Patent application number | Description | Published |
20100277041 | FLEXURAL VIBRATION PIECE - A flexural vibration piece includes: a base portion; and a vibration arm extending from the base portion, wherein the vibration arm has first and second main faces which are arranged to be opposite each other, the first and second main faces respectively have first and second grooves which are formed in the longitudinal direction of the vibration arm, the first groove has a plurality of first groove portions which are divided in the longitudinal direction of the vibration arm and arranged to be alternately shifted on both sides with respect to the longitudinal center line of the vibration arm in the longitudinal direction, the second groove has a plurality of second groove portions which are divided in the longitudinal direction of the vibration arm, and arranged to be alternately shifted on both sides with respect to the longitudinal center line of the vibration arm in the longitudinal direction and on an opposite side to the first groove portions with respect to the longitudinal center line, and a predetermined voltage is applied to first excitation electrodes provided at the first groove and the second groove and second excitation electrodes provided on both side faces of the vibration arm, such that the vibration arm flexural-vibrates in the in-plane direction of the first or second main face. | 11-04-2010 |
20110080070 | TUNING-FORK RESONATOR WITH GROOVES ON PRINCIPAL SURFACES - A resonator element includes: a base part; and a resonating arm part that extends from the base part in a first direction and performs flexing vibration, wherein the resonating arm part has one principal surface and the other principal surface opposed to the one principal surface, a first groove part provided along the first direction of the resonating arm part on the one principal surface, a second groove part provided in juxtaposition with the first groove part in a second direction orthogonal to the first direction in a plan view on the other principal surface, a third groove part provided in juxtaposition with the first groove part in the first direction in the plan view and provided nearer the base part side than the first groove on the other principal surface, and a fourth groove part provided in juxtaposition with the second groove part in the first direction in the plan view and provided nearer the base part side than the second groove on the one principal surface, and wherein a sum of a depth of the first groove part and a depth of the second groove part and a sum of a depth of the third groove part and a depth of the fourth groove part are larger than a distance between the one principal surface and the other principal surface. | 04-07-2011 |
20110181156 | TUNING-FORK RESONATOR WITH GROOVES ON PRINCIPAL SURFACES - A resonator having a base part; and a resonating arm that performs flexing vibration, the resonating arm part has two principal surfaces, a first groove provided on the one principal surface, a second groove provided in juxtaposition with the first groove on the other principal surface, a third groove provided in juxtaposition with the first groove and provided nearer the base part side than the first groove on the other principal surface, and a fourth groove provided in juxtaposition with the second groove and provided nearer the base part side than the second groove on the principal surface. The sum of a depth of the first and second groove part and a sum of a depth of the third and fourth groove part are larger than a distance between the one principal surface and the other principal surface. | 07-28-2011 |
20120092084 | TUNING-FORK RESONATOR WITH GROOVES ON PRINCIPAL SURFACES - A resonator having a base part; and a resonating arm that performs flexing vibration, the resonating arm part has two principal surfaces, a first groove provided on the one principal surface, a second groove provided in juxtaposition with the first groove on the other principal surface, a third groove provided in juxtaposition with the first groove and provided nearer the base part side than the first groove on the other principal surface, and a fourth groove provided in juxtaposition with the second groove and provided nearer the base part side than the second groove on the principal surface. The sum of a depth of the first and second groove part and a sum of a depth of the third and fourth groove part are larger than a distance between the one principal surface and the other principal surface. | 04-19-2012 |
20120194283 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, AND ELECTRONIC APPARATUS - A vibrator element includes a base section, vibration arms, and excitation electrodes provided to the respective vibration arms, the excitation electrodes each include a first electrode disposed on a principal surface side of the vibration arm, a second electrode disposed so as to be opposed to the first electrode, and a piezoelectric body extending between the first electrode and the second electrode, and ITO is used as at least one of the first electrode and the second electrode. | 08-02-2012 |
