公开(公告)号：US11192183B2

公开(公告)日：2021-12-07

申请号：US15759550

申请日：2016-09-16

Applicant: HITACHI METALS, LTD.

Inventor： Tetsuroh Katoh ,  Kazunori Nishimura ,  Shin Noguchi

IPC: B22F3/24 ,  H01F41/02 ,  H01F1/147 ,  B22F1/02 ,  C22C38/18 ,  C22C38/06

Abstract: A powder magnetic core manufacturing method includes: a first step of mixing a binder with a soft magnetic material powder containing Fe-M (M: Al or Cr)-based alloy particles on which an insulating layer is formed; a second step of filling a pressing die with a mixture obtained through the first step, subjecting the mixture to pressing to obtain a green compact, and slidingly demolding the green compact from the pressing die; a third step of processing the green compact after the second step and removing expansion deformed matter of the alloy particles present in a region of pressing flaws formed on a surface of the green compact during the slidingly demolding; and a fourth step of subjecting the green compact after the third step to heat treatment to oxidize surfaces of the Fe-M (M: Al or Cr)-based alloy particles at high temperature, so that the oxide phase is formed.

公开(公告)号：US11011305B2

公开(公告)日：2021-05-18

申请号：US15988209

申请日：2018-05-24

Applicant: HITACHI METALS, LTD.

Inventor： Yoshimasa Nishio ,  Shin Noguchi ,  Kazunori Nishimura ,  Tetsuroh Katoh ,  Toshio Mihara

IPC: H01F41/02 ,  B22F3/10 ,  H01F27/28 ,  B22F3/16 ,  H01F1/22 ,  H01F1/147 ,  H01F1/24 ,  H01F1/33 ,  B22F1/02 ,  C22C38/00 ,  H01F27/255 ,  C22C38/02 ,  C22C38/06 ,  C22C38/18 ,  C22C38/34 ,  C22C33/02

Abstract: A method for manufacturing a powder magnetic core using a soft magnetic material powder, wherein the method has: a first step of mixing the soft magnetic material powder with a binder, a second step of subjecting a mixture obtained through the first step to pressure forming, and a third step of subjecting a formed body obtained through the second step to heat treatment. The soft magnetic material powder is an Fe—Cr—Al based alloy powder comprising Fe, Cr and Al. An oxide layer is formed on a surface of the soft magnetic material powder by the heat treatment. The oxide layer has a higher ratio by mass of Al to the sum of Fe, Cr and Al than an alloy phase inside the powder.

公开(公告)号：US20150332850A1

公开(公告)日：2015-11-19

申请号：US14760964

申请日：2014-01-14

Applicant: HITACHI METALS LTD.

Inventor： Yoshimasa Nishio ,  Shin Noguchi ,  Kazunori Nishimura ,  Tetsuroh Katoh ,  Toshio Mihara

IPC: H01F41/02 ,  C22C38/06 ,  H01F1/147 ,  H01F1/22 ,  H01F27/255 ,  H01F27/28 ,  C22C38/18 ,  B22F3/16

CPC classification number: H01F41/02 ,  B22F1/02 ,  B22F3/1039 ,  B22F3/16 ,  B22F2201/03 ,  B22F2201/05 ,  B22F2302/253 ,  B22F2304/10 ,  C22C33/02 ,  C22C38/00 ,  C22C38/002 ,  C22C38/02 ,  C22C38/06 ,  C22C38/18 ,  C22C38/34 ,  C22C2202/02 ,  H01F1/147 ,  H01F1/22 ,  H01F1/24 ,  H01F1/33 ,  H01F27/255 ,  H01F27/2823 ,  H01F41/0246

Abstract: A method for manufacturing a powder magnetic core using a soft magnetic material powder, wherein the method has: a first step of mixing the soft magnetic material powder with a binder, a second step of subjecting a mixture obtained through the first step to pressure forming, and a third step of subjecting a formed body obtained through the second step to heat treatment. The soft magnetic material powder is an Fe—Cr—Al based alloy powder comprising Fe, Cr and Al. An oxide layer is formed on a surface of the soft magnetic material powder by the heat treatment. The oxide layer has a higher ratio by mass of Al to the sum of Fe, Cr and Al than an alloy phase inside the powder.

Abstract translation: 一种使用软磁性材料粉末制造粉末磁芯的方法，其中所述方法具有：将软磁性材料粉末与粘合剂混合的第一步骤，将通过第一步骤获得的混合物进行压力成形的第二步骤， 以及对通过第二步骤获得的成形体进行热处理的第三步骤。 软磁性材料粉末是包含Fe，Cr和Al的Fe-Cr-Al基合金粉末。 通过热处理在软磁性材料粉末的表面上形成氧化物层。 与粉末中的合金相相比，氧化物层的Al的质量比Fe，Cr和Al的总和高。

公开(公告)号：US10586646B2

公开(公告)日：2020-03-10

申请号：US16333091

申请日：2017-09-15

Applicant: HITACHI METALS, LTD.

