WO2021169900A1 - Rare earth permanent magnet material, preparation method therefor and application thereof - Google Patents

Rare earth permanent magnet material, preparation method therefor and application thereof Download PDF

Info

Publication number
WO2021169900A1
WO2021169900A1 PCT/CN2021/077189 CN2021077189W WO2021169900A1 WO 2021169900 A1 WO2021169900 A1 WO 2021169900A1 CN 2021077189 W CN2021077189 W CN 2021077189W WO 2021169900 A1 WO2021169900 A1 WO 2021169900A1
Authority
WO
WIPO (PCT)
Prior art keywords
rtb
percentage
content
based permanent
permanent magnet
Prior art date
Application number
PCT/CN2021/077189
Other languages
French (fr)
Chinese (zh)
Inventor
付刚
范宇峰
黄清芳
黄佳莹
许德钦
Original Assignee
厦门钨业股份有限公司
福建省长汀金龙稀土有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 厦门钨业股份有限公司, 福建省长汀金龙稀土有限公司 filed Critical 厦门钨业股份有限公司
Publication of WO2021169900A1 publication Critical patent/WO2021169900A1/en

Links

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F1/00Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties
    • H01F1/01Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials
    • H01F1/03Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity
    • H01F1/032Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials
    • H01F1/04Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys
    • H01F1/047Alloys characterised by their composition
    • H01F1/053Alloys characterised by their composition containing rare earth metals
    • H01F1/055Alloys characterised by their composition containing rare earth metals and magnetic transition metals, e.g. SmCo5
    • H01F1/057Alloys characterised by their composition containing rare earth metals and magnetic transition metals, e.g. SmCo5 and IIIa elements, e.g. Nd2Fe14B
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F1/00Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties
    • H01F1/01Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials
    • H01F1/03Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity
    • H01F1/032Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials
    • H01F1/04Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys
    • H01F1/06Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys in the form of particles, e.g. powder
    • H01F1/08Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys in the form of particles, e.g. powder pressed, sintered, or bound together
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F1/00Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties
    • H01F1/01Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials
    • H01F1/03Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity
    • H01F1/032Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials
    • H01F1/04Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys
    • H01F1/06Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys in the form of particles, e.g. powder
    • H01F1/08Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys in the form of particles, e.g. powder pressed, sintered, or bound together
    • H01F1/086Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys in the form of particles, e.g. powder pressed, sintered, or bound together sintered
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F41/00Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
    • H01F41/02Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
    • H01F41/0253Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets for manufacturing permanent magnets

Definitions

  • the invention relates to a rare earth permanent magnet material and a preparation method and application thereof.
  • RTB series sintered magnets (R refers to rare earth elements, T refers to transition metal elements and metal elements of the third main group, B refers to boron element) are widely used in electronic products, automobiles, wind power, home appliances, elevators and Industrial robots and other fields, such as hard disks, mobile phones, headsets, and permanent magnet motors such as elevator traction machines, generators, etc., are used as energy sources, and their demand is increasing. The requirements have gradually increased.
  • the Nd-Fe-B ternary phase diagram shows that R 2 T is easily formed 17 , and R 2 T 17 does not have uniaxial anisotropy at room temperature, which in turn degrades the performance of the magnet.
  • heavy rare earth elements such as Dy, Tb, Gd, etc. are generally added to increase the coercivity of materials and improve the temperature coefficient.
  • the price of heavy rare earths is high. This method is used to increase the coercivity of RTB-based sintered magnet products. Force, will increase the cost of raw materials, is not conducive to the application of RTB series sintered magnets.
  • the technical problem to be solved by the present invention is to overcome the defects of degraded magnet performance and poor consistency when the B of the R-T-B system magnet in the R-T-B magnet is less than 5.88 at% in the prior art, and provides a rare earth permanent magnet material and a preparation method and application thereof.
  • the present invention provides an R-T-B series permanent magnetic material, which contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and the content is as follows in weight percentage:
  • R 28.45-33.1wt%; said R is a rare earth element containing at least Nd;
  • Ga >0.35wt%
  • the content of Ti is 0.15-0.26% by weight
  • the content of Zr is 0.2-0.355wt%
  • the content of Nb is 0.19-0.51wt%
  • the R-T-B-based permanent magnet material does not contain Co.
  • the RTB-based permanent magnetic material includes R 2 T 14 B main phase, grain boundary phase and rare earth-rich phase.
  • the grain boundary phase refers to the general term of the grain boundary phase between two or more R 2 Fe 14 B crystal grains.
  • the grain boundary phase includes the R 6 Fe 13 Ga phase
  • the volume fraction of the R 6 Fe 13 Ga phase is 1.5-15%, for example, 5.7%, 6.5%, 7.3%, 7.4%, and 7.6%. %, 7.7%, 7.9%, 10.3%, 10.6%, 10.8%, 10.9%, 11.2%, 11.4%, 11.5% or 11.8%
  • the percentage means that the volume of the R 6 Fe 13 Ga phase is at the grain boundary The percentage of the total volume of the R 2 T 14 B phase, the R 2 T 14 B main phase, and the rare earth-rich phase.
  • the R-T-B-based permanent magnetic material does not contain Cu.
  • the content of R is preferably 28.495-33.017wt%, such as 28.495wt%, 29.494wt%, 29.992wt%, 29.999wt%, 30.008wt%, 30.02wt%, 30.495wt%, 30.496wt%, 30.497wt%, 30.498wt%, 30.501wt%, 30.502wt%, 30.503wt%, 31.0wt%, 31.002wt%, 31.003wt%, 31.004wt%, 31.005wt%, 31.007wt%, 31.966wt%, 31.968wt %, 31.979wt%, 31.984wt%, 31.987wt%, 33.003wt%, 33.004wt%, 33.005wt% or 33.017wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the Nd content is preferably 17.5-26.0% by weight, such as 21.372-24.753% by weight, for example 21.372% by weight, 21.987% by weight, 22.122% by weight, 22.496% by weight, 22.497% by weight, 22.505% by weight, 22.752wt%, 22.872wt%, 22.873wt%, 22.874wt%, 22.877wt%, 23.248wt%, 23.249wt%, 23.251wt%, 23.252wt%, 23.253wt%, 23.255wt%, 23.976wt%, 23.987wt %, 23.989wt%, 24.751wt%, 24.752wt% or 24.753wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the R may also include Pr and/or heavy rare earth RH.
  • the content of Pr may be ⁇ 0.2 at% or> 8 at%, and the percentage refers to the atomic percentage in the R-T-B series permanent magnetic material.
  • the content of Pr is preferably 7.0-8.5wt%, for example 7.123wt%, 7.372wt%, 7.496wt%, 7.503wt%, 7.523wt%, 7.622wt%, 7.623wt%, 7.624wt%, 7.628wt% %, 7.629wt%, 7.748wt%, 7.750wt%, 7.752wt%, 7.753wt%, 7.992wt%, 7.995wt%, 8.000wt%, 8.252wt% or 8.253wt%, the percentages refer to the RTB system Percentage by weight in permanent magnet materials.
  • the atomic percentage of B/(Pr+Nd) is ⁇ 0.405, such as 0.405, 0.408 or 0.410.
  • the type of RH can be Tb or Dy.
  • the content of the RH may be 1.5-6.0% by weight, for example, 1.987% by weight or 2.012% by weight, and the percentage refers to the weight percentage in the R-T-B series permanent magnetic material.
  • the content of Ga is preferably 0.396-2.0wt%, such as 0.396-1.804wt%, further for example 0.396wt%, 0.552wt%, 0.553wt%, 0.596wt%, 0.602wt%, 0.652wt%, 0.703wt%, 0.793wt%, 0.796wt%, 0.802wt%, 0.803wt%, 0.903wt%, 0.905wt%, 0.989wt%, 1.052wt%, 1.054wt%, 1.104wt%, 1.202wt%, 1.203wt %, 1.252wt%, 1.253wt%, 1.297wt%, 1.352wt%, 1.393wt%, 1.403wt%, 1.496wt%, 1.597wt%, 1.603wt%, 1.697wt%, 1.801wt% or 1.804wt%, The percentage refers to
  • the content of Ga is preferably Ga ⁇ 1.05wt%, 0.35wt% ⁇ Ga ⁇ 0.55wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, 1.05wt% ⁇ Ga ⁇ 1.25wt%, or Ga ⁇ 1.25wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
  • the content of Al is preferably 0.081-0.123wt%, such as 0.081wt%, 0.082wt%, 0.089wt%, 0.091wt%, 0.092wt%, 0.099wt%, 0.101wt%, 0.102wt%, 0.109wt%, 0.112wt%, 0.119wt%, 0.121wt% or 0.123wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the content of B is preferably 0.839-0.944wt%, such as 0.839wt%, 0.842wt%, 0.843wt%, 0.862wt%, 0.863wt%, 0.881wt%, 0.882wt%, 0.892wt%, 0.894wt%, 0.903wt%, 0.904wt%, 0.913wt%, 0.914wt%, 0.916wt%, 0.921wt%, 0.922wt%, 0.923wt%, 0.942wt% or 0.944wt%, the percentages refer to the RTB is the weight percentage in permanent magnet materials.
  • the content of B is preferably ⁇ 0.915wt% or ⁇ 5.55at%; more preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to The weight percentage in the RTB-based permanent magnetic material, at% refers to the atomic percentage in the RTB-based permanent magnetic material.
  • the ratio of the atomic percentage of B and TRE is ⁇ 0.38; wherein, the TRE is the total rare earth content; for example, when the R includes Nd and Pr, the TRE is the Nd and The sum of the content of Pr.
  • the atomic percentage of the Ga and the B satisfies the following condition: Ga>7.2941-1.24B.
  • the content of Fe is preferably 64.275-69.378wt%, such as 64.275wt%, 64.489wt%, 64.667wt%, 64.909wt%, 65.027wt%, 65.27wt%, 65.465wt%, 65.803wt%, 65.922wt%, 65.969wt%, 66.023wt%, 66.054wt%, 66.168wt%, 66.227wt%, 66.367wt%, 66.372wt%, 66.599wt%, 66.652wt%, 66.821wt%, 66.835wt%, 66.87wt %, 66.898wt%, 66.902wt%, 66.938wt%, 66.973wt%, 67.051wt%, 67.225wt%, 67.273wt%, 67.522wt%, 67.528wt%,
  • the content of Ti is preferably 0.151-0.256% by weight, such as 0.151% by weight, 0.152% by weight, 0.200% by weight, 0.201% by weight, 0.203% by weight, 0.204wt%, 0.205wt%, 0.251wt%, 0.252wt%, 0.253wt%, 0.254wt% or 0.256wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the content of Zr is preferably 0.202-0.352wt%, such as 0.202wt%, 0.203wt%, 0.261wt%, 0.262wt%, 0.302wt%, 0.303wt% or 0.352wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the content of Nb is preferably 0.192-0.503wt%, such as 0.192wt%, 0.201wt%, 0.202wt%, 0.298wt%, 0.301wt%, 0.302wt%, 0.392wt%, 0.401wt%, 0.492wt% or 0.503wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the content of Zr is preferably 0.20wt% ⁇ Zr ⁇ (3.48B-2.67)wt% or Zr ⁇ 0.26wt%, for example 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%, where the B is the weight percentage of B in the RTB-based permanent magnetic material; the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the RTB-based permanent magnetic material contains the following components: R: 28.45-33.1wt%, Ga ⁇ 1.05wt%wt%, Al: 0.08-0.125wt%, B: 0.835- 0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
  • the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.35wt% ⁇ Ga ⁇ 0.55wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt% or Zr: 0.2-0.355wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 1.05wt% ⁇ Ga ⁇ 1.25wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, Ga ⁇ 1.25wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt %, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is Zr ⁇ 0.26wt%; the percentage refers to the weight percentage in the RTB-based permanent magnet material .
  • the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the RTB-based permanent magnet material.
  • the present invention provides a raw material composition of RTB-based permanent magnetic material, which contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and its content is calculated as a percentage by weight. as follows:
  • R 28.5-33.0wt%; said R is a rare earth element containing at least Nd;
  • Ga >0.35wt%
  • the content of Ti is 0.15-0.25 wt%
  • the content of the Zr is 0.2-0.35 wt%
  • the content of Nb is 0.2-0.5wt%
  • the R-T-B-based permanent magnet material does not contain Co.
  • the raw material composition of the R-T-B permanent magnetic material generally refers to the raw material actively added during the preparation of the permanent magnetic material, and does not include the components and/or content introduced in the preparation process or impurities.
  • the content of R is preferably 29.5-33.0wt%, such as 29.5wt%, 30.0wt%, 30.5wt%, 31.0wt%, 32.0wt% or 33.0wt%, and the percentage refers to the RTB system The weight percentage in the raw material composition of the permanent magnet material.