20120194285 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, AND ELECTRONIC DEVICE - A vibrator element includes: a base portion; and three vibrating arms that extend from the base portion in the Y axis direction. The vibrating arms are arranged in the X axis direction, include excitation electrodes on a principal face, and vibrate in the Z axis direction . When an arm width of the vibrating arm, which is located at the center of the arrangement, in the X axis direction is W1, each arm width of the other vibrating arms in the X axis direction is W, an electrode width of the excitation electrode of the vibrating arm, which is located at the center of the arrangement, in the X axis direction is Al, and each electrode width of the excitation electrodes of the other vibrating arms in the X axis direction is A, 1.3508-02-2012 | |
Patent application number | Description | Published |
20090178260 | VIBRATING PIECE MANUFACTURING METHOD AND VIBRATOR MANUFACTURING METHOD - A vibrating piece manufacturing method includes: (a) preparing a supporting body having first and second surfaces, the first and second surfaces defining a thickness while being directed toward opposite directions, the supporting body including a base and a plurality of arms, the arms extending side-by-side in a direction orthogonal to a direction of the thickness from the base, a lower electrode film being disposed on the first surface of each of the arms, a piezoelectric film being disposed on the lower electrode films, at least one upper electrode film being disposed on the piezoelectric film, at least a part of the second surface of each of the arms being an exposed area; and (b) etching the exposed area of the second surface so as to reduce the thickness to reduce flexural rigidity of the arms with respect to the thickness direction. | 07-16-2009 |
20100244973 | FLEXURAL VIBRATION PIECE AND OSCILLATOR USING THE SAME - A flexural vibration piece includes: a flexural vibrator that has a first region on which a compressive stress or a tensile stress acts due to vibration and a second region having a relationship in which a tensile stress acts thereon when a compressive stress acts on the first region and a compressive stress acts thereon when a tensile stress acts on the first region, and performs flexural vibration in a first plane; and a heat conduction path, in the vicinity of the first region and the second region, that is formed of a material having a thermal conductivity higher than that of the flexural vibrator and thermally connects between the first region and the second region, wherein when m is the number of heat conduction paths, α | 09-30-2010 |
20110198969 | FLEXURAL VIBRATING REED, FLEXURAL VIBRATOR, AND PIEZOELECTRIC DEVICE - Deterioration of the Q value caused by the thermoelastic effect is suppressed. Since a first depth of a first groove and a second depth of a second groove are smaller than a distance between a surface including a third surface and a surface including a fourth surface, the first and second grooves do not penetrate between the surface including the third surface and the surface including the fourth surface. In addition, the sum of the first depth of the first groove and the second depth of the second groove is greater than the distance between the third and fourth surfaces, a heat transfer path between a first expandable portion (the first surface) and a second expandable portion (the second surface) cannot be formed as a straight line. As such, the heat transfer path between the first expandable portion (the first surface) and a second expandable portion (the second surface) is made to detour to the first and second grooves and and thus be lengthened. | 08-18-2011 |
20110227450 | RESONATOR BODY, RESONATOR DEVICE, AND ELECTRONIC DEVICE - A resonator body includes a base portion, resonating arms that are extended from the base portion, piezoelectric body elements that are arranged on the resonating arms, first electrode layers that are arranged on the resonating arms, piezoelectric body layers that are arranged on the first electrode layers and second electrode layers that are arranged on the piezoelectric body layers, and a plurality of fine holes that penetrates at least any one layer of these layers in a thickness direction is formed. | 09-22-2011 |
20110227451 | RESONATOR BODY, RESONATOR DEVICE, AND ELECTRONIC DEVICE - A resonator body of a resonator device includes a base portion, two resonating arms that are extended from the base portion in a Y axis direction and arranged in parallel to an X axis direction that is orthogonal to the Y axis direction, and excitation electrodes that are arranged on each of the resonating arms in a pair and excite the resonating arms by applying an electric current, wherein a plurality of holes that partially penetrates at least one side of a pair of excitation electrodes in a thickness direction is formed so that the vibration characteristic of the resonating arm is adjusted. | 09-22-2011 |
20120212109 | VIBRATING PIECE MANUFACTURING METHOD AND VIBRATOR MANUFACTURING METHOD - A vibrating piece manufacturing method includes: (a) preparing a supporting body having first and second surfaces, the first and second surfaces defining a thickness while being directed toward opposite directions, the supporting body including a base and a plurality of arms, the arms extending side-by-side in a direction orthogonal to a direction of the thickness from the base, a lower electrode film being disposed on the first surface of each of the arms, a piezoelectric film being disposed on the lower electrode films, at least one upper electrode film being disposed on the piezoelectric film, at least a part of the second surface of each of the arms being an exposed area; and (b) etching the exposed area of the second surface so as to reduce the thickness to reduce flexural rigidity of the arms with respect to the thickness direction. | 08-23-2012 |
