangement is inhibited being in the first pattern, the first region from the first pattern; defining a third pattern by removing, in the case of a second region which exceeds a fabrication limit being in the second pattern, the second region from the second pattern; and using the third pattern as a dummy active region in a second conduction type well region arranged in the semiconductor substrate. | 11-22-2012 |
Patent application number | Description | Published |
20130072406 | FILLER PARTICLES, RESIN COMPOSITION, GREASE, AND COATING COMPOSITION - The object of the present disclosure is to obtain a filler particle having stable insulation property, and a resin composition, grease and a coating composition comprising the same, respectively. | 03-21-2013 |
20140103246 | METHOD FOR PRODUCING ALKALI METAL NIOBATE PARTICLES, AND ALKALI METAL NIOBATE PARTICLES - Disclosed are a method of producing fine particulate alkali metal niobate in a liquid phase system, wherein the size and shape of particles of the fine particulate alkali metal niobate can be controlled; and fine particulate alkali metal niobate having a controlled shape and size. Specifically disclosed are a method of producing particulate sodium-potassium niobate represented by the formula (1): Na | 04-17-2014 |
20140112862 | METHOD FOR PRODUCTION OF ZINC OXIDE PARTICLES - It is an object of the present invention to provide a new method for production of zinc oxide particles which can control the particle diameter and particle shape of obtained zinc oxide particles by selecting suitable conditions, and can prepare zinc oxide applicable to various applications. A method for production of zinc oxide particles, comprising a step of aging a zinc oxide raw material in an aqueous zinc salt solution. | 04-24-2014 |
20150050496 | SPHERICAL ZINC OXIDE PARTICLE CONSISTING OF INTEGRATED PLATE-LIKE PARTICLES, METHOD FOR PRODUCING THE SAME, COSMETIC, AND THERMAL CONDUCTIVE FILLER - It is an object of the present disclosure to provide spherical zinc oxide particles consisting of integrated plate-like particles which can be used as a cosmetic raw material, a thermal conductive filler and the like, and a method for production of the same. | 02-19-2015 |
Patent application number | Description | Published |
20110081548 | ZINC OXIDE PARTICLE, METHOD FOR PRODUCING IT, EXOERGIC FILLER, EXOERGIC RESIN COMPOSITION, EXOERGIC GREASE AND EXOERGIC COATING COMPOSITION - The object of the present disclosure is to obtain zinc oxide particle having large particle diameter and being high-density and to obtain an exoergic resin composition, an exoergic grease and an exoergic coating composition that show an excellent exoergic property by using it. | 04-07-2011 |
20110081550 | ZINC OXIDE PARTICLE, METHOD FOR PRODUCING IT, EXOERGIC FILLER, EXOERGIC RESIN COMPOSITION, EXOERGIC GREASE AND EXOERGIC COATING COMPOSITION - The object of the present disclosure is to obtain zinc oxide particle having large particle diameter and being high-density and to obtain an exoergic resin composition, an exoergic grease and an exoergic coating composition that show an excellent exoergic property by using it. | 04-07-2011 |
20110244236 | ZINC OXIDE PARTICLE, METHOD FOR PRODUCING IT, EXOERGIC FILLER, RESIN COMPOSITION, EXOERGIC GREASE AND EXOERGIC COATING COMPOSITION - The object of the present disclosure is to obtain zinc oxide particle having large particle diameter and being high-density and to obtain an exoergic resin composition, an exoergic grease and an exoergic coating composition than show an excellent exoergic property by using it. | 10-06-2011 |
20120064344 | METHOD FOR PRODUCING ALKALI METAL NIOBATE PARTICLES, AND ALKALI METAL NIOBATE PARTICLES - Disclosed are a method of producing fine particulate alkali metal niobate in a liquid phase system, wherein the size and shape of the particulate alkali metal niobate can be controlled; and fine particulate alkali metal niobate having a controlled shape and size. One of specifically disclosed is a method of producing a substantially rectangular cuboid particulate alkali metal niobate represented by MNbO | 03-15-2012 |