  • the Nd content is preferably 21.0-25.0wt%, such as 21.375wt%, 22.0wt%, 22.125wt%, 22.5wt%, 22.75wt%, 22.875wt%, 23.25wt%, 24.0wt% or 24.75wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the R may also include Pr and/or heavy rare earth RH.
  • the content of Pr may be ⁇ 0.2 at% or> 8 at%, and the percentage refers to the atomic percentage in the raw material composition of the R-T-B permanent magnetic material.
  • the content of Pr is preferably 2.5-12.0wt%, such as 7.125wt%, 7.375wt%, 7.5wt%, 7.625wt%, 7.75wt%, 8.00wt% or 8.25wt%, the percentage refers to the RTB is the weight percentage in the raw material composition of permanent magnet materials.
  • the atomic percentage of B/(Pr+Nd) is ⁇ 0.405.
  • the type of RH can be Tb or Dy.
  • the content of the RH may be 1.5-6.0 wt.%, for example 2.0 wt%, and the percentage refers to the weight percentage in the raw material composition of the R-T-B permanent magnetic material.
  • the content of Ga is preferably 0.4-2.0wt%, such as 0.4wt%, 0.55wt%, 0.6wt%, 0.65wt%, 0.7wt%, 0.8wt%, 0.9wt%, 1.0wt%, 1.05wt%, 1.1wt%, 1.2wt%, 1.25wt%, 1.3wt%, 1.35wt%, 1.4wt%, 1.5wt%, 1.6wt%, 1.7wt% or 1.8wt%, the percentage refers to the RTB is the weight percentage in the raw material composition of permanent magnet materials.
  • the Ga content is preferably Ga ⁇ 1.05wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, 0.35wt% ⁇ Ga ⁇ 0.55wt%, 1.05wt% ⁇ Ga ⁇ 1.25wt%, or, Ga ⁇ 1.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the content of Al is preferably 0.06-0.07% by weight, such as 0.06% by weight or 0.07% by weight, and the percentage refers to the weight percentage in the raw material composition of the R-T-B permanent magnet material.
  • the raw material composition of the R-T-B-based permanent magnet material does not contain Cu.
  • the content of B is preferably 0.86-0.94wt%, such as 0.86wt%, 0.88wt%, 0.90wt%, 0.915wt%, 0.92wt% or 0.94wt%, and the percentage refers to the RTB system The weight percentage in the raw material composition of the permanent magnet material.
  • the content of B is preferably ⁇ 0.915wt% or ⁇ 5.55at%; more preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to The weight percentage in the raw material composition of the RTB-based permanent magnetic material, at% refers to the atomic percentage in the raw material composition of the RTB-based permanent magnetic material.
  • the ratio of the atomic percentage of B and TRE is ⁇ 0.38; wherein, the TRE is the total rare earth content; for example, when the R includes Nd and Pr, the TRE is the Nd and The sum of the content of Pr.
  • the atomic percentage of Ga and B satisfies the following condition Ga>7.2941-1.24B, and the atomic percentage refers to the atomic percentage in the raw material composition of the R-T-B permanent magnet material.
  • the content of Fe is preferably 64.32-69.41wt%, such as 64.32wt%, 64.555wt%, 64.715wt%, 64.93wt%, 65.08wt%, 65.3wt%, 65.5wt%, 65.82wt%, 65.96wt%, 65.99wt%, 66.065wt%, 66.11wt%, 66.2wt%, 66.24wt%, 66.4wt%, 66.42wt%, 66.625wt%, 66.685wt%, 66.86wt%, 66.9wt%, 66.915wt %, 66.935wt%, 66.94wt%, 66.98wt%, 67.01wt%, 67.08wt%, 67.275wt%, 67.33wt%, 67.58wt%, 67.585wt%, 67.6wt%,
  • the content of Ti is preferably 0.20-0.25wt%, such as 0.20wt% or 0.25wt%, and the percentage refers to the content of the RTB-based permanent magnetic material The weight percentage in the raw material composition.
  • the content of the Zr is preferably 0.26-0.35wt%, such as 0.26wt%, 0.3wt% or 0.35wt%, and the percentage means that the RTB system The weight percentage in the raw material composition of the permanent magnet material.
  • the content of Nb is preferably 0.3-0.5wt%, such as 0.3wt%, 0.4wt% or 0.5wt%, and the percentage refers to the amount in the RTB-based permanent magnet material.
  • the weight percentage in the raw material composition of the permanent magnet material is preferably 0.3-0.5wt%, such as 0.3wt%, 0.4wt% or 0.5wt%, and the percentage refers to the amount in the RTB-based permanent magnet material.
  • the content of the Zr is preferably 0.20wt% ⁇ Zr ⁇ (3.48B-2.67)wt% or Zr ⁇ 0.26wt%, for example 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%, where B is the weight percentage of B in the raw material composition of the RTB-based permanent magnet material; The weight percentage in the raw material composition of the material.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, Ga ⁇ 1.05wt%wt%, Al: 0.05-0.07wt%, B: 0.84- 0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.35wt% ⁇ Ga ⁇ 0.55wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt% or Zr: 0.2-0.35wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 1.05wt% ⁇ Ga ⁇ 1.25wt%, Al:0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, Ga ⁇ 1.25wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt %, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is ⁇ 0.26wt%; the percentage means in the raw material composition of the RTB-based permanent magnet material The weight percentage.
  • the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt% ⁇ Ga ⁇ 1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is 0.26wt% ⁇ Zr ⁇ (3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
  • the present invention also provides a preparation method of R-T-B series permanent magnet material, which includes the following steps:
  • the molten liquid of the raw material composition of the R-T-B series permanent magnet material is subjected to casting, hydrogen breaking, forming, sintering and aging treatments.
  • the molten liquid of the raw material composition of the R-T-B series permanent magnet material can be prepared according to a conventional method in the art, for example, smelting in a high-frequency vacuum induction melting furnace.
  • the vacuum degree of the melting furnace may be 5 ⁇ 10 -2 Pa.
  • the melting temperature may be 1500°C or less.
  • the smelting is generally performed in a crucible made of alumina.
  • the alumina crucible introduces a part of Al into the R-T-B-based permanent magnet material.
  • the casting process can be a conventional casting process in the field, for example: in an Ar atmosphere (for example, under an Ar atmosphere of 5.5 ⁇ 10 4 Pa), the molten liquid of the raw material composition of the RTB-based permanent magnet material Cool down at a rate of 10 2 °C/sec to 10 4 °C/sec through a rotating roller.
  • an Ar atmosphere for example, under an Ar atmosphere of 5.5 ⁇ 10 4 Pa
  • the molten liquid of the raw material composition of the RTB-based permanent magnet material Cool down at a rate of 10 2 °C/sec to 10 4 °C/sec through a rotating roller.
  • the cooling can be achieved by passing cooling water into the rollers.
  • the inlet water temperature of the roller is ⁇ 25°C, for example, 23.2°C, 23.4°C, 23.5°C, 23.6°C or 23.7°C.
  • the roller may be a copper roller.
  • the hydrogen breaking process can be a conventional hydrogen breaking process in the art, such as hydrogen absorption, dehydrogenation, and cooling treatment.
  • the hydrogen absorption can be performed under the condition of a hydrogen pressure of 0.15 MPa.
  • the dehydrogenation can be carried out under the conditions of raising the temperature while drawing a vacuum.
  • the pulverization process can be a conventional pulverization process in the field, such as jet mill pulverization.
  • the jet mill pulverization can be performed in a nitrogen atmosphere with an oxidizing gas content of 120 ppm or less.
  • the oxidizing gas refers to oxygen or moisture content.
  • the pressure of the crushing chamber of the jet mill crushing may be 0.38 MPa.
  • the pulverization time of the jet mill may be 3 hours.
  • a lubricant such as zinc stearate
  • the added amount of the lubricant may be 0.10-0.15% of the weight of the powder after mixing, for example 0.12%.
  • the forming process may be a conventional forming process in the field, such as a magnetic field forming method or a hot pressing and thermal deformation method.
  • the sintering process may be a conventional sintering process in the field, for example, preheating, sintering, and cooling under vacuum conditions (for example, under a vacuum of 5 ⁇ 10 -3 Pa).
  • the preheating temperature may be 300-600°C.
  • the preheating time can be 1-2h.
  • the preheating is a preheating at a temperature of 300°C and 600°C for 1 hour each.
  • the sintering temperature may be a conventional sintering temperature in the art, for example, 1040-1090°C, and for example 1055°C, 1057°C, 1058°C, 1065°C, 1067°C, 1068°C, 1070°C, 1072°C, 1073°C, 1075 °C, 1076°C, 1079°C, 1080°C, 1083°C, 1085°C or 1090°C.
  • the sintering time may be a conventional sintering time in the art, for example, 5-10h, and for example 8h.
  • Ar gas Before the cooling, Ar gas can be introduced to make the gas pressure reach 0.1 MPa.
  • the aging treatment includes primary aging treatment and secondary aging treatment.
  • the temperature of the primary aging treatment is preferably 860-960°C, such as 900°C.
  • the heating rate to 860-960°C is preferably 3-5°C/min.
  • the starting point of the temperature increase may be room temperature.
  • the time for the primary aging treatment may be 3h.
  • the temperature of the secondary aging treatment is preferably 430-560°C, such as 450-490°C, and further such as 460°C, 470°C, 475°C, 477°C or 480°C.
  • the temperature rise rate to 430-560°C is preferably 3-5°C/min.
  • the starting point of the temperature increase may be room temperature.
  • the treatment time of the secondary aging may be 3h.
  • the invention also provides an R-T-B series permanent magnet material prepared by the above method.
  • the invention also provides an application of the R-T-B series permanent magnet material as an electronic component.
  • the application fields can be the automotive drive field, wind power field, servo motor and home appliance field (for example, air conditioner).
  • the room temperature refers to 25°C ⁇ 5°C.
  • the reagents and raw materials used in the present invention are all commercially available.
  • the demagnetization curve is smooth, without steps, and the relative permeability is low.
  • the coercive force is less than or equal to 1.5kOe in the same batch, and the magnet performance is consistent.
  • (1) melting process according to the formulation shown in Table 1, the prepared feedstock take placed in an alumina crucible, a high-frequency vacuum induction melting furnace at 1500 deg.] C or less in a vacuum of 5 ⁇ 10 -2 Pa in The temperature is vacuum smelted to obtain a molten liquid.
  • Hydrogen breaking and pulverizing process Vacuum the hydrogen breaking furnace containing the quench alloy at room temperature, and then pass hydrogen with a purity of 99.9% into the hydrogen breaking furnace, maintain the hydrogen pressure at 0.15MPa, and fully absorb hydrogen. The temperature is raised while vacuuming, and the hydrogen is fully dehydrogenated, and then cooled, and the powder after the hydrogen cracking and pulverization is taken out.
  • Fine pulverization process Under the nitrogen atmosphere with an oxidizing gas content of 120 ppm or less, the powder after hydrogen pulverization is pulverized by jet milling for 3 hours under the condition of a pulverizing chamber pressure of 0.38 MPa to obtain a fine powder.
  • Oxidizing gas refers to oxygen or moisture.
  • Magnetic field forming process using a right-angle orientation magnetic field forming machine, in a 1.6T orientation magnetic field, under a forming pressure of 0.35 ton/cm 2 , the above-mentioned zinc stearate-added powder is formed into a side length at a time It is a 25mm cube, which is demagnetized in a 0.2T magnetic field after one-time forming.
  • a secondary molding machine isostatic press
  • each molded body is moved to a sintering furnace for sintering, sintered in a vacuum of 5 ⁇ 10 -3 Pa, kept at a temperature of 300°C and 600°C for 1 hour, and then sintered at a temperature of 1090°C After 8 hours, Ar gas was introduced to bring the pressure to 0.1 MPa, and then cooled to room temperature.
  • Example 1 Number/wt% TRE Pr Nd Tb Dy Ga Al Co Ti Zr Nb B Fe
  • Example 2 29.5 7.375 22.125 0 0 1.1 0.06 0 0.2 0 0 0.86 68.28
  • Example 3 30.0 7.5 22.5 0 0 1.2 0.07 0 0.25 0 0 0.9 67.58
  • Example 4 30.5 7.625 22.875 0 0 1.3 0.05 0 0.15 0 0 0.92 67.08
  • Example 5 31.0 7.75 23.25 0 0 1.4 0.06 0 0.2 0 0 0.94 66.4
  • Example 6 32.0 8.00 24.00 0 0 1.5 0.07 0 0.25 0 0 0.88 65.3
  • Example 8 30.5 7.625 22.875 0 0 1.7 0.06 0
  • Example 26 31.0 7.75 23.25 0 0 1.6 0.07 0 0 0.35 0 0.915 66.065
  • Example 27 32.0 8.00 24.00 0 0 1.8 0.05 0 0 0.3 0 0.92 64.93
  • Example 28 33.0 8.25 24.75 0 0 0.4 0.06 0 0 0.2 0 0.84 65.5
  • Example 29 30.5 7.625 22.875 0 0 0.55 0.07 0 0 0.26 0 0.86 67.76
  • Example 30 31.0 7.75 23.25 0 0 0.65 0.05 0 0 0.3 0.2 0.9 66.9
  • Example 31 30.0 7.5 22.5 0 0 0.8 0.06 0 0 0.35 0 0.92 67.87
  • Example 32 30.5 7.625 22.875 0 0 0.9 0.07 0 0 0.26 0 0.94 67.33
  • Example 33 31.0 7.75 23.25 0 0 1.05 0.05 0 0 0.3 0
  • the raw materials were prepared according to the formula shown in Table 1, and except for the conditions shown in Table 2, the other process conditions were the same as those in Example 1, and the R-T-B series sintered magnet was prepared.
