Class / Patent application number | Description | Number of patent applications / Date published |
419027000 | Impregnation | 19 |
20090263267 | METHOD FOR MANUFACTURING A POROUS OIL-IMPREGNATED REVOLVING SHAFT ASSEMBLY - A method for manufacturing a porous oil-impregnated revolving shaft assembly includes following steps: 1) offering an amount of metal powder, a particle diameter of the metal powder ranging from 1 μm to 150 μm; 2) offering a mold cavity and filling the metal powder in the mold cavity to form a green piece, a plurality of pores being defined between the metal powder of the green piece; 3) heating the green piece at a high temperature to sinter the metal powder to obtain a sintered product, a volume ratio of pores of the sintered product ranging from 12% and 20%; 4) dipping the sintered product into oil to make the oil enter the pores of the sintered product to thereby obtain a final desired product for forming the porous oil-impregnated revolving shaft assembly. | 10-22-2009 |
20100092327 | Process For Making Copper Tungsten And Copper Molybdenum Composite Electronic Packaging Materials - From tungsten or molybdenum powders, a tungsten or molybdenum compact is pressurized and molded into the same dimensions as or slightly larger than the end product and sintered into tungsten or molybdenum skeleton. After copper infiltration, chemical copper etching is applied to remove excess surface copper. A machining allowance with an absolute value >0-≦0.1 mm may be applied for the machining of uneven surfaces resulting from the chemical process of copper removal. | 04-15-2010 |
20100111745 | METHOD OF PRODUCING COMPOSITE MATERIALS THROUGH METAL INJECTION MOLDING - A method for impregnating a metal injected material to produce a composite article ( | 05-06-2010 |
20100247367 | METHOD OF PRODUCING RARE-EARTH MAGNET - A method of producing a rare-earth magnet containing a rare-earth compound having a first rare-earth element and a second rare-earth element different from the first rare-earth element includes: a mixing step of mixing rare-earth compound powder including the first rare-earth element and subjected to a process based on hydrogenation disproportionation desorption recombination with a diffusion material including the second rare-earth element; a molding step of molding the mixed powder into a compact in a magnetic field; and a heating step of heating the compact to diffuse the second rare-earth element into the rare-earth compound powder. | 09-30-2010 |
20110044837 | SLEEVE FOR HYDRODYNAMIC BEARING DEVICE, HYDRODYNAMIC BEARING DEVICE AND SPINDLE MOTOR USING THE SAME, AND METHOD FOR MANUFACTURING SLEEVE - A bearing stiffness of a sintered metal sleeve is prevented from lowering. A sleeve includes an inner section formed of metal powder for sintering and a resin for impregnation, and a surface deformation section which covers a surface of the inner section and is formed by shot blast process. Since the surface deformation section is formed by the shot blast process, the number of pores formed between the metal powder for sintering near the surface can be reduced. In this way, a supporting pressure at a bearing portion can be prevented from being released out through the pores, and the bearing stiffness can be prevented from lowering. | 02-24-2011 |
20110311389 | METHODS FOR MANUFACTURING TURBINE COMPONENTS - A method is provided for manufacturing a turbine component. The method includes forming a first intermediate turbine article with an additive manufacturing process; encapsulating the first intermediate turbine article with an encapsulation layer to form a second intermediate turbine article; and consolidating the second intermediate turbine article to produce the turbine component. | 12-22-2011 |
20120230859 | MARAGING STEEL ARTICLE AND METHOD OF MANUFACTURE - A fully dense, powder-metallurgy produced maraging steel alloy article of prealloyed powder for use as a tool for high temperature applications. The article in the as-produced condition having a hardness less than 40 HRC to provide machinability and thereafter the article upon maraging heat treatment having a hardness greater than 45 HRC. A method for producing this article comprises compacting prealloyed powder to produce a fully dense article having a hardness less than 40 HRC and thereafter maraging heat treating to a hardness greater than 45 HRC. | 09-13-2012 |
20120269671 | METHOD FOR PRODUCTION OF TITANIUM WELDING WIRE - A process for producing a weldable titanium or titanium alloy wire characterised in that full consolidation of the wire is achieved via solid-state processing entailing compaction, extrusion, and rolling, whereby melting of the constituent titanium sponge particles does not occur. | 10-25-2012 |
20130195710 | METHOD FOR MANUFACTURING RARE-EARTH MAGNET - Provided is a manufacturing method of a rare-earth magnet capable of penetrant-diffusing a modifier alloy to increase a coercive force (especially a coercive force under a high-temperature atmosphere) at a temperature lower than the conventional method for manufacturing a rare-earth magnet without using heavy rare-earth metals such as Dy and Tb, and accordingly capable of manufacturing a high coercivity rare-earth magnet at the lowest cost possible. A method for manufacturing a rare-earth magnet includes the steps of: first step of pressing-forming powder as a rare-earth magnet material to form a compact S, the powder including a RE-Fe—B main phase MP (RE: at least one type of Nd and Pr) and a RE-X alloy (X: metal element) grain boundary phase surrounding the main phase; and second step of bringing a modifier alloy M into contact with the compact S or a rare-earth magnet precursor C obtained by hot deformation processing of the compact S, followed by heat treatment to penetrant-diffuse melt of the modifier alloy M into the compact S or the rare-earth magnet precursor C to manufacture the rare-earth magnet RM, the modifier alloy including a RE-Y (Y: metal element and not including a heavy rare-earth element) alloy having a eutectic or a RE-rich hyper eutectic composition. | 08-01-2013 |
