Patent application number | Description | Published |
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 |
20130315775 | RARE EARTH MAGNET AND METHOD FOR PRODUCING THE SAME - A rare earth magnet production method of the present invention includes a placing step of placing a magnet material including a compact or a sintered body of powder particles having a rare earth magnet alloy, and a diffusing material containing a diffusing element to improve coercivity, in a vicinity of each other; and a diffusing step of diffusing the diffusing element into an inside of the magnet material by exposing the magnet material heated to vapor of the diffusing element evaporated from the diffusing material heated; and wherein the diffusing step is a step of heating the diffusing material independently of the magnet material to diffusing material temperature which is different from heating temperature of the magnet material called magnet material temperature. | 11-28-2013 |
20130335180 | RARE EARTH MAGNET AND PROCESS FOR PRODUCING SAME - A process for producing a rare earth magnet comprises: an adhesion step of causing a diffusion element capable of diffusing inwardly to adhere to the surface part of a magnet material comprising a compact or sintered body of rare earth alloy particles; and an evaporation step of heating the magnet material in vacuum to evaporate at least a portion of the diffusion element having been retained on or in the surface part of the magnet material. | 12-19-2013 |
20140242267 | RARE-EARTH MAGNET AND METHOD FOR PRODUCING THE SAME - Provided is a rare-earth magnet containing no heavy rare-earth metals such as Dy or Tb in a grain boundary phase, has a modifying alloy for increasing coercivity (in particular, coercivity under a high-temperature atmosphere) infiltrated thereinto at lower temperature than in the conventional rare-earth magnets, has high coercivity, and has relatively high magnetizability, and a production method therefor. The rare-earth magnet RM includes a RE-Fe—B-based main phase MP with a nanocrystalline structure (where RE is at least one of Nd or Pr) and a grain boundary phase BP around the main phase, the grain boundary phase containing a RE-X alloy (where X is a metallic element other than heavy rare-earth elements). Crystal grains of the main phase MP are oriented along the anisotropy axis, and each crystal grain of the main phase, when viewed from a direction perpendicular to the anisotropy axis, has a plane that is quadrilateral in shape or has a close shape thereto. | 08-28-2014 |
20140308441 | METHOD OF MANUFACTURING RARE-EARTH MAGNETS - A method of manufacturing rare-earth magnets includes, a first step of producing a compact C by subjecting a sintered body S, which is formed of a RE—Fe—B main phase MP having a nanocrystalline structure (where RE is at least one of neodymium and praseodymium) and a grain boundary phase BP of an RE—X alloy (where X is a metal element) located around the main phase, to hot plastic processing that imparts anisotropy; and a second step of producing a rare-earth magnet RM by melting a RE—Y—Z alloy which increases the coercive force of the compact C (where Y is a transition metal element, and Z is a heavy rare-earth element), together with the grain boundary phase BP, and liquid-phase infiltrating the RE—Y—Z alloy melt from a surface of the compact C. | 10-16-2014 |
20150014178 | FILM FORMATION DEVICE AND FILM FORMATION METHOD FOR FORMING METAL FILM - Provided are a film formation device and a film formation method for forming a metal film, with which metal films with a desired thickness can be continuously formed on surfaces of a plurality of substrates. A film formation device | 01-15-2015 |
20150218723 | ELECTROPLATING CELL, AND METAL COATING AND METHOD OF FORMING THE SAME - An electroplating cell includes: (i) an anode chamber in which an anode chamber solution is stored; and (ii) a separator that includes a base material and an organic plating additive contained in the base material, separates the anode chamber and a cathode from each other, and selectively allows permeation of metal ions contained in the anode chamber solution. | 08-06-2015 |
20150329982 | ELECTROPLATING CELL, AND METHOD OF FORMING METAL COATING - An electroplating cell includes: an anode chamber in which an anode chamber solution is stored; and a separator that separates the anode chamber and a cathode. The electroplating cell undergoes a modification treatment of introducing a carboxylic acid group or a derivative thereof into a base material of the separator. The separator selectively allows permeation of metal ions contained in the anode chamber solution. | 11-19-2015 |