  • the sintered magnets of Examples 1-39 and Comparative Examples 1-8 were measured for specific components using a high-frequency inductively coupled plasma emission spectrometer (ICP-OES).
  • ICP-OES high-frequency inductively coupled plasma emission spectrometer
  • Example 1 28.495 7.123 21.372 0.000 0.000 1.052 0.081 0.000 0.151 0.000 0.000 0.843 69.378
  • Example 2 29.494 7.372 22.122 0.000 0.000 1.104 0.102 0.000 0.201 0.000 0.000 0.863 68.236
  • Example 3 29.999 7.503 22.496 0.000 0.000 1.203 0.119 0.000 0.253 0.000 0.000 0.904 67.522
  • Example 5 31.002 7.750 23.252 0.000 0.000 1.393 0.092 0.000 0.204 0.000 0.000 0.942 66.367
  • Example 6 31.987 8.000 23.987 0.000 0.000 1.496 0.112 0.000 0.254 0.000 0.000 0.881 65.27
  • Example 7 33.005 8.253 24.752 0.000 0.000 1.597 0.089
  • Example 9 31.000 7.748 23.252 0.000 0.000 1.804 0.101 0.000 0.251 0.000 0.000 0.922 65.922
  • Example 10 29.999 7.503 22.496 0.000 0.000 1.052 0.102 0.000 0.203 0.000 0.202 0.914 67.528
  • Example 11 30.501 7.629 22.872 0.000 0.000 1.352 0.099 0.000 0.252 0.000 0.503 0.921 66.372
  • Example 12 31.000 7.752 23.248 0.000 0.000 0.553 0.101 0.000 0.151 0.000 0.000 0.922 67.273
  • Example 13 31.984 7.995 23.989 0.000 0.000 0.602 0.092 0.000 0.203 0.000 0.000 0.892 66.227
  • Example 14 33.004 8.252 24.752 0.000 0.000 0.703 0.119 0.000 0.253 0.000 0.894 65.027
  • Example 15 30.496 7.624 22.872 0.000 0.000 0.803 0.081 0.000 0.151 0.000 0.000 0.923 67.546
  • Comparative example 1 29.495 7.374 22.121 0.000 0.000 1.103 0.231 0.000 0.203 0.000 0.000 0.861 68.107 Comparative example 2 30.496 7.625 22.871 0.000 0.000 1.052 0.232 0.000 0.000 0.202 0.000 0.882 67.136 Comparative example 3 30.998 7.750 23.248 0.000 0.000 0.297 0.092 0.000 0.152 0.203 0.000 1.102 67.156 Comparative example 4 33.003 8.254 24.749 0.000 0.000 0.203 0.232 0.000 0.152 0.293 0.203 0.952 64.962 Comparative example 5 30.495 7.624 22.871 0.000 0.000 0.402 0.233 0.000 0.000 0.000 0.000 0.902 67.968 Comparative example 6 31.005 7.756 23.249 0.000 0.000 0.205 0.091 0.000 0.353 0.000 0.601 0.891 66.854 Comparative example 7 30.500 7.627 22.873 0.000 0.204 0.101 0.000 0.202 0.201 0.202
  • the Al content in the sintered magnets of Examples 1-39 and Comparative Examples 1-8 is the sum of the Al content in the raw materials and the Al content introduced in other raw materials and processes (such as alumina crucibles during smelting) .
  • FE-EPMA field emission electron probe microanalyzer
  • JEOL, 8530F field emission electron probe microanalyzer
  • Br or Hcj refers to the average value: the average value calculated by testing the remanence or coercivity of 5 rare earth permanent magnet material samples (cylinder 10mm*10mm) in the same batch; 6-13-1 phase
  • the volume ratio and temperature coefficient of the overall phase are also average values obtained by measuring the performance of 5 RTB-based permanent magnet material samples (cylinder 10mm*10mm) in the same batch.
  • the same batch refers to the products obtained in the same time period according to the raw materials and processes shown in the examples or comparative examples.
  • the 6-13-1 phase in Table 4 refers to the RE 6 Fe 13 Ga phase, among which: the volume ratio of the 6-13-1 phase to the overall phase refers to the volume of the RE 6 Fe 13 Ga phase in the overall phase In contrast, the overall phase includes the grain boundary phase, the R 2 T 14 B main phase and the rare earth-rich phase.
  • the magnetic properties of the RTB-based permanent magnet materials in Comparative Examples 1-8 are the best properties that can be obtained after the formulation of Comparative Examples 1-8 is optimized through the process (water inlet temperature, sintering temperature, and aging temperature).
  • Relative permeability The calculation formula is Br/Hcb (Br is remanence, Hcb is magnetic coercivity).
  • Squareness and relative permeability are average values obtained by measuring the performance of 5 R-T-B series permanent magnetic material samples (cylinder 10mm*10mm) in the same batch.
  • Max(Hcj)-Min(Hcj) The maximum value of the coercive force minus the minimum value of the coercive force in the same batch of products. If it is greater than 1.5kOe, the magnetic performance consistency is poor.
  • the same batch refers to the products obtained in the same time period according to the raw materials and processes shown in the examples or comparative examples.
  • Example 26 98.2 1.034 0.38 Excellent Example 27 98.4 1.031 0.63 Excellent Example 28 98.5 1.032 0.72 Excellent Example 29 98.5 1.035 0.38 Excellent Example 30 98.6 1.037 0.85 Excellent Example 31 98.2 1.032 0.95 Excellent Example 32 98.2 1.032 0.82 Excellent Example 33 98.4 1.034 0.63 Excellent Example 34 98.5 1.031 0.72 Excellent Example 35 98.5 1.032 0.38 Excellent Example 36 98.6 1.035 0.63 Excellent Example 37 98.2 1.037 0.72 Excellent Example 38 98.2 1.032 0.38 Excellent Example 39 98.4 1.032 0.72 Excellent Comparative example 1 87.8 1.132 1.95 Difference Comparative example 2 89.8 1.123 1.76 Difference Comparative example 3 98.6 1.032 0.38 Excellent Comparative example 4 90.5 1.115 1.93 Difference Comparative example 5 98.2 1.032 0.72 Excellent Comparative example 6 98.4 1.033 1.67 Difference Comparative example 7 98.5 1.035 0.63 Excellent Comparative example

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Inorganic Chemistry (AREA)
  • Manufacturing & Machinery (AREA)
  • Hard Magnetic Materials (AREA)

Abstract

A rare earth permanent magnet material, a preparation method therefor, and an application thereof. The permanent magnet material contains the following components: R: 28.45-33.1 wt%, Ga: >0.35 wt%, Al: 0.08-0.125 wt%, B: 0.835-0.945 wt%, and Fe: 64.2-69.5 wt%, wherein when the permanent magnet material contains Ti, the content of Ti is 0.15-0.26 wt%; when the permanent magnet material contains Zr, the content of Zr is 0.2-0.355 wt%; when the permanent magnet material contains Nb, the content of Nb is 0.19-0.51 wt%; and an R-T-B permanent magnet material does not contain Co. The permanent magnet material has an excellent magnetic properties, a smooth demagnetization curve, is step-less, has a low relative magnetic permeability, and has a good consistency of magnetic performance.

Description

一种稀土永磁材料及其制备方法和应用Rare earth permanent magnet material and preparation method and application thereof 技术领域Technical field
本发明涉及一种稀土永磁材料及其制备方法和应用。The invention relates to a rare earth permanent magnet material and a preparation method and application thereof.
背景技术Background technique
R-T-B系烧结磁铁(R指稀土元素,T指过渡金属元素及第三主族金属元素,B指硼元素)由于其优异的磁特性而被广泛应用于电子产品、汽车、风电、家电、电梯及工业机器人等领域,例如硬盘、手机、耳机、和电梯曳引机、发电机等永磁电机中作为能量源等,其需求日益扩大,且各产商对于磁铁性能例如剩磁、矫顽力性能的要求也逐步提升。RTB series sintered magnets (R refers to rare earth elements, T refers to transition metal elements and metal elements of the third main group, B refers to boron element) are widely used in electronic products, automobiles, wind power, home appliances, elevators and Industrial robots and other fields, such as hard disks, mobile phones, headsets, and permanent magnet motors such as elevator traction machines, generators, etc., are used as energy sources, and their demand is increasing. The requirements have gradually increased.
为了降低富B相的比例,提升R-T-B系烧结磁铁的剩磁,通常需要降低B含量,但是当B含量低于5.88at%时,由Nd-Fe-B三元相图可知易形成R 2T 17,而R 2T 17不具有室温单轴各向异性,进而使得磁体的性能劣化。 In order to reduce the proportion of B-rich phase and increase the remanence of RTB-based sintered magnets, it is usually necessary to reduce the B content, but when the B content is less than 5.88at%, the Nd-Fe-B ternary phase diagram shows that R 2 T is easily formed 17 , and R 2 T 17 does not have uniaxial anisotropy at room temperature, which in turn degrades the performance of the magnet.
现有技术中,一般通过添加重稀土元素例如Dy、Tb、Gd等,以提高材料的矫顽力以及改善温度系数,但重稀土价格高昂,采用这种方法提高R-T-B系烧结磁体产品的矫顽力,会增加原材料成本,不利于R-T-B系烧结磁体的应用。In the prior art, heavy rare earth elements such as Dy, Tb, Gd, etc. are generally added to increase the coercivity of materials and improve the temperature coefficient. However, the price of heavy rare earths is high. This method is used to increase the coercivity of RTB-based sintered magnet products. Force, will increase the cost of raw materials, is not conducive to the application of RTB series sintered magnets.
因此,在不添加或少量添加重稀土的情况下,如何采用低B体系(B<5.88at%)制备得到高矫顽力、高剩磁的R-T-B系磁铁是本领域亟待解决的技术问题。Therefore, how to prepare R-T-B magnets with high coercivity and high remanence by using a low-B system (B<5.88at%) without adding or adding a small amount of heavy rare earth is a technical problem to be solved urgently in this field.
发明内容Summary of the invention
本发明所要解决的技术问题在于克服现有技术中当R-T-B系磁体中B<5.88at%时,磁体性能劣化且一致性差的缺陷,而提供了一种稀土永磁材料及其制备方法和应用。The technical problem to be solved by the present invention is to overcome the defects of degraded magnet performance and poor consistency when the B of the R-T-B system magnet in the R-T-B magnet is less than 5.88 at% in the prior art, and provides a rare earth permanent magnet material and a preparation method and application thereof.
本发明提供了一种R-T-B系永磁材料,其包含:R、Ga、B、Al和Fe, 还包含Ti、Zr和Nb的一种或多种,以重量百分比计,其含量如下:The present invention provides an R-T-B series permanent magnetic material, which contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and the content is as follows in weight percentage:
R:28.45-33.1wt%;所述R为至少含有Nd的稀土元素;R: 28.45-33.1wt%; said R is a rare earth element containing at least Nd;
Ga:>0.35wt%;Ga: >0.35wt%;
Al:0.08-0.125wt%;Al: 0.08-0.125wt%;
B:0.835-0.945wt%;B: 0.835-0.945wt%;
Fe:64.2-69.5wt%;其中:Fe: 64.2-69.5wt%; of which:
当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.15-0.26wt%;When the R-T-B series permanent magnetic material contains Ti, the content of Ti is 0.15-0.26% by weight;
当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.2-0.355wt%;When the R-T-B series permanent magnetic material contains Zr, the content of Zr is 0.2-0.355wt%;
当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.19-0.51wt%;When the R-T-B series permanent magnetic material contains Nb, the content of Nb is 0.19-0.51wt%;
所述R-T-B系永磁材料中不含有Co。The R-T-B-based permanent magnet material does not contain Co.
本发明中,所述R-T-B系永磁材料包含R 2T 14B主相、晶界相和富稀土相。 In the present invention, the RTB-based permanent magnetic material includes R 2 T 14 B main phase, grain boundary phase and rare earth-rich phase.
其中,所述晶界相指的是两个或两个以上的R 2Fe l4B晶粒间的晶界相的总称。 Wherein, the grain boundary phase refers to the general term of the grain boundary phase between two or more R 2 Fe 14 B crystal grains.