Inventor： Toshio Mihara ,  Tetsuroh Katoh ,  Kazunori Nishimura ,  Shin Noguchi

IPC: H01F27/29 ,  H01F27/24 ,  H01F1/055 ,  H01F27/28 ,  H01F1/33 ,  B22F1/00 ,  H01F37/00 ,  H01F27/255 ,  B22F1/02 ,  C22C38/00 ,  H01F1/24 ,  H01F1/147 ,  B22F3/00

Abstract: A magnetic core has a high initial permeability and a small core loss, reducing a core loss at high frequencies; and a coil component including the same. This magnetic core is formed by binding a plurality of Fe-based alloy particles containing Al via an oxide layer containing an Fe oxide. In an X-ray diffraction spectrum of the magnetic core measured using Cu-Kα characteristic X-rays, a peak intensity ratio (P1/P2) of peak intensity P1 of a diffraction peak derived from the Fe oxide having a corundum structure appearing in the vicinity of 2θ=33.2° to peak intensity P2 of a diffraction peak derived from the Fe-based alloy having a bcc structure appearing in the vicinity of 2θ=44.7° is 0.010 or less (excluding 0). A superlattice peak intensity of an Fe3Al ordered structure is at most a noise level within a range of 2θ=20° to 40°.

公开(公告)号：US10468174B2

公开(公告)日：2019-11-05

申请号：US16333132

申请日：2017-09-15

Applicant: HITACHI METALS, LTD.

Inventor： Toshio Mihara ,  Tetsuroh Katoh ,  Kazunori Nishimura ,  Shin Noguchi

IPC: H01F27/28 ,  H01F27/255 ,  B22F1/00 ,  C22C38/00 ,  H01F1/147 ,  H01F1/24 ,  H01F1/33 ,  H01F17/04

Abstract: Provided are a magnetic core having a high initial permeability and a coil component including the same. The magnetic core has an X-ray diffraction spectrum of the magnetic core measured using Cu-Kα characteristic X-rays, wherein a peak intensity ratio (P1/P2) of a peak intensity P1 of a diffraction peak of an Fe oxide having a corundum structure appearing in a vicinity of 2θ=33.2° to a peak intensity P2 of a diffraction peak of the Fe-based alloy having a bcc structure appearing in a vicinity of 2θ=44.7° is 0.015 or less; and in the X-ray diffraction spectrum, a peak intensity ratio (P3/P2) of a peak intensity P3 of a superlattice peak of an Fe3Al ordered structure appearing in a vicinity of 2θ=26.6° to the peak intensity P2 is 0.015 or more and 0.050 or less.

公开(公告)号：US10008324B2

公开(公告)日：2018-06-26

申请号：US14760964

申请日：2014-01-14

Applicant: Hitachi Metals Ltd.

Inventor： Yoshimasa Nishio ,  Shin Noguchi ,  Kazunori Nishimura ,  Tetsuroh Katoh ,  Toshio Mihara

IPC: H01F41/02 ,  B22F3/24 ,  H01F1/147 ,  B22F3/16 ,  H01F1/22 ,  H01F27/28 ,  B22F1/02 ,  C22C38/00 ,  H01F27/255 ,  C22C38/02 ,  C22C38/06 ,  C22C38/18 ,  C22C38/34 ,  H01F1/24 ,  H01F1/33 ,  B22F3/10 ,  C22C33/02

CPC classification number: H01F41/02 ,  B22F1/02 ,  B22F3/1039 ,  B22F3/16 ,  B22F2201/03 ,  B22F2201/05 ,  B22F2302/253 ,  B22F2304/10 ,  C22C33/02 ,  C22C38/00 ,  C22C38/002 ,  C22C38/02 ,  C22C38/06 ,  C22C38/18 ,  C22C38/34 ,  C22C2202/02 ,  H01F1/147 ,  H01F1/22 ,  H01F1/24 ,  H01F1/33 ,  H01F27/255 ,  H01F27/2823 ,  H01F41/0246

Abstract: A method for manufacturing a powder magnetic core using a soft magnetic material powder, wherein the method has: a first step of mixing the soft magnetic material powder with a binder, a second step of subjecting a mixture obtained through the first step to pressure forming, and a third step of subjecting a formed body obtained through the second step to heat treatment. The soft magnetic material powder is an Fe—Cr—Al based alloy powder comprising Fe, Cr and Al. An oxide layer is formed on a surface of the soft magnetic material powder by the heat treatment. The oxide layer has a higher ratio by mass of Al to the sum of Fe, Cr and Al than an alloy phase inside the powder.