20130302202 | IRON BASED POWDERS FOR POWDER INJECTION MOLDING - An iron-based powder composition for metal injection molding having an average particle size of 20-60 μm, and having 99% of the particles less than 120 μm wherein the iron-based powder composition includes, by weight percent of the iron-based powder composition: Mo: 0.3-1.6, P: 0.1-0.6, optionally Cu: up to 3.0, optionally Si: up to 0.6, optionally Cr: up to 5, optionally, unavoidable impurities: up to 1.0, whereof carbon is less than 0.1, the balance being iron, and wherein the sum of Mo and 8*P content is within the range of 2-4.7. | 11-14-2013 |
20130323109 | RARE-EARTH BOND MAGNET MANUFACTURING METHOD - A method for producing a bonded rare-earth magnet according to an embodiment of the present invention includes the steps of: providing a rapidly solidified rare-earth magnet alloy powder; providing a solution in which a resin that is in solid phase at an ordinary temperature is dissolved in an organic solvent; mulling the rapidly solidified rare-earth magnet alloy powder and the solution together and vaporizing the organic solvent, thereby making a bonded rare-earth magnet compound in which magnet powder particles that form the rapidly solidified rare-earth magnet alloy powder are coated with the resin; making a compressed compact by compressing the bonded rare-earth magnet compound under a pressure of 1000 MPa to 2500 MPa; and thermally treating the compressed compact. If the rapidly solidified rare-earth magnet alloy powder to be mulled is 100 mass %, the solution includes 0.4 mass % to 1.0 mass % of the resin and 1.2 mass % to 20 mass % of the organic solvent. | 12-05-2013 |
20140127071 | MANUFACTURING METHOD OF MAGNETIC REFRIGERATION MATERIAL - In a manufacturing method of a magnetic refrigeration material, a powder material made of La (Fe, Si) | 05-08-2014 |
20140286813 | METHOD FOR MANUFACTURING HIGH MELTING POINT METAL BASED OBJECTS - A method for manufacturing a high melting point metal based object includes providing pure high melting point metal based powder, fabricating a green object from the powder, by way of a laser sintering technique, providing infiltration treatment to the green object, and providing heating pressure treatment to the green object. The temperature to the green object is controlled to the re-sintering point of the green object. | 09-25-2014 |
20140328712 | Vacuum heat treatment method and equipment for NdFeB rare earth permanent magnetic devices - A vacuum heat treatment method for NdFeB rare earth permanent magnetic devices and an equipment thereof are disclosed. A rotary vacuum heat treatment equipment is for processing the NdFeB rare earth permanent magnetic devices with a vacuum heat treatment and obviously improves magnetic performance of the NdFeB rare earth permanent magnetic device, especially coercivity, which facilitates reducing a usage of heavy rare earth elements and protecting rare earth resources. Thus the vacuum heat treatment method and the equipment thereof are able to manufacture high-performance rare earth permanent magnetic devices. | 11-06-2014 |
20140341773 | MAGNETIC REFRIGERATION MATERIAL AND MANUFACTURING METHOD OF MAGNETIC REFRIGERATION MATERIAL - A magnetic refrigeration material includes alloy represented by a composition formula of La(Fe, Si) | 11-20-2014 |
20160064150 | METHOD FOR PRODUCING LOW-OXYGEN VALVE-METAL SINTERED BODIES HAVING A LARGE SURFACE AREA - A process for producing a sintered body includes pressing a powder comprising or consisting of at least one valve metal so as to provide a pellet, providing the pellet together with a reducing agent so that the pellet is not in a direct contact with and does not come into a direct contact with the reducing agent, heating so that the powder in the pellet is sintered to form a sintered body, an oxygen content of the at least one valve metal within the sintered body is simultaneously reduced, and the reducing agent is oxidized to an oxidized reducing agent, and removing the oxidized reducing agent with at least one mineral acid. | 03-03-2016 |
20160158844 | Method Of Producing Alloyed Metallic Products - A method of producing a finished essentially 100% dense homogenous alloyed metallic product. First, a metal powder is provided comprised of particles with each particle having a predetermined alloy content. Next, the metal powder is blended with a mixture of a lubricant and a binder to form a composite powder. That composite powder is then compacted in a compacting die at room temperature to form a green part. The lubricant and binder ate then removed by heating the green part to at least a first temperature profile in a confined atmosphere with a predetermined dew point profile. Next, the remaining green part is heated to a second temperature higher than the first temperature and with predetermined dew point and H | 06-09-2016 |
20160184897 | METHOD OF PRODUCING A THREE-DIMENSIONAL COMPONENT - A method of producing a hardened component includes forming a 3-dimensional (3D) structure using an additive manufacturing process. The method includes forming the 3D structure using the additive manufacturing process and defining one or more passages there within. The method further includes heating the 3D structure in a pre-defined chamber to increase a temperature of the 3D structure to a pre-determined value. The method thereafter includes performing at least one of: infusing the plurality of passages defined in the heated 3D structure with a gaseous medium for at least a pre-defined period of time, and quenching the plurality of passages in the 3D structure with a quenching fluid for a pre-defined period of time. | 06-30-2016 |
20170232520 | PROCESS FOR PRODUCING ELECTRODE MATERIAL, AND ELECTRODE MATERIAL | 08-17-2017 |