其中,优选地,所述晶界相中包含R 6Fe 13Ga相,所述R 6Fe 13Ga相的体积分数为1.5-15%,例如5.7%、6.5%、7.3%、7.4%、7.6%、7.7%、7.9%、10.3%、10.6%、10.8%、10.9%、11.2%、11.4%、11.5%或11.8%,百分比是指所述R 6Fe 13Ga相的体积在所述晶界相、所述R 2T 14B主相和所述富稀土相的体积之和中所占百分比。 Wherein, preferably, the grain boundary phase includes the R 6 Fe 13 Ga phase, and the volume fraction of the R 6 Fe 13 Ga phase is 1.5-15%, for example, 5.7%, 6.5%, 7.3%, 7.4%, and 7.6%. %, 7.7%, 7.9%, 10.3%, 10.6%, 10.8%, 10.9%, 11.2%, 11.4%, 11.5% or 11.8%, the percentage means that the volume of the R 6 Fe 13 Ga phase is at the grain boundary The percentage of the total volume of the R 2 T 14 B phase, the R 2 T 14 B main phase, and the rare earth-rich phase.
本发明中,优选地,所述R-T-B系永磁材料中不含有Cu。In the present invention, preferably, the R-T-B-based permanent magnetic material does not contain Cu.
本发明中,所述R的含量优选为28.495-33.017wt%,例如28.495wt%、29.494wt%、29.992wt%、29.999wt%、30.008wt%、30.02wt%、30.495wt%、30.496wt%、30.497wt%、30.498wt%、30.501wt%、30.502wt%、30.503wt%、31.0wt%、31.002wt%、31.003wt%、31.004wt%、31.005wt%、31.007wt%、31.966wt%、31.968wt%、31.979wt%、31.984wt%、31.987wt%、33.003wt%、33.004wt%、33.005wt%或33.017wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of R is preferably 28.495-33.017wt%, such as 28.495wt%, 29.494wt%, 29.992wt%, 29.999wt%, 30.008wt%, 30.02wt%, 30.495wt%, 30.496wt%, 30.497wt%, 30.498wt%, 30.501wt%, 30.502wt%, 30.503wt%, 31.0wt%, 31.002wt%, 31.003wt%, 31.004wt%, 31.005wt%, 31.007wt%, 31.966wt%, 31.968wt %, 31.979wt%, 31.984wt%, 31.987wt%, 33.003wt%, 33.004wt%, 33.005wt% or 33.017wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,所述Nd的含量优选为17.5-26.0wt%,例如21.372-24.753wt%,再例如21.372wt%、21.987wt%、22.122wt%、22.496wt%、22.497wt%、22.505wt%、22.752wt%、22.872wt%、22.873wt%、22.874wt%、22.877wt%、23.248wt%、23.249wt%、23.251wt%、23.252wt%、23.253wt%、23.255wt%、23.976wt%、23.987wt%、23.989wt%、24.751wt%、24.752wt%或24.753wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the Nd content is preferably 17.5-26.0% by weight, such as 21.372-24.753% by weight, for example 21.372% by weight, 21.987% by weight, 22.122% by weight, 22.496% by weight, 22.497% by weight, 22.505% by weight, 22.752wt%, 22.872wt%, 22.873wt%, 22.874wt%, 22.877wt%, 23.248wt%, 23.249wt%, 23.251wt%, 23.252wt%, 23.253wt%, 23.255wt%, 23.976wt%, 23.987wt %, 23.989wt%, 24.751wt%, 24.752wt% or 24.753wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,所述R中还可包括Pr和/或重稀土RH。In the present invention, the R may also include Pr and/or heavy rare earth RH.
其中,所述Pr的含量可为<0.2at%或者>8at%,百分比是指在所述R-T-B系永磁材料中的原子百分比。Wherein, the content of Pr may be <0.2 at% or> 8 at%, and the percentage refers to the atomic percentage in the R-T-B series permanent magnetic material.
其中,所述Pr的含量优选为7.0-8.5wt%,例如7.123wt%、7.372wt%、7.496wt%、7.503wt%、7.523wt%、7.622wt%、7.623wt%、7.624wt%、7.628wt%、7.629wt%、7.748wt%、7.750wt%、7.752wt%、7.753wt%、7.992wt%、7.995wt%、8.000wt%、8.252wt%或8.253wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。Wherein, the content of Pr is preferably 7.0-8.5wt%, for example 7.123wt%, 7.372wt%, 7.496wt%, 7.503wt%, 7.523wt%, 7.622wt%, 7.623wt%, 7.624wt%, 7.628wt% %, 7.629wt%, 7.748wt%, 7.750wt%, 7.752wt%, 7.753wt%, 7.992wt%, 7.995wt%, 8.000wt%, 8.252wt% or 8.253wt%, the percentages refer to the RTB system Percentage by weight in permanent magnet materials.
其中,当所述R中还包括Pr时,优选地,B/(Pr+Nd)的原子百分比≥0.405,例如0.405、0.408或0.410。Wherein, when Pr is also included in the R, preferably, the atomic percentage of B/(Pr+Nd) is ≥0.405, such as 0.405, 0.408 or 0.410.
其中,所述RH的种类可为Tb或Dy。Wherein, the type of RH can be Tb or Dy.
其中,所述RH的含量可为1.5-6.0wt%,例如1.987wt%或2.012wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。Wherein, the content of the RH may be 1.5-6.0% by weight, for example, 1.987% by weight or 2.012% by weight, and the percentage refers to the weight percentage in the R-T-B series permanent magnetic material.
本发明中,所述Ga的含量优选为0.396-2.0wt%,例如0.396-1.804wt%,再例如0.396wt%、0.552wt%、0.553wt%、0.596wt%、0.602wt%、0.652wt%、0.703wt%、0.793wt%、0.796wt%、0.802wt%、0.803wt%、0.903wt%、0.905wt%、0.989wt%、1.052wt%、1.054wt%、1.104wt%、1.202wt%、1.203wt%、1.252wt%、1.253wt%、1.297wt%、1.352wt%、1.393wt%、1.403wt%、1.496wt%、1.597wt%、1.603wt%、1.697wt%、1.801wt%或1.804wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of Ga is preferably 0.396-2.0wt%, such as 0.396-1.804wt%, further for example 0.396wt%, 0.552wt%, 0.553wt%, 0.596wt%, 0.602wt%, 0.652wt%, 0.703wt%, 0.793wt%, 0.796wt%, 0.802wt%, 0.803wt%, 0.903wt%, 0.905wt%, 0.989wt%, 1.052wt%, 1.054wt%, 1.104wt%, 1.202wt%, 1.203wt %, 1.252wt%, 1.253wt%, 1.297wt%, 1.352wt%, 1.393wt%, 1.403wt%, 1.496wt%, 1.597wt%, 1.603wt%, 1.697wt%, 1.801wt% or 1.804wt%, The percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,所述Ga的含量优选为Ga≥1.05wt%、0.35wt%<Ga<0.55wt%、0.55wt%≤Ga<1.05wt%、1.05wt%≤Ga<1.25wt%、或者、Ga≥1.25wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of Ga is preferably Ga≥1.05wt%, 0.35wt%<Ga<0.55wt%, 0.55wt%≤Ga<1.05wt%, 1.05wt%≤Ga<1.25wt%, or Ga ≥1.25wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
本发明中,所述Al的含量优选为0.081-0.123wt%,例如0.081wt%、0.082wt%、0.089wt%、0.091wt%、0.092wt%、0.099wt%、0.101wt%、0.102wt%、0.109wt%、0.112wt%、0.119wt%、0.121wt%或0.123wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of Al is preferably 0.081-0.123wt%, such as 0.081wt%, 0.082wt%, 0.089wt%, 0.091wt%, 0.092wt%, 0.099wt%, 0.101wt%, 0.102wt%, 0.109wt%, 0.112wt%, 0.119wt%, 0.121wt% or 0.123wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,所述B的含量优选为0.839-0.944wt%,例如0.839wt%、0.842wt%、0.843wt%、0.862wt%、0.863wt%、0.881wt%、0.882wt%、0.892wt%、0.894wt%、0.903wt%、0.904wt%、0.913wt%、0.914wt%、0.916wt%、0.921wt%、0.922wt%、0.923wt%、0.942wt%或0.944wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of B is preferably 0.839-0.944wt%, such as 0.839wt%, 0.842wt%, 0.843wt%, 0.862wt%, 0.863wt%, 0.881wt%, 0.882wt%, 0.892wt%, 0.894wt%, 0.903wt%, 0.904wt%, 0.913wt%, 0.914wt%, 0.916wt%, 0.921wt%, 0.922wt%, 0.923wt%, 0.942wt% or 0.944wt%, the percentages refer to the RTB is the weight percentage in permanent magnet materials.
本发明中,所述B的含量优选为≥0.915wt%或者≥5.55at%;更优选地,所述B的含量为0.915wt%和5.55at%中的大者;wt%是指在所述R-T-B系永磁材料中的重量百分比,at%是指在所述R-T-B系永磁材料中的原子百分比。In the present invention, the content of B is preferably ≥0.915wt% or ≥5.55at%; more preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to The weight percentage in the RTB-based permanent magnetic material, at% refers to the atomic percentage in the RTB-based permanent magnetic material.
本发明中,优选地,所述B和TRE的原子百分比的比值≥0.38;其中,所述TRE为总稀土量;例如当所述R中包括Nd、Pr时,所述TRE为所述Nd和所述Pr的含量之和。In the present invention, preferably, the ratio of the atomic percentage of B and TRE is ≥ 0.38; wherein, the TRE is the total rare earth content; for example, when the R includes Nd and Pr, the TRE is the Nd and The sum of the content of Pr.
本发明中,优选地,所述Ga和所述B的原子百分比满足下述条件:Ga>7.2941-1.24B。In the present invention, preferably, the atomic percentage of the Ga and the B satisfies the following condition: Ga>7.2941-1.24B.
本发明中,所述Fe的含量优选为64.275-69.378wt%,例如64.275wt%、64.489wt%、64.667wt%、64.909wt%、65.027wt%、65.27wt%、65.465wt%、65.803wt%、65.922wt%、65.969wt%、66.023wt%、66.054wt%、66.168wt%、66.227wt%、66.367wt%、66.372wt%、66.599wt%、66.652wt%、66.821wt%、66.835wt%、66.87wt%、66.898wt%、66.902wt%、66.938wt%、66.973wt%、67.051wt%、67.225wt%、67.273wt%、67.522wt%、67.528wt%、67.546wt%、67.554wt%、67.719wt%、67.729wt%、67.817wt%、 67.827wt%、68.236wt%或69.378wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, the content of Fe is preferably 64.275-69.378wt%, such as 64.275wt%, 64.489wt%, 64.667wt%, 64.909wt%, 65.027wt%, 65.27wt%, 65.465wt%, 65.803wt%, 65.922wt%, 65.969wt%, 66.023wt%, 66.054wt%, 66.168wt%, 66.227wt%, 66.367wt%, 66.372wt%, 66.599wt%, 66.652wt%, 66.821wt%, 66.835wt%, 66.87wt %, 66.898wt%, 66.902wt%, 66.938wt%, 66.973wt%, 67.051wt%, 67.225wt%, 67.273wt%, 67.522wt%, 67.528wt%, 67.546wt%, 67.554wt%, 67.719wt%, 67.729wt%, 67.817wt%, 67.827wt%, 68.236wt% or 69.378wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,当所述R-T-B系永磁材料包含Ti时,所述Ti的含量优选为0.151-0.256wt%,例如0.151wt%、0.152wt%、0.200wt%、0.201wt%、0.203wt%、0.204wt%、0.205wt%、0.251wt%、0.252wt%、0.253wt%、0.254wt%或0.256wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, when the RTB-based permanent magnet material contains Ti, the content of Ti is preferably 0.151-0.256% by weight, such as 0.151% by weight, 0.152% by weight, 0.200% by weight, 0.201% by weight, 0.203% by weight, 0.204wt%, 0.205wt%, 0.251wt%, 0.252wt%, 0.253wt%, 0.254wt% or 0.256wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量优选为0.202-0.352wt%,例如0.202wt%、0.203wt%、0.261wt%、0.262wt%、0.302wt%、0.303wt%或0.352wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, when the RTB-based permanent magnetic material contains Zr, the content of Zr is preferably 0.202-0.352wt%, such as 0.202wt%, 0.203wt%, 0.261wt%, 0.262wt%, 0.302wt%, 0.303wt% or 0.352wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,当所述R-T-B系永磁材料包含Nb时,所述Nb的含量优选为0.192-0.503wt%,例如0.192wt%、0.201wt%、0.202wt%、0.298wt%、0.301wt%、0.302wt%、0.392wt%、0.401wt%、0.492wt%或0.503wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, when the RTB-based permanent magnetic material contains Nb, the content of Nb is preferably 0.192-0.503wt%, such as 0.192wt%, 0.201wt%, 0.202wt%, 0.298wt%, 0.301wt%, 0.302wt%, 0.392wt%, 0.401wt%, 0.492wt% or 0.503wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
本发明中,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量优选为0.20wt%≤Zr<(3.48B-2.67)wt%或者Zr≥0.26wt%,例如0.26wt%≤Zr<(3.48B-2.67)wt%,式中,所述B为B在所述R-T-B系永磁材料中的重量百分比;百分比是指在所述R-T-B系永磁材料中的重量百分比。In the present invention, when the RTB-based permanent magnetic material contains Zr, the content of Zr is preferably 0.20wt%≤Zr<(3.48B-2.67)wt% or Zr≥0.26wt%, for example 0.26wt%≤Zr <(3.48B-2.67)wt%, where the B is the weight percentage of B in the RTB-based permanent magnetic material; the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,Ga≥1.05wt%wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnetic material contains the following components: R: 28.45-33.1wt%, Ga≥1.05wt%wt%, Al: 0.08-0.125wt%, B: 0.835- 0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.55wt%≤Ga<1.05wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.55wt%≤Ga<1.05wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.35wt%<Ga<0.55wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%或者Zr:0.2-0.355wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.35wt%<Ga<0.55wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt% or Zr: 0.2-0.355wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,1.05wt%≤Ga<1.25wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 1.05wt%≤Ga<1.25wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,Ga≥1.25wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为Zr≥0.26wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, Ga≥1.25wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt %, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is Zr≥0.26wt%; the percentage refers to the weight percentage in the RTB-based permanent magnet material .