20120094126 | METHOD FOR PRODUCING ALKALI METAL NIOBATE PARTICLES, AND ALKALI METAL NIOBATE PARTICLES - Disclosed are a method of producing fine particulate alkali metal niobate in a liquid phase system, wherein the size and shape of particles of the fine particulate alkali metal niobate can be controlled; and fine particulate alkali metal niobate having a controlled shape and size. Specifically disclosed are a method of producing particulate sodium-potassium niobate represented by the formula (1): Na | 04-19-2012 |
20140044971 | ZINC OXIDE PARTICLES, METHOD FOR PRODUCTION OF THE SAME, AND COSMETIC, HEAT RELEASING FILLER, HEAT RELEASING RESIN COMPOSITION, HEAT RELEASING GREASE, AND HEAT RELEASING COATING COMPOSITION COMPRISING THE SAME - It is an object of the present invention to provide zinc oxide particles which have excellent ultraviolet blocking performance and also excellent dispersibility, and therefore can be suitably used as an ultraviolet blocking agent for cosmetics. Provided are zinc oxide particles having a primary particle diameter of less than 0.1 μm, an aspect ratio of less than 2.5 and an oil absorption/BET specific surface area of 1.5 ml/100 m | 02-13-2014 |
20140058029 | HEXAGONAL PRISM-SHAPED ZINC OXIDE PARTICLES, METHOD FOR PRODUCTION OF THE SAME, AND COSMETIC, HEAT RELEASING FILLER, HEAT RELEASING RESIN COMPOSITION, HEAT RELEASING GREASE, AND HEAT RELEASING COATING COMPOSITION COMPRISING THE SAME - It is an object of the present invention to provide hexagonal prism-shaped zinc oxide particles which have a specific particle diameter and a specific aspect ratio, and high ultraviolet blocking performance and transparency, and therefore can be suitably used as a cosmetic and a heat releasing material. Provided are hexagonal prism-shaped zinc oxide particles having a primary particle diameter of 0.1 μm or more and less than 0.5 μm and an aspect ratio of less than 2.5. | 02-27-2014 |
20140315024 | METHOD FOR PRODUCING ALKALI METAL NIOBATE PARTICLES, AND ALKALI METAL NIOBATE PARTICLES - Disclosed are a method of producing fine particulate alkali metal niobate in a liquid phase system, wherein the size and shape of the particulate alkali metal niobate can be controlled; and fine particulate alkali metal niobate having a controlled shape and size. One of specifically disclosed is a method of producing a substantially rectangular cuboid particulate alkali metal niobate represented by MNbO | 10-23-2014 |
Patent application number | Description | Published |
20110125910 | COMMUNICATION CONTROL SYSTEM, COMMUNICATION CONTROL METHOD, CALL CONTROL SERVER DEVICE, AND CALL CONTROL PROGRAM - Upon receipt of an access request from a Web terminal, a service providing server transmits a shop ID stored in an external information database to the Web terminal. When the shop ID is selected by the Web terminal, the service providing server acquires external connection destination information, and notifies a SIP proxy server of the information via the Web terminal. When notified of the information, the SIP proxy server identifies internal connection destination information in an internal information database, based on an IP address added at the time of the notification of the external connection destination information. After making a call to a telephone device with the use of the identified internal connection destination information, the SIP proxy server makes a call to the shop with the use of the external connection destination information. After that, the SIP proxy server establishes a connection between the telephone device and the shop. | 05-26-2011 |
20110196978 | SERVICE PROVIDING SYSTEM AND SERVICE PROVIDING METHOD - A service providing server collects call session information that identifies communication established between terminals and service usage IDs that identify the terminals for each terminal. Then, the service providing server identifies call session information pieces indicating the same communication and associates Web services with each other. When the service providing server provides the associated Web services to the terminals, the service providing server identifies service usage IDs that identify the terminals and control provision of the Web services so that each Web service is provided according to history information stored in a history information database in association with service usage IDs. | 08-11-2011 |