20120267985 | FLEXURAL VIBRATION PIECE AND OSCILLATOR USING THE SAME - A flexural vibration piece includes a flexural vibrator that has a first region on which a compressive stress or a tensile stress acts due to vibration and a second region having a relationship in which a tensile stress acts thereon when a compressive stress acts on the first region and a compressive stress acts thereon when a tensile stress acts on the first region, and performs flexural vibration in a first plane. The flexural vibration piece also includes a heat conduction path, in the vicinity of the first region and the second region, that is formed of a material having a thermal conductivity higher than that of the flexural vibrator and thermally connects between the first region and the second region. | 10-25-2012 |
20140239776 | VIBRATOR ELEMENT, VIBRATOR, ELECTRONIC DEVICE, ELECTRONIC APPARATUS, AND MOVING OBJECT - A tuning fork type vibrator element, as a vibrator element, includes a base formed on a plane including a first axis and a second axis orthogonal to the first axis, a connection portion extending in a first axis direction from the base, with a thickness thereof being smaller than that of the base and a vibrating arm extending in the first axis direction from one end portion of the connection portion, with a thickness thereof being the same as that of the connection portion, in which the vibrating arm performs flexural vibration along a vertical direction with respect to the plane, and in which the connection portion is provided such that a relationship between a length L2 in the first axis direction of the connection portion and a length L1 in the first axis direction of the vibrating arm falls within a range of L1/15≦L2≦L1. | 08-28-2014 |
20150022274 | PIEZOELECTRIC FILM PRODUCING PROCESS, VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, ELECTRONIC DEVICE, AND MOVING OBJECT - A piezoelectric film producing process includes depositing a piezoelectric body in a mixed atmosphere of N | 01-22-2015 |
20150022275 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - A vibrator element includes a base portion, a vibrating arm extending from the base portion, a first electrode provided on the vibrating arm, a second electrode provided above the first electrode, a piezoelectric body arranged between the first electrode and the second electrode, and an insulating film arranged between the first electrode and the piezoelectric body, in which the material of the first electrode contains TiN, the material of the insulating film contains SiO | 01-22-2015 |
Patent application number | Description | Published |
20110288834 | FLUID STRUCTURE INTERACTION SIMULATION METHOD AND APPARATUS, AND COMPUTER-READABLE STORAGE MEDIUM - A fluid structure interaction simulation method includes a graph information forming process to form graph information of nodes obtained by discretising a computing region for each of a fluid and a structure that are represented by meshes, and a main time development loop process to simulate a physical phenomenon. The loop process includes arranging IMEs (Interaction Mediating Elements) that move with a displacement of the structure, on a boundary of the structure, defining, within the IME, correcting functions of a pressure and a velocity of the fluid that interact with the pressure and the velocity of the fluid and the displacement of the structure, and executing a simulation based on the correcting functions, in a state in which the meshes of the fluid are mismatched to the meshes of the structure. | 11-24-2011 |
20110304724 | PHYSICAL PROPERTIES MEASURING METHOD AND APPARATUS - A physical properties measuring method includes: acquiring an experimental convergent beam electron diffraction image of a sample by using a transmission electron microscope; calculating Zernike moment intensities of the experimental convergent beam electron diffraction image; and comparing the Zernike moment intensities of the experimental convergent beam electron diffraction image with Zernike moment intensities of calculated convergent beam electron diffraction images calculated on changed physical properties of the sample. | 12-15-2011 |
20130043386 | IMAGE PROCESSING APPARATUS, AN IMAGE GENERATING METHOD, AND A SYSTEM - The method disclosed in this specification includes: acquiring a dark-field image produced by capturing an image of a sample with a scanning transmission electron microscope by detecting electrons scattered at angles between a first angle to the optical axis of the scanning transmission electron microscope and a second angle which is larger than the first angle; acquiring a bright-field image captured simultaneously with the dark-field image by detecting electrons scattered within a third angle which is smaller than the first angle; generating a reverse image by reversing lightness and darkness of the dark-field image; and generating a difference image each of whose pixels has a brightness value equal to the difference between the brightness of the corresponding pixel in the reverse image and the brightness of the corresponding pixel in the bright-field image. | 02-21-2013 |