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.55wt%≤Ga<1.05wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 0.55wt%≤Ga<1.05wt%, Al:0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the RTB-based permanent magnet material.
本发明提供了一种R-T-B系永磁材料的原料组合物,其包含:R、Ga、B、Al和Fe,还包含Ti、Zr和Nb的一种或多种,以重量百分比计,其含量如下:The present invention provides a raw material composition of RTB-based permanent magnetic material, which contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and its content is calculated as a percentage by weight. as follows:
R:28.5-33.0wt%;所述R为至少含有Nd的稀土元素;R: 28.5-33.0wt%; said R is a rare earth element containing at least Nd;
Ga:>0.35wt%;Ga: >0.35wt%;
Al:0.05-0.07wt%;Al: 0.05-0.07wt%;
B:0.84-0.94wt%;B: 0.84-0.94wt%;
Fe:64.0-69.5wt%;其中:Fe: 64.0-69.5wt%; of which:
当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.15-0.25wt%;When the R-T-B series permanent magnetic material contains Ti, the content of Ti is 0.15-0.25 wt%;
当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.2-0.35wt%;When the R-T-B series permanent magnetic material contains Zr, the content of the Zr is 0.2-0.35 wt%;
当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.2-0.5wt%;When the R-T-B series permanent magnetic material contains Nb, the content of Nb is 0.2-0.5wt%;
所述R-T-B系永磁材料中不含有Co。The R-T-B-based permanent magnet material does not contain Co.
本领域技术人员知晓,所述R-T-B系永磁材料的原料组合物一般是指在永磁材料制备过程中所主动添加的原料,不包括制备工艺或者杂质中所引入的组分和/或含量。Those skilled in the art know that the raw material composition of the R-T-B permanent magnetic material generally refers to the raw material actively added during the preparation of the permanent magnetic material, and does not include the components and/or content introduced in the preparation process or impurities.
本发明中,所述R的含量优选为29.5-33.0wt%,例如29.5wt%、30.0wt%、30.5wt%、31.0wt%、32.0wt%或33.0wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the content of R is preferably 29.5-33.0wt%, such as 29.5wt%, 30.0wt%, 30.5wt%, 31.0wt%, 32.0wt% or 33.0wt%, and the percentage refers to the RTB system The weight percentage in the raw material composition of the permanent magnet material.
本发明中,所述Nd的含量优选为21.0-25.0wt%,例如21.375wt%、22.0wt%、22.125wt%、22.5wt%、22.75wt%、22.875wt%、23.25wt%、24.0wt%或24.75wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the Nd content is preferably 21.0-25.0wt%, such as 21.375wt%, 22.0wt%, 22.125wt%, 22.5wt%, 22.75wt%, 22.875wt%, 23.25wt%, 24.0wt% or 24.75wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
本发明中,所述R中还可包括Pr和/或重稀土RH。In the present invention, the R may also include Pr and/or heavy rare earth RH.
其中,所述Pr的含量可为<0.2at%或者>8at%,百分比是指在所述R-T-B系永磁材料的原料组合物中的原子百分比。Wherein, the content of Pr may be <0.2 at% or> 8 at%, and the percentage refers to the atomic percentage in the raw material composition of the R-T-B permanent magnetic material.
其中,所述Pr的含量优选为2.5-12.0wt%,例如7.125wt%、7.375wt%、7.5wt%、7.625wt%、7.75wt%、8.00wt%或8.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。Wherein, the content of Pr is preferably 2.5-12.0wt%, such as 7.125wt%, 7.375wt%, 7.5wt%, 7.625wt%, 7.75wt%, 8.00wt% or 8.25wt%, the percentage refers to the RTB is the weight percentage in the raw material composition of permanent magnet materials.
其中,当所述R中还包括Pr时,优选地,B/(Pr+Nd)的原子百分比≥0.405。Wherein, when Pr is also included in the R, preferably, the atomic percentage of B/(Pr+Nd) is ≥0.405.
其中,所述RH的种类可为Tb或Dy。Wherein, the type of RH can be Tb or Dy.
其中,所述RH的含量可为1.5-6.0wt.%,例如2.0wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。Wherein, the content of the RH may be 1.5-6.0 wt.%, for example 2.0 wt%, and the percentage refers to the weight percentage in the raw material composition of the R-T-B permanent magnetic material.
本发明中,所述Ga的含量优选为0.4-2.0wt%,例如0.4wt%、0.55wt%、0.6wt%、0.65wt%、0.7wt%、0.8wt%、0.9wt%、1.0wt%、1.05wt%、1.1wt%、1.2wt%、1.25wt%、1.3wt%、1.35wt%、1.4wt%、1.5wt%、 1.6wt%、1.7wt%或1.8wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the content of Ga is preferably 0.4-2.0wt%, such as 0.4wt%, 0.55wt%, 0.6wt%, 0.65wt%, 0.7wt%, 0.8wt%, 0.9wt%, 1.0wt%, 1.05wt%, 1.1wt%, 1.2wt%, 1.25wt%, 1.3wt%, 1.35wt%, 1.4wt%, 1.5wt%, 1.6wt%, 1.7wt% or 1.8wt%, the percentage refers to the RTB is the weight percentage in the raw material composition of permanent magnet materials.
本发明中,所述Ga的含量优选为Ga≥1.05wt%、0.55wt%≤Ga<1.05wt%、0.35wt%<Ga<0.55wt%、1.05wt%≤Ga<1.25wt%、或者、Ga≥1.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the Ga content is preferably Ga≥1.05wt%, 0.55wt%≤Ga<1.05wt%, 0.35wt%<Ga<0.55wt%, 1.05wt%≤Ga<1.25wt%, or, Ga ≥1.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
本发明中,所述Al的含量优选为0.06-0.07wt%,例如0.06wt%或0.07wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the content of Al is preferably 0.06-0.07% by weight, such as 0.06% by weight or 0.07% by weight, and the percentage refers to the weight percentage in the raw material composition of the R-T-B permanent magnet material.
本发明中,优选地,所述R-T-B系永磁材料的原料组合物中不含有Cu。In the present invention, preferably, the raw material composition of the R-T-B-based permanent magnet material does not contain Cu.
本发明中,所述B的含量优选为0.86-0.94wt%,例如0.86wt%、0.88wt%、0.90wt%、0.915wt%、0.92wt%或0.94wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the content of B is preferably 0.86-0.94wt%, such as 0.86wt%, 0.88wt%, 0.90wt%, 0.915wt%, 0.92wt% or 0.94wt%, and the percentage refers to the RTB system The weight percentage in the raw material composition of the permanent magnet material.
本发明中,所述B的含量优选为≥0.915wt%或者≥5.55at%;更优选地,所述B的含量为0.915wt%和5.55at%中的大者;wt%是指在所述R-T-B系永磁材料的原料组合物中的重量百分比,at%是指在所述R-T-B系永磁材料的原料组合物中的原子百分比。In the present invention, the content of B is preferably ≥0.915wt% or ≥5.55at%; more preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to The weight percentage in the raw material composition of the RTB-based permanent magnetic material, at% refers to the atomic percentage in the raw material composition of the RTB-based permanent magnetic material.
本发明中,优选地,所述B和TRE的原子百分比的比值≥0.38;其中,所述TRE为总稀土量;例如当所述R中包括Nd、Pr时,所述TRE为所述Nd和所述Pr的含量之和。In the present invention, preferably, the ratio of the atomic percentage of B and TRE is ≥ 0.38; wherein, the TRE is the total rare earth content; for example, when the R includes Nd and Pr, the TRE is the Nd and The sum of the content of Pr.
本发明中,优选地,所述Ga和所述B的原子百分比满足下述条件Ga>7.2941-1.24B,原子百分比是指在所述R-T-B系永磁材料的原料组合物中的原子百分比。In the present invention, preferably, the atomic percentage of Ga and B satisfies the following condition Ga>7.2941-1.24B, and the atomic percentage refers to the atomic percentage in the raw material composition of the R-T-B permanent magnet material.
本发明中,所述Fe的含量优选为64.32-69.41wt%,例如64.32wt%、64.555wt%、64.715wt%、64.93wt%、65.08wt%、65.3wt%、65.5wt%、65.82wt%、65.96wt%、65.99wt%、66.065wt%、66.11wt%、66.2wt%、66.24wt%、66.4wt%、66.42wt%、66.625wt%、66.685wt%、66.86wt%、66.9wt%、66.915wt%、66.935wt%、66.94wt%、66.98wt%、67.01wt%、67.08wt%、67.275wt%、67.33wt%、67.58wt%、67.585wt%、67.6wt%、 67.76wt%、67.86wt%、67.87wt%、68.28wt%或69.41wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, the content of Fe is preferably 64.32-69.41wt%, such as 64.32wt%, 64.555wt%, 64.715wt%, 64.93wt%, 65.08wt%, 65.3wt%, 65.5wt%, 65.82wt%, 65.96wt%, 65.99wt%, 66.065wt%, 66.11wt%, 66.2wt%, 66.24wt%, 66.4wt%, 66.42wt%, 66.625wt%, 66.685wt%, 66.86wt%, 66.9wt%, 66.915wt %, 66.935wt%, 66.94wt%, 66.98wt%, 67.01wt%, 67.08wt%, 67.275wt%, 67.33wt%, 67.58wt%, 67.585wt%, 67.6wt%, 67.76wt%, 67.86wt%, 67.87wt%, 68.28wt% or 69.41wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
本发明中,当所述R-T-B系永磁材料包含Ti时,所述Ti的含量优选为0.20-0.25wt%,例如0.20wt%或0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, when the RTB-based permanent magnetic material contains Ti, the content of Ti is preferably 0.20-0.25wt%, such as 0.20wt% or 0.25wt%, and the percentage refers to the content of the RTB-based permanent magnetic material The weight percentage in the raw material composition.
本发明中,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量优选为0.26-0.35wt%,例如0.26wt%、0.3wt%或0.35wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, when the RTB-based permanent magnet material contains Zr, the content of the Zr is preferably 0.26-0.35wt%, such as 0.26wt%, 0.3wt% or 0.35wt%, and the percentage means that the RTB system The weight percentage in the raw material composition of the permanent magnet material.
本发明中,当所述R-T-B系永磁材料包含Nb时,所述Nb的含量优选为0.3-0.5wt%,例如0.3wt%、0.4wt%或0.5wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, when the RTB-based permanent magnetic material contains Nb, the content of Nb is preferably 0.3-0.5wt%, such as 0.3wt%, 0.4wt% or 0.5wt%, and the percentage refers to the amount in the RTB-based permanent magnet material. The weight percentage in the raw material composition of the permanent magnet material.
本发明中,当所述R-T-B系永磁材料的原料组合物中包含Zr时,所述Zr的含量优选为0.20wt%≤Zr<(3.48B-2.67)wt%或者Zr≥0.26wt%,例如0.26wt%≤Zr<(3.48B-2.67)wt%,式中,所述B为B在所述R-T-B系永磁材料的原料组合物中的重量百分比;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In the present invention, when the raw material composition of the RTB-based permanent magnet material contains Zr, the content of the Zr is preferably 0.20wt%≤Zr<(3.48B-2.67)wt% or Zr≥0.26wt%, for example 0.26wt%≤Zr<(3.48B-2.67)wt%, where B is the weight percentage of B in the raw material composition of the RTB-based permanent magnet material; The weight percentage in the raw material composition of the material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,Ga≥1.05wt%wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, Ga≥1.05wt%wt%, Al: 0.05-0.07wt%, B: 0.84- 0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.55wt%≤Ga<1.05wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.35wt%<Ga<0.55wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%或者Zr:0.2-0.35wt%,百分比是指 在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.35wt%<Ga<0.55wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt% or Zr: 0.2-0.35wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,1.05wt%≤Ga<1.25wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 1.05wt%≤Ga<1.25wt%, Al:0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,Ga≥1.25wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为≥0.26wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, Ga≥1.25wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt %, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is ≥0.26wt%; the percentage means in the raw material composition of the RTB-based permanent magnet material The weight percentage.
在本发明一优选实施方式中,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.55wt%≤Ga<1.05wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。In a preferred embodiment of the present invention, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; the percentage is Refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material.
本发明还提供了一种R-T-B系永磁材料的制备方法,其包括下述步骤:The present invention also provides a preparation method of R-T-B series permanent magnet material, which includes the following steps:
将所述R-T-B系永磁材料的原料组合物的熔融液经铸造、氢破、成形、烧结和时效处理,即可。The molten liquid of the raw material composition of the R-T-B series permanent magnet material is subjected to casting, hydrogen breaking, forming, sintering and aging treatments.
其中,所述R-T-B系永磁材料的原料组合物的熔融液可按本领域常规方法制得,例如:在高频真空感应熔炼炉中熔炼,即可。Wherein, the molten liquid of the raw material composition of the R-T-B series permanent magnet material can be prepared according to a conventional method in the art, for example, smelting in a high-frequency vacuum induction melting furnace.
所述熔炼炉的真空度可为5×10 -2Pa。 The vacuum degree of the melting furnace may be 5×10 -2 Pa.
所述熔炼的温度可为1500℃以下。The melting temperature may be 1500°C or less.
所述熔炼一般在氧化铝制的坩埚中进行。该氧化铝制坩埚会引入一部分Al至R-T-B系永磁材料中。The smelting is generally performed in a crucible made of alumina. The alumina crucible introduces a part of Al into the R-T-B-based permanent magnet material.
其中,所述铸造的工艺可为本领域常规的铸造工艺,例如:在Ar气氛中(例如5.5×10 4Pa的Ar气氛下),将所述R-T-B系永磁材料的原料组合物的熔融液通过旋转的辊轮,以10 2℃/秒-10 4℃/秒的速度冷却,即可。 Wherein, the casting process can be a conventional casting process in the field, for example: in an Ar atmosphere (for example, under an Ar atmosphere of 5.5×10 4 Pa), the molten liquid of the raw material composition of the RTB-based permanent magnet material Cool down at a rate of 10 2 ℃/sec to 10 4 ℃/sec through a rotating roller.
所述冷却可通过辊轮中通入冷却水实现。优选地,所述辊轮的进水温度≤25℃,例如23.2℃、23.4℃、23.5℃、23.6℃或23.7℃。所述辊轮可为铜辊。The cooling can be achieved by passing cooling water into the rollers. Preferably, the inlet water temperature of the roller is ≤ 25°C, for example, 23.2°C, 23.4°C, 23.5°C, 23.6°C or 23.7°C. The roller may be a copper roller.
其中,所述氢破的工艺可为本领域常规的氢破工艺,例如经吸氢、脱氢、冷却处理,即可。Wherein, the hydrogen breaking process can be a conventional hydrogen breaking process in the art, such as hydrogen absorption, dehydrogenation, and cooling treatment.
所述吸氢可在氢气压力0.15MPa的条件下进行。The hydrogen absorption can be performed under the condition of a hydrogen pressure of 0.15 MPa.
所述脱氢可在边抽真空边升温的条件下进行。The dehydrogenation can be carried out under the conditions of raising the temperature while drawing a vacuum.
其中,所述氢破后还可按本领域常规手段进行粉碎。所述粉碎的工艺可为本领域常规的粉碎工艺,例如气流磨粉碎。Wherein, after the hydrogen is broken, it can be pulverized according to conventional means in the field. The pulverization process can be a conventional pulverization process in the field, such as jet mill pulverization.
所述气流磨粉碎可在氧化气体含量120ppm以下的氮气气氛下进行。所述氧化气体指的是氧气或水分含量。The jet mill pulverization can be performed in a nitrogen atmosphere with an oxidizing gas content of 120 ppm or less. The oxidizing gas refers to oxygen or moisture content.
所述气流磨粉碎的粉碎室压力可为0.38MPa。The pressure of the crushing chamber of the jet mill crushing may be 0.38 MPa.
所述气流磨粉碎的时间可为3小时。The pulverization time of the jet mill may be 3 hours.
所述粉碎后,可按本领域常规手段在粉体中添加润滑剂,例如硬脂酸锌。所述润滑剂的添加量可为混合后粉末重量的0.10-0.15%,例如0.12%。After the pulverization, a lubricant, such as zinc stearate, can be added to the powder according to conventional means in the art. The added amount of the lubricant may be 0.10-0.15% of the weight of the powder after mixing, for example 0.12%.
其中,所述成形的工艺可为本领域常规的成形工艺,例如磁场成形法或热压热变形法。Wherein, the forming process may be a conventional forming process in the field, such as a magnetic field forming method or a hot pressing and thermal deformation method.
其中,所述烧结的工艺可为本领域常规的烧结工艺,例如,在真空条件下(例如在5×10 -3Pa的真空下),经预热、烧结、冷却,即可。 Wherein, the sintering process may be a conventional sintering process in the field, for example, preheating, sintering, and cooling under vacuum conditions (for example, under a vacuum of 5×10 -3 Pa).
所述预热的温度可为300-600℃。所述预热的时间可为1-2h。优选地,所述预热为在300℃和600℃的温度下各预热1h。The preheating temperature may be 300-600°C. The preheating time can be 1-2h. Preferably, the preheating is a preheating at a temperature of 300°C and 600°C for 1 hour each.
所述烧结的温度可为本领域常规的烧结温度,例如1040-1090℃,再例如1055℃、1057℃、1058℃、1065℃、1067℃、1068℃、1070℃、1072℃、1073℃、1075℃、1076℃、1079℃、1080℃、1083℃、1085℃或1090℃。The sintering temperature may be a conventional sintering temperature in the art, for example, 1040-1090°C, and for example 1055°C, 1057°C, 1058°C, 1065°C, 1067°C, 1068°C, 1070°C, 1072°C, 1073°C, 1075 ℃, 1076℃, 1079℃, 1080℃, 1083℃, 1085℃ or 1090℃.
所述烧结的时间可为本领域常规的烧结时间,例如5-10h,再例如8h。The sintering time may be a conventional sintering time in the art, for example, 5-10h, and for example 8h.
所述冷却前可通入Ar气体使气压达到0.1MPa。Before the cooling, Ar gas can be introduced to make the gas pressure reach 0.1 MPa.
其中,所述时效处理包括一级时效处理和二级时效处理。Wherein, the aging treatment includes primary aging treatment and secondary aging treatment.
所述一级时效处理的温度优选为860-960℃,例如900℃。The temperature of the primary aging treatment is preferably 860-960°C, such as 900°C.
所述一级时效处理中,升温至860-960℃的升温速率优选3-5℃/min。所述升温的起点可为室温。In the one-stage aging treatment, the heating rate to 860-960°C is preferably 3-5°C/min. The starting point of the temperature increase may be room temperature.
所述一级时效处理的时间可为3h。The time for the primary aging treatment may be 3h.
所述二级时效处理的温度优选为430-560℃,例如450-490℃,再例如460℃、470℃、475℃、477℃或480℃。The temperature of the secondary aging treatment is preferably 430-560°C, such as 450-490°C, and further such as 460°C, 470°C, 475°C, 477°C or 480°C.
所述二级时效中,升温至430-560℃的升温速率优选3-5℃/min。所述升温的起点可为室温。In the secondary aging, the temperature rise rate to 430-560°C is preferably 3-5°C/min. The starting point of the temperature increase may be room temperature.
所述二级时效的处理时间可为3h。The treatment time of the secondary aging may be 3h.
本发明还提供了一种采用上述方法制得的R-T-B系永磁材料。The invention also provides an R-T-B series permanent magnet material prepared by the above method.
本发明还提供了一种所述R-T-B系永磁材料作为电子元器件的应用。The invention also provides an application of the R-T-B series permanent magnet material as an electronic component.
其中,所述应用的领域可为汽车驱动领域、风电领域、伺服电机和家电领域(例如空调)。Among them, the application fields can be the automotive drive field, wind power field, servo motor and home appliance field (for example, air conditioner).
本发明中,所述室温是指25℃±5℃。In the present invention, the room temperature refers to 25°C±5°C.
在符合本领域常识的基础上,上述各优选条件,可任意组合,即得本发明各较佳实例。On the basis of conforming to common knowledge in the field, the above-mentioned preferred conditions can be combined arbitrarily to obtain preferred embodiments of the present invention.
本发明所用试剂和原料均市售可得。The reagents and raw materials used in the present invention are all commercially available.
本发明的积极进步效果在于:The positive and progressive effects of the present invention are:
(1)磁性能优异:本发明中的R-T-B系永磁材料Br≥11.77kGs,Hcj≥19.25kOe,添加重稀土元素后,Hcj可达27.91kOe(Tb)、28.01kOe(Dy);磁体温度稳定性好,20-80℃Br温度系数α%/℃的绝对值小于0.105。(1) Excellent magnetic properties: In the present invention, the RTB-based permanent magnet material Br≥11.77kGs, Hcj≥19.25kOe, after adding heavy rare earth elements, Hcj can reach 27.91kOe(Tb), 28.01kOe(Dy); the temperature of the magnet is stable Good performance, the absolute value of the temperature coefficient of Br at 20-80℃, α%/℃, is less than 0.105.
(2)退磁曲线光滑,无台阶,相对磁导率低,矫顽力同批次极差≤1.5kOe,磁体性能一致性好。(2) The demagnetization curve is smooth, without steps, and the relative permeability is low. The coercive force is less than or equal to 1.5kOe in the same batch, and the magnet performance is consistent.
具体实施方式Detailed ways
下面通过实施例的方式进一步说明本发明,但并不因此将本发明限制在所述的实施例范围之中。下列实施例中未注明具体条件的实验方法,按照常规方法和条件,或按照商品说明书选择。The present invention will be further described by way of examples below, but the present invention is not limited to the scope of the described examples. In the following examples, the experimental methods without specific conditions are selected according to conventional methods and conditions, or according to the product specification.
实施例1Example 1
本实施例中制备R-T-B系永磁材料所用的原料如表1所示,其制备的工艺如下:The raw materials used in the preparation of the R-T-B series permanent magnet material in this embodiment are shown in Table 1, and the preparation process is as follows:
(1)熔炼过程:按表1所示配方,取配制好的原料放入氧化铝制的坩埚中,在高频真空感应熔炼炉中在5×10 -2Pa的真空中以1500℃以下的温度进行真空熔炼得熔融液。 (1) melting process: according to the formulation shown in Table 1, the prepared feedstock take placed in an alumina crucible, a high-frequency vacuum induction melting furnace at 1500 deg.] C or less in a vacuum of 5 × 10 -2 Pa in The temperature is vacuum smelted to obtain a molten liquid.
(2)铸造过程:在真空熔炼后的熔炼炉中通入Ar气体使气压达到5.5万Pa后,进行铸造,将熔融液通过29转/分转速的铜辊制得0.12-0.35mm厚度的速凝合金片,浇铸过程中,铜辊需通入冷冻水,其进水温度≤25℃;以10 2℃/秒-10 4℃/秒的冷却速度获得急冷合金。 (2) Casting process: Ar gas is introduced into the smelting furnace after vacuum smelting to make the pressure reach 55,000 Pa, and then the casting is carried out. The molten liquid is passed through a copper roller with a rotation speed of 29 rpm to obtain a thickness of 0.12-0.35 mm. condensate alloy sheet, the casting process, the copper roll should be purged with chilled water, which inlet temperature ≤25 ℃; at a cooling rate of 10 2 ℃ / sec -10 4 ℃ / sec is obtained rapidly solidified alloy.
(3)氢破粉碎过程:在室温下将放置急冷合金的氢破用炉抽真空,而后向氢破用炉内通入纯度为99.9%的氢气,维持氢气压力0.15MPa,充分吸氢后,边抽真空边升温,充分脱氢,之后进行冷却,取出氢破粉碎后的粉末。(3) Hydrogen breaking and pulverizing process: Vacuum the hydrogen breaking furnace containing the quench alloy at room temperature, and then pass hydrogen with a purity of 99.9% into the hydrogen breaking furnace, maintain the hydrogen pressure at 0.15MPa, and fully absorb hydrogen. The temperature is raised while vacuuming, and the hydrogen is fully dehydrogenated, and then cooled, and the powder after the hydrogen cracking and pulverization is taken out.