20150115155 | SCANNING TRANSMISSION ELECTRON MICROSCOPE SYSTEM, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING APPARATUS - A scanning transmission electron microscope system includes: an annular dark-field detector; an electron energy loss spectroscopic apparatus configured to acquire an electron energy loss spectroscopy spectrum of a first electron beam from the annular dark-field detector; and an image processing apparatus configured to generate a first STEM image based on an output signal from the annular dark-field detector and generate a second STEM image based on an integrated value of the electron energy loss spectroscopy spectrum. | 04-30-2015 |
Patent application number | Description | Published |
20110309409 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor substrate having an electronic circuit including a power supply line and a ground line formed thereon; and an electrostatic discharge protection element provided between the power supply line and the ground line on the semiconductor substrate, the electrostatic discharge protection element including a thyristor and a trigger diode driving the thyristor, wherein the trigger diode includes an anode diffusion layer formed on the semiconductor substrate, a cathode diffusion layer formed on the semiconductor substrate apart from the anode diffusion layer, and a gate electrode formed between the anode diffusion layer and the cathode diffusion layer on the semiconductor substrate, a gate insulation film being interposed between the semiconductor substrate and the trigger diode, and an external terminal to be connected to an external power supply is electrically connected to the gate electrode. | 12-22-2011 |
20120307410 | SEMICONDUCTOR INTEGRATED CIRCUIT AND MANUFACTURING METHOD THEREOF - A semiconductor integrated circuit includes a protected circuit connected to two power supply lines that provide a supply voltage, a detecting circuit that includes a resistive element and a capacitive element connected in series between two power supply lines and detects a surge generated in the power supply line based on potential variation of an inter-element connecting node, and a protection transistor that is connected between two power supply lines and has a control electrode connected to an output of the detecting circuit. The protection transistor has the control electrode formed from a different electrode material having a work function difference from a transistor of the same channel conductivity type in the protected circuit, to have a different threshold voltage from the transistor so that the amount of leakage current per unit channel width may be smaller compared with the transistor. | 12-06-2012 |
20150083071 | CONTROL APPARATUS AND CONTROL METHOD FOR DIESEL ENGINE - A control apparatus for a diesel engine includes a neighboring temperature estimating section which estimates a temperature of a neighborhood of a glow plug that heats an interior of a cylinder upon startup, and a supercharging pressure control section which controls a supercharging pressure in such a way that a rotation fluctuation of the engine does not increase, on the basis of the estimated temperature of the neighborhood of the glow plug. | 03-26-2015 |
Patent application number | Description | Published |
20120015687 | SEMICONDUCTOR PACKAGE AND MOBILE DEVICE USING THE SAME - According to an embodiment, a semiconductor package includes a semiconductor chip mounted on an interposer board, a encapsulant sealing the semiconductor chip, and a conductive shielding layer covering the encapsulant and at least part of a side surface of the interposer board. The interposer board has plural vias through an insulating substrate. A part of the plural vias has a cutting plane exposing to the side surface of the interposer board and cut in a thickness direction of the interposer board. The cutting plane of the via is electrically connected to the conductive shielding layer. | 01-19-2012 |
20120187585 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE AND MOBILE COMMUNICATION DEVICE - A manufacturing method of a semiconductor device includes: sealing a semiconductor chip with a sealing resin containing a filler; exposing a part of the filler; etching at least a part of the exposed filler; and forming a metal film at least at a part of a surface of the sealing resin including inner surfaces of holes formed at the surface of the sealing resin by the etching. | 07-26-2012 |
20140196505 | GLASS PREFORM HEATING FURNACE - The present invention provides a glass preform heating furnace in which the occurrence of arching is suppressed. The glass preform heating furnace is equipped with a susceptor ( | 07-17-2014 |
20140338400 | METHOD FOR MANUFACTURING SOOT GLASS DEPOSIT BODY AND BURNER FOR MANUFACTURING SOOT GLASS DEPOSIT BODY - A soot glass deposit body is manufactured by placing a starting rod and a burner | 11-20-2014 |
20150033799 | GLASS PARTICLE DEPOSIT PRODUCING METHOD AND GLASS PREFORM PRODUCING METHOD - A glass particle deposit producing method capable of preventing the variation in the outside diameter of a glass particle deposit and enhancing the yield of a glass raw material is provided. A glass particle deposit is produced by mounting a starting rod | 02-05-2015 |