(4)微粉碎工序:在氧化气体含量120ppm以下的氮气气氛下,在粉碎室压力为0.38MPa的条件下对氢破粉碎后的粉末进行3小时的气流磨粉碎,得到细粉。氧化气体指的是氧或水分。(4) Fine pulverization process: Under the nitrogen atmosphere with an oxidizing gas content of 120 ppm or less, the powder after hydrogen pulverization is pulverized by jet milling for 3 hours under the condition of a pulverizing chamber pressure of 0.38 MPa to obtain a fine powder. Oxidizing gas refers to oxygen or moisture.
(5)在气流磨粉碎后的粉末中添加硬脂酸锌,硬脂酸锌的添加量为混合后粉末重量的0.12%,再用V型混料机充分混合。(5) Add zinc stearate to the powder pulverized by the jet mill. The addition amount of zinc stearate is 0.12% of the weight of the mixed powder, and then fully mix it with a V-type mixer.
(6)磁场成形过程:使用直角取向型的磁场成形机,在1.6T的取向磁场中,在0.35ton/cm 2的成形压力下,将上述添加了硬脂酸锌的粉末一次成形成边长为25mm的立方体,一次成形后在0.2T的磁场中退磁。为使一次成形后的成形体不接触到空气,将其进行密封,再使用二次成形机(等静压成形机)在1.3ton/cm 2的压力下进行二次成形。 (6) Magnetic field forming process: using a right-angle orientation magnetic field forming machine, in a 1.6T orientation magnetic field, under a forming pressure of 0.35 ton/cm 2 , the above-mentioned zinc stearate-added powder is formed into a side length at a time It is a 25mm cube, which is demagnetized in a 0.2T magnetic field after one-time forming. In order to prevent the molded body after the primary molding from coming into contact with air, it was sealed, and then a secondary molding machine (isostatic press) was used to perform secondary molding at a pressure of 1.3 ton/cm 2.
(7)烧结过程:将各成形体搬至烧结炉进行烧结,烧结在5×10 -3Pa的真空下,在300℃和600℃的温度下各保持1小时后,以1090℃的温度烧结8小时,之后通入Ar气体使气压达到0.1MPa后,冷却至室温。 (7) Sintering process: each molded body is moved to a sintering furnace for sintering, sintered in a vacuum of 5×10 -3 Pa, kept at a temperature of 300°C and 600°C for 1 hour, and then sintered at a temperature of 1090°C After 8 hours, Ar gas was introduced to bring the pressure to 0.1 MPa, and then cooled to room temperature.
(8)时效处理过程:烧结体在高纯度Ar气中,以3-5℃/min的升温速 率从20℃升温至900℃进行一级时效处理,具体步骤如下:以900℃温度进行3小时热处理后,冷却至室温后取出。之后,进行二级时效处理,二级时效处理的时间为3小时,二级时效温度参见表2。(8) Aging treatment process: the sintered body is heated from 20°C to 900°C at a heating rate of 3-5°C/min in high-purity Ar gas for primary aging treatment. The specific steps are as follows: 900°C for 3 hours After heat treatment, take it out after cooling to room temperature. After that, the secondary aging treatment is carried out, and the time of the secondary aging treatment is 3 hours, and the secondary aging temperature is shown in Table 2.
表1各实施例、对比例中原料质量百分比Table 1 The mass percentage of raw materials in each embodiment and comparative example
编号/wt%Number/wt% TRETRE PrPr NdNd TbTb DyDy GaGa AlAl CoCo TiTi ZrZr NbNb BB FeFe
实施例1Example 1 28.528.5 7.1257.125 21.37521.375 00 00 1.051.05 0.050.05 00 0.150.15 00 00 0.840.84 69.4169.41
实施例2Example 2 29.529.5 7.3757.375 22.12522.125 00 00 1.11.1 0.060.06 00 0.20.2 00 00 0.860.86 68.2868.28
实施例3Example 3 30.030.0 7.57.5 22.522.5 00 00 1.21.2 0.070.07 00 0.250.25 00 00 0.90.9 67.5867.58
实施例4Example 4 30.530.5 7.6257.625 22.87522.875 00 00 1.31.3 0.050.05 00 0.150.15 00 00 0.920.92 67.0867.08
实施例5Example 5 31.031.0 7.757.75 23.2523.25 00 00 1.41.4 0.060.06 00 0.20.2 00 00 0.940.94 66.466.4
实施例6Example 6 32.032.0 8.008.00 24.0024.00 00 00 1.51.5 0.070.07 00 0.250.25 00 00 0.880.88 65.365.3
实施例7Example 7 33.033.0 8.258.25 24.7524.75 00 00 1.61.6 0.050.05 00 0.150.15 00 00 0.880.88 64.3264.32
实施例8Example 8 30.530.5 7.6257.625 22.87522.875 00 00 1.71.7 0.060.06 00 0.20.2 00 00 0.9150.915 66.62566.625
实施例9Example 9 31.031.0 7.757.75 23.2523.25 00 00 1.81.8 0.070.07 00 0.250.25 00 00 0.920.92 65.9665.96
实施例10Example 10 30.030.0 7.57.5 22.522.5 00 00 1.051.05 0.050.05 00 0.20.2 00 0.20.2 0.9150.915 67.58567.585
实施例11Example 11 30.530.5 7.6257.625 22.87522.875 00 00 1.351.35 0.060.06 00 0.250.25 00 0.50.5 0.920.92 66.4266.42
实施例12Example 12 31.031.0 7.757.75 23.2523.25 00 00 0.550.55 0.050.05 00 0.150.15 00 00 0.920.92 67.3367.33
实施例13Example 13 32.032.0 8.008.00 24.0024.00 00 00 0.60.6 0.060.06 00 0.20.2 00 00 0.90.9 66.2466.24
实施例14Example 14 33.033.0 8.258.25 24.7524.75 00 00 0.70.7 0.070.07 00 0.250.25 00 00 0.90.9 65.0865.08
实施例15Example 15 30.530.5 7.6257.625 22.87522.875 00 00 0.80.8 0.050.05 00 0.150.15 00 00 0.920.92 67.5867.58
实施例16Example 16 31.031.0 7.757.75 23.2523.25 00 00 0.90.9 0.060.06 00 0.20.2 00 00 0.860.86 66.9866.98
实施例17Example 17 30.030.0 7.57.5 22.522.5 00 00 1.01.0 0.070.07 00 0.250.25 00 00 0.920.92 67.7667.76
实施例18Example 18 30.530.5 7.6257.625 22.87522.875 00 00 1.051.05 0.060.06 00 0.20.2 00 00 0.9150.915 67.27567.275
实施例19Example 19 31.031.0 7.757.75 23.2523.25 00 00 0.60.6 0.050.05 00 0.20.2 00 0.30.3 0.9150.915 66.93566.935
实施例20Example 20 32.032.0 8.008.00 24.0024.00 00 00 1.051.05 0.050.05 00 00 0.20.2 00 0.880.88 65.8265.82
实施例21Example 21 33.033.0 8.258.25 24.7524.75 00 00 1.051.05 0.060.06 00 00 0.260.26 00 0.9150.915 64.71564.715
实施例22Example 22 30.530.5 7.6257.625 22.87522.875 00 00 1.21.2 0.070.07 00 00 0.30.3 00 0.920.92 67.0167.01
实施例23Example 23 31.031.0 7.757.75 23.2523.25 00 00 1.251.25 0.060.06 00 00 0.350.35 0.20.2 0.940.94 66.266.2
实施例24Example 24 30.030.0 7.57.5 22.522.5 00 00 1.251.25 0.050.05 00 00 0.260.26 00 0.840.84 67.667.6
实施例25Example 25 30.530.5 7.6257.625 22.87522.875 00 00 1.41.4 0.060.06 00 00 0.30.3 00 0.880.88 66.8666.86
实施例26Example 26 31.031.0 7.757.75 23.2523.25 00 00 1.61.6 0.070.07 00 00 0.350.35 00 0.9150.915 66.06566.065
实施例27Example 27 32.032.0 8.008.00 24.0024.00 00 00 1.81.8 0.050.05 00 00 0.30.3 00 0.920.92 64.9364.93
实施例28Example 28 33.033.0 8.258.25 24.7524.75 00 00 0.40.4 0.060.06 00 00 0.20.2 00 0.840.84 65.565.5
实施例29Example 29 30.530.5 7.6257.625 22.87522.875 00 00 0.550.55 0.070.07 00 00 0.260.26 00 0.860.86 67.7667.76
实施例30Example 30 31.031.0 7.757.75 23.2523.25 00 00 0.650.65 0.050.05 00 00 0.30.3 0.20.2 0.90.9 66.966.9
实施例31Example 31 30.030.0 7.57.5 22.522.5 00 00 0.80.8 0.060.06 00 00 0.350.35 00 0.920.92 67.8767.87
实施例32Example 32 30.530.5 7.6257.625 22.87522.875 00 00 0.90.9 0.070.07 00 00 0.260.26 00 0.940.94 67.3367.33
实施例33Example 33 31.031.0 7.757.75 23.2523.25 00 00 1.051.05 0.050.05 00 00 0.30.3 00 0.9150.915 66.68566.685
实施例34Example 34 32.032.0 8.008.00 22.0022.00 2.02.0 00 0.550.55 0.060.06 00 0.20.2 00 0.30.3 0.90.9 65.9965.99
实施例35Example 35 33.033.0 8.258.25 22.7522.75 00 2.02.0 0.80.8 0.070.07 00 00 0.260.26 0.40.4 0.9150.915 64.55564.555
实施例36Example 36 30.530.5 7.6257.625 22.87522.875 00 00 0.550.55 0.050.05 00 00 00 0.20.2 0.840.84 67.8667.86
实施例37Example 37 31.031.0 7.757.75 23.2523.25 00 00 0.80.8 0.060.06 00 00 00 0.30.3 0.90.9 66.9466.94
实施例38Example 38 30.530.5 7.6257.625 22.87522.875 00 00 1.21.2 0.070.07 00 00 00 0.40.4 0.9150.915 66.91566.915
实施例39Example 39 31.031.0 7.757.75 23.2523.25 00 00 1.41.4 0.050.05 00 00 00 0.50.5 0.940.94 66.1166.11
对比例1Comparative example 1 29.529.5 7.3757.375 22.12522.125 00 00 1.11.1 0.20.2 00 0.20.2 00 00 0.860.86 68.1468.14
对比例2Comparative example 2 30.530.5 7.6257.625 22.87522.875 00 00 1.051.05 0.20.2 00 00 0.20.2 00 0.880.88 67.1767.17
对比例3Comparative example 3 31.031.0 7.757.75 23.2523.25 00 00 0.30.3 0.060.06 00 0.150.15 0.20.2 00 1.11.1 67.1967.19
对比例4Comparative example 4 33.033.0 8.258.25 24.7524.75 00 00 0.20.2 0.20.2 00 0.150.15 0.30.3 0.20.2 0.950.95 65.065.0
对比例5Comparative example 5 30.530.5 7.6257.625 22.87522.875 00 00 0.40.4 0.20.2 00 00 00 00 0.90.9 68.068.0
对比例6Comparative example 6 31.031.0 7.757.75 23.2523.25 00 00 0.20.2 0.060.06 00 0.350.35 00 0.60.6 0.90.9 66.8966.89
对比例7Comparative example 7 30.530.5 7.6257.625 22.87522.875 00 00 0.20.2 0.060.06 00 0.20.2 0.20.2 0.20.2 0.920.92 67.7267.72
对比例8Comparative example 8 31.031.0 7.757.75 23.2523.25 00 00 0.60.6 0.050.05 0.20.2 0.20.2 00 0.30.3 0.9150.915 66.73566.735
实施例2-实施例39、对比例1-8Example 2-Example 39, Comparative Example 1-8
按表1所示配方配制原料,除表2所示条件外,其他工艺条件均同实施例1,制得R-T-B系烧结磁铁。The raw materials were prepared according to the formula shown in Table 1, and except for the conditions shown in Table 2, the other process conditions were the same as those in Example 1, and the R-T-B series sintered magnet was prepared.
表2Table 2
Figure PCTCN2021077189-appb-000001
Figure PCTCN2021077189-appb-000001
Figure PCTCN2021077189-appb-000002
Figure PCTCN2021077189-appb-000002
Figure PCTCN2021077189-appb-000003
Figure PCTCN2021077189-appb-000003
效果实施例Example of effects
(1)成分测定(1) Composition determination
实施例1-39、对比例1-8的烧结磁体使用高频电感耦合等离子体发射光谱仪(ICP-OES)测定具体成分。下表所示为成分检测结果。The sintered magnets of Examples 1-39 and Comparative Examples 1-8 were measured for specific components using a high-frequency inductively coupled plasma emission spectrometer (ICP-OES). The following table shows the component test results.