Patent application number | Description | Published |
20120061966 | WIND POWER GENERATION CONTROL DEVICE AND WIND POWER GENERATION CONTROL METHOD - A wind power generation control device which controls a wind power generator using a wind turbine blade having a fixed pitch angle is provided. The wind power generation control device which controls the wind power generator in which an output current value outputted by the wind power generator is detected, an output voltage value outputted by the wind power generator is detected, a rotational speed of the wind turbine blade is detected, and on the basis of the detected output current value at the current time, the detected output voltage value at the current time, and the detected rotational speed at the current time, output power at the rotational speed at the current time is calculated, and on the basis of the calculated output power and blade aerodynamic properties, which are properties inherent to the wind turbine blade, the wind power generator is controlled so that an optimal amount of power corresponding to the wind speed can be efficiently obtained in a relatively low wind speed region and a wind power generation control method for controlling the wind power generator are provided. | 03-15-2012 |
20130009397 | WIND POWER GENERATION DEVICE - Provided is a wind power generation apparatus to which general purpose inverters are applicable. An inverter in a constant-voltage mode is used. While a wind power generator is generating electricity, switching circuits are turned on and off at a controlled duty cycles to intermittently short-circuit an armature winding, boosting the voltage and controlling the rotational speed of a windmill rotating blade, with the result that the voltage applied to the inverter is made constant. At the activation, in order to prevent an excessive voltage from being generated while an inverter is changing from the stand-by state to the activated state, ON/OFF control of a switching circuit is performed to switch between the output voltage of a rectifier and the voltage generated at a resistor, with the result that the voltage is controlled and maintained at an appropriate value. | 01-10-2013 |
Patent application number | Description | Published |
20120075507 | RADIATION IMAGING APPARATUS AND CONTROL METHOD FOR RADIATION IMAGING APPARATUS - A radiation imaging apparatus includes an imaging unit and an imaging control unit. The imaging control unit causes a switch unit, a accumulation unit, a removal unit, a holding unit, and an addition unit, which constitute a pixel circuit of the imaging unit, to operate at a timing before imaging operation by the imaging unit so as to fix unstable voltages of the accumulation unit, the removal unit, the holding unit, and the addition unit to a predetermined voltage of a power supply connected via a switch unit. | 03-29-2012 |
20120075515 | IMAGING APPARATUS AND CONTROL METHOD THEREOF - A radiation imaging apparatus includes: a radiation detection unit in which a plurality of photoelectric conversion units to convert radiation signals into charge signals and store the charge signals is located; a storage control unit configured to control the storage of the charge signals executed by the plurality of photoelectric conversion units; a reading control unit configured to control reading of the charge signals stored by the plurality of photoelectric conversion units; and a control unit configured to fix an indefinite potential generated at the radiation detection unit while at least one of the storage control of the charge signals by the storage control unit and the reading control of the charge signals by the reading control unit is not carried out. | 03-29-2012 |
20120104267 | IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND CONTROL METHOD OF IMAGE SENSOR - An imaging apparatus including: a plurality of pixels including a photoelectric conversion element and a sample hold circuit; a plurality of signal lines configured to read from the plurality of pixels an electric signal held in the sample hold circuit therein; a imaging control unit configured to perform a first control for applying the held electric signal to the plurality of signal lines, and a second control for sequentially applying to the signal lines the electric signal obtained corresponding to light received by each of the plurality of pixels and reading the electric signal, after the first control has been performed; and a generation unit configured not to create image data based on the electric signal applied to the signal line by the first control but to create the image data based on the electric signal read via the signal line by the second control. | 05-03-2012 |
20120105665 | DIGITAL IMAGE PICKUP APPARATUS, RADIATION IMAGING APPARATUS, AND RADIATION IMAGING SYSTEM - An image pickup apparatus includes an image sensor configured to include a plurality of pixels in its image pickup area; a plurality of analog-to-digital converters configured to share a plurality of analog signals read out from the plurality of pixels to perform analog-to-digital conversion to the analog signals allocated thereto; and a control unit configured to read out the analog signals from the pixels within a partial area in the image pickup area for the analog-to-digital conversion. The number of pixels allocated to the analog-to-digital converters performing the analog-to-digital conversion to areas near a center position of the partial area is smaller than that allocated to the analog-to-digital converters performing the analog-to-digital conversion to areas far from the center position of the partial area. | 05-03-2012 |
Patent application number | Description | Published |
20130092868 | R-T-B-BASED RARE EARTH PERMANENT MAGNET, MOTOR, AUTOMOBILE, POWER GENERATOR, AND WIND POWER-GENERATING APPARATUS - An R-T-B-based rare earth permanent magnet including a sintered compact having a main phase mainly including R | 04-18-2013 |
20130099150 | R-T-B-BASED RARE EARTH PERMANENT MAGNET, MOTOR, AUTOMOBILE, POWER GENERATOR, AND WIND POWER-GENERATING APPARATUS - An R-T-B-based rare earth permanent magnet including a sintered body which is provided with a main phase mainly containing R | 04-25-2013 |
20130154424 | ALLOY MATERIAL FOR R-T-B-BASED RARE EARTH PERMANENT MAGNET, METHOD FOR PRODUCING R-T-B-BASED RARE EARTH PERMANENT MAGNET, AND MOTOR - An alloy material for an R-T-B-based rare earth permanent magnet, including (i) an R-T-B-based alloy composed of R being two or more members selected from rare earth elements, T being a transition metal that essentially contains Fe, B and unavoidable impurities, and in which the Dy content is more than 10% by mass and less than 31% by mass, and (ii) a metal powder. Also disclosed is a method for producing an R-T-B-based rare earth permanent magnet and a motor provided with the R-T-B-based rare earth permanent magnet. | 06-20-2013 |
20130264903 | ALLOY MATERIAL FOR R-T-B SYSTEM RARE EARTH PERMANENT MAGNET, METHOD FOR PRODUCING R-T-B SYSTEM RARE EARTH PERMANENT MAGNET, AND MOTOR - An alloy material for an R-T-B system rare earth permanent magnet having a high orientation rate and high coercivity (Hcj), and a method for producing an R-T-B system rare earth permanent magnet using the alloy material. The alloy material includes a plurality of R-T-B system alloys having different compositions and a metal powder. The respective R-T-B system alloys are formed of R which is composed of two or more kinds selected from rare earth elements, T which is composed of a transition metal essentially containing Fe, B, and unavoidable impurities. A first alloy having the greatest Dy content contains 17 mass % or greater of Dy, and a Dy concentration difference between the first alloy and a second alloy having the smallest Dy concentration difference with respect to the first alloy among the plurality of R-T-B system alloys is 5 mass % or greater. | 10-10-2013 |
20140132377 | ALLOY FOR R-T-B-BASED RARE EARTH SINTERED MAGNET, PROCESS OF PRODUCING ALLOY FOR R-T-B-BASED RARE EARTH SINTERED MAGNET, ALLOY MATERIAL FOR R-T-B-BASED RARE EARTH SINTERED MAGNET, R-T-B-BASED RARE EARTH SINTERED MAGNET, PROCESS OF PRODUCING R-T-B-BASED RARE EARTH SINTERED MAGNET, AND MOTOR - An alloy for R-T-B-based rare earth sintered magnets which contains R which is a rare earth element; T which is a transition metal essentially containing Fe; a metallic element M containing one or more metals selected from Al, Ga and Cu; B and inevitable impurities, in which R accounts for 13 at % to 15 at %, B accounts for 4.5 at % to 6.2 at %, M accounts for 0.1 at % to 2.4 at %, T accounts for balance, a proportion of Dy in all rare earth elements is in a range of 0 at % to 65 at %, and the following Formula 1 is satisfied, | 05-15-2014 |
20140191831 | R-T-B RARE EARTH SINTERED MAGNET, ALLOY FOR R-T-B RARE EARTH SINTERED MAGNET, AND METHOD OF MANUFACTURING THE SAME - An R-T-B rare earth sintered magnet contains R which represents a rare earth element; T which represents a transition metal essentially containing Fe; a metal element M which represents Al and/or Ga; B; Cu; and inevitable impurities the R-T-B rare earth sintered magnet including 13.4 to 17 at % of R, 4.5 to 5.5 at % of B, and 0.1 to 2.0 at % of M, and T as the balance; in which the R-T-B rare earth sintered magnet is formed of a sintered body which includes a main phase composed of R | 07-10-2014 |
20140314612 | R-T-B RARE EARTH SINTERED MAGNET AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an R-T-B rare earth sintered magnet includes a process of disposing and sintering a compact of a first alloy powder and an alloy material of a second alloy in a chamber of a sintering furnace. The first alloy consists of R which represents a rare earth element, T which represents a transition metal essentially containing Fe, a metal element M which represents Al and/or Ga, B, Cu, and inevitable impurities. The first alloy contains 11 at % to 17 at % of R, 4.5 at % to 6 at % of B, 0 at % to 1.6 at % of M, and T as the balance, and Dy content in all of the rare earth elements is 0 at % to 29 at %. The second alloy consists of R which represents a rare earth element, T which represents a transition metal essentially containing Fe, a metal element M which represents Al and/or Ga, B, Cu, and inevitable impurities. The second alloy contains 11 at % to 20 at % of R, 4.5 at % to 6 at % of B, and 0 at % to 1.6 at % of M, and T as the balance, and Dy content in all of the rare earth elements is 0 at % to 29 at %. | 10-23-2014 |