表3table 3
编号/wt%Number/wt% TRETRE PrPr NdNd TbTb DyDy GaGa AlAl CoCo TiTi ZrZr NbNb BB FeFe
实施例1Example 1 28.49528.495 7.1237.123 21.37221.372 0.0000.000 0.0000.000 1.0521.052 0.0810.081 0.0000.000 0.1510.151 0.0000.000 0.0000.000 0.8430.843 69.37869.378
实施例2Example 2 29.49429.494 7.3727.372 22.12222.122 0.0000.000 0.0000.000 1.1041.104 0.1020.102 0.0000.000 0.2010.201 0.0000.000 0.0000.000 0.8630.863 68.23668.236
实施例3Example 3 29.99929.999 7.5037.503 22.49622.496 0.0000.000 0.0000.000 1.2031.203 0.1190.119 0.0000.000 0.2530.253 0.0000.000 0.0000.000 0.9040.904 67.52267.522
实施例4Example 4 30.49630.496 7.6227.622 22.87422.874 0.0000.000 0.0000.000 1.2971.297 0.0810.081 0.0000.000 0.1520.152 0.0000.000 0.0000.000 0.9230.923 67.05167.051
实施例5Example 5 31.00231.002 7.7507.750 23.25223.252 0.0000.000 0.0000.000 1.3931.393 0.0920.092 0.0000.000 0.2040.204 0.0000.000 0.0000.000 0.9420.942 66.36766.367
实施例6Example 6 31.98731.987 8.0008.000 23.98723.987 0.0000.000 0.0000.000 1.4961.496 0.1120.112 0.0000.000 0.2540.254 0.0000.000 0.0000.000 0.8810.881 65.2765.27
实施例7Example 7 33.00533.005 8.2538.253 24.75224.752 0.0000.000 0.0000.000 1.5971.597 0.0890.089 0.0000.000 0.1520.152 0.0000.000 0.0000.000 0.8820.882 64.27564.275
实施例8Example 8 30.49530.495 7.6237.623 22.87222.872 0.0000.000 0.0000.000 1.6971.697 0.0920.092 0.0000.000 0.2030.203 0.0000.000 0.0000.000 0.9140.914 66.59966.599
实施例9Example 9 31.00031.000 7.7487.748 23.25223.252 0.0000.000 0.0000.000 1.8041.804 0.1010.101 0.0000.000 0.2510.251 0.0000.000 0.0000.000 0.9220.922 65.92265.922
实施例10Example 10 29.99929.999 7.5037.503 22.49622.496 0.0000.000 0.0000.000 1.0521.052 0.1020.102 0.0000.000 0.2030.203 0.0000.000 0.2020.202 0.9140.914 67.52867.528
实施例11Example 11 30.50130.501 7.6297.629 22.87222.872 0.0000.000 0.0000.000 1.3521.352 0.0990.099 0.0000.000 0.2520.252 0.0000.000 0.5030.503 0.9210.921 66.37266.372
实施例12Example 12 31.00031.000 7.7527.752 23.24823.248 0.0000.000 0.0000.000 0.5530.553 0.1010.101 0.0000.000 0.1510.151 0.0000.000 0.0000.000 0.9220.922 67.27367.273
实施例13Example 13 31.98431.984 7.9957.995 23.98923.989 0.0000.000 0.0000.000 0.6020.602 0.0920.092 0.0000.000 0.2030.203 0.0000.000 0.0000.000 0.8920.892 66.22766.227
实施例14Example 14 33.00433.004 8.2528.252 24.75224.752 0.0000.000 0.0000.000 0.7030.703 0.1190.119 0.0000.000 0.2530.253 0.0000.000 0.0000.000 0.8940.894 65.02765.027
实施例15Example 15 30.49630.496 7.6247.624 22.87222.872 0.0000.000 0.0000.000 0.8030.803 0.0810.081 0.0000.000 0.1510.151 0.0000.000 0.0000.000 0.9230.923 67.54667.546
实施例16Example 16 31.00431.004 7.7527.752 23.25223.252 0.0000.000 0.0000.000 0.9050.905 0.0910.091 0.0000.000 0.2000.200 0.0000.000 0.0000.000 0.8620.862 66.93866.938
实施例17Example 17 29.99229.992 7.4967.496 22.49622.496 0.0000.000 0.0000.000 0.9890.989 0.1120.112 0.0000.000 0.2560.256 0.0000.000 0.0000.000 0.9220.922 67.72967.729
实施例18Example 18 30.50230.502 7.6297.629 22.87322.873 0.0000.000 0.0000.000 1.0521.052 0.1010.101 0.0000.000 0.2040.204 0.0000.000 0.0000.000 0.9160.916 67.22567.225
实施例19Example 19 31.00431.004 7.7527.752 23.25223.252 0.0000.000 0.0000.000 0.5960.596 0.0820.082 0.0000.000 0.2050.205 0.0000.000 0.2980.298 0.9130.913 66.90266.902
实施例20Example 20 31.97931.979 7.9927.992 23.98723.987 0.0000.000 0.0000.000 1.0521.052 0.0820.082 0.0000.000 0.0000.000 0.2020.202 0.0000.000 0.8820.882 65.80365.803
实施例21Example 21 33.00533.005 8.2528.252 24.75324.753 0.0000.000 0.0000.000 1.0541.054 0.0990.099 0.0000.000 0.0000.000 0.2610.261 0.0000.000 0.9140.914 64.66764.667
实施例22Example 22 30.49830.498 7.6247.624 22.87422.874 0.0000.000 0.0000.000 1.2031.203 0.1020.102 0.0000.000 0.0000.000 0.3030.303 0.0000.000 0.9210.921 66.97366.973
实施例23Example 23 31.00231.002 7.7537.753 23.24923.249 0.0000.000 0.0000.000 1.2521.252 0.0920.092 0.0000.000 0.0000.000 0.3520.352 0.1920.192 0.9420.942 66.16866.168
实施例24Example 24 30.00830.008 7.5037.503 22.50522.505 0.0000.000 0.0000.000 1.2531.253 0.0820.082 0.0000.000 0.0000.000 0.2610.261 0.0000.000 0.8420.842 67.55467.554
实施例25Example 25 30.50130.501 7.6247.624 22.87722.877 0.0000.000 0.0000.000 1.4031.403 0.0910.091 0.0000.000 0.0000.000 0.3030.303 0.0000.000 0.8810.881 66.82166.821
实施例26Example 26 31.00531.005 7.7527.752 23.25323.253 0.0000.000 0.0000.000 1.6031.603 0.1010.101 0.0000.000 0.0000.000 0.3520.352 0.0000.000 0.9160.916 66.02366.023
实施例27Example 27 31.96831.968 7.9927.992 23.97623.976 0.0000.000 0.0000.000 1.8011.801 0.0990.099 0.0000.000 0.0000.000 0.3020.302 0.0000.000 0.9210.921 64.90964.909
实施例28Example 28 33.00333.003 8.2528.252 24.75124.751 0.0000.000 0.0000.000 0.3960.396 0.0910.091 0.0000.000 0.0000.000 0.2030.203 0.0000.000 0.8420.842 65.46565.465
实施例29Example 29 30.50330.503 7.6297.629 22.87422.874 0.0000.000 0.0000.000 0.5520.552 0.1020.102 0.0000.000 0.0000.000 0.2610.261 0.0000.000 0.8630.863 67.71967.719
实施例30Example 30 31.00431.004 7.7527.752 23.25223.252 0.0000.000 0.0000.000 0.6520.652 0.1020.102 0.0000.000 0.0000.000 0.3030.303 0.2010.201 0.9030.903 66.83566.835
实施例31Example 31 30.02030.020 7.5237.523 22.49722.497 0.0000.000 0.0000.000 0.7960.796 0.0920.092 0.0000.000 0.0000.000 0.3520.352 0.0000.000 0.9230.923 67.81767.817
实施例32Example 32 30.49730.497 7.6247.624 22.87322.873 0.0000.000 0.0000.000 0.9030.903 0.1210.121 0.0000.000 0.0000.000 0.2620.262 0.0000.000 0.9440.944 67.27367.273
实施例33Example 33 31.00031.000 7.7527.752 23.24823.248 0.0000.000 0.0000.000 1.0521.052 0.0810.081 0.0000.000 0.0000.000 0.3020.302 0.0000.000 0.9130.913 66.65266.652
实施例34Example 34 31.97931.979 7.9927.992 21.98721.987 1.9871.987 0.0000.000 0.5520.552 0.1090.109 0.0000.000 0.2000.200 0.0000.000 0.3010.301 0.9030.903 65.96965.969
实施例35Example 35 33.00533.005 8.2538.253 22.75222.752 0.0000.000 2.0122.012 0.7930.793 0.1230.123 0.0000.000 0.0000.000 0.2610.261 0.4010.401 0.9160.916 64.48964.489
实施例36Example 36 30.49730.497 7.6247.624 22.87322.873 0.0000.000 0.0000.000 0.5530.553 0.0820.082 0.0000.000 0.0000.000 0.0000.000 0.2020.202 0.8390.839 67.82767.827
实施例37Example 37 31.00331.003 7.7527.752 23.25123.251 0.0000.000 0.0000.000 0.8020.802 0.0920.092 0.0000.000 0.0000.000 0.0000.000 0.3020.302 0.9030.903 66.89866.898
实施例38Example 38 30.50230.502 7.6287.628 22.87422.874 0.0000.000 0.0000.000 1.2021.202 0.1210.121 0.0000.000 0.0000.000 0.0000.000 0.3920.392 0.9130.913 66.8766.87
实施例39Example 39 31.00731.007 7.7527.752 23.25523.255 0.0000.000 0.0000.000 1.4031.403 0.1020.102 0.0000.000 0.0000.000 0.0000.000 0.4920.492 0.9420.942 66.05466.054
对比例1Comparative example 1 29.49529.495 7.3747.374 22.12122.121 0.0000.000 0.0000.000 1.1031.103 0.2310.231 0.0000.000 0.2030.203 0.0000.000 0.0000.000 0.8610.861 68.10768.107
对比例2Comparative example 2 30.49630.496 7.6257.625 22.87122.871 0.0000.000 0.0000.000 1.0521.052 0.2320.232 0.0000.000 0.0000.000 0.2020.202 0.0000.000 0.8820.882 67.13667.136
对比例3Comparative example 3 30.99830.998 7.7507.750 23.24823.248 0.0000.000 0.0000.000 0.2970.297 0.0920.092 0.0000.000 0.1520.152 0.2030.203 0.0000.000 1.1021.102 67.15667.156
对比例4Comparative example 4 33.00333.003 8.2548.254 24.74924.749 0.0000.000 0.0000.000 0.2030.203 0.2320.232 0.0000.000 0.1520.152 0.2930.293 0.2030.203 0.9520.952 64.96264.962
对比例5Comparative example 5 30.49530.495 7.6247.624 22.87122.871 0.0000.000 0.0000.000 0.4020.402 0.2330.233 0.0000.000 0.0000.000 0.0000.000 0.0000.000 0.9020.902 67.96867.968
对比例6Comparative example 6 31.00531.005 7.7567.756 23.24923.249 0.0000.000 0.0000.000 0.2050.205 0.0910.091 0.0000.000 0.3530.353 0.0000.000 0.6010.601 0.8910.891 66.85466.854
对比例7Comparative example 7 30.50030.500 7.6277.627 22.87322.873 0.0000.000 0.0000.000 0.2040.204 0.1010.101 0.0000.000 0.2020.202 0.2010.201 0.2020.202 0.9210.921 67.66967.669
对比例8Comparative example 8 31.00631.006 7.7527.752 23.25423.254 0.0000.000 0.0000.000 0.6040.604 0.0990.099 0.1930.193 0.2010.201 0.0000.000 0.2930.293 0.9130.913 66.69166.691
注:实施例1-39、对比例1-8的烧结磁体中Al的含量是原料中的Al以及在其他原料和工艺(例如熔炼过程中氧化铝制的坩埚)中引入的Al的含量之和。Note: The Al content in the sintered magnets of Examples 1-39 and Comparative Examples 1-8 is the sum of the Al content in the raw materials and the Al content introduced in other raw materials and processes (such as alumina crucibles during smelting) .
(2)磁性能检测(2) Magnetic performance testing
①微观结构:采用FE-EPMA检测,对R-T-B系永磁材料的垂直取向面进行抛光,采用场发射电子探针显微分析仪(FE-EPMA)(日本电子株式会社(JEOL),8530F)检测。检测晶界相中的R 6T 13M相,T指Fe,M指Ga。测试结果如下表4所示。 ①Microstructure: FE-EPMA is used to test, and the vertical orientation surface of RTB-based permanent magnetic materials is polished, and the field emission electron probe microanalyzer (FE-EPMA) (JEOL, 8530F) is used to test . The R 6 T 13 M phase in the grain boundary phase was detected, T refers to Fe, and M refers to Ga. The test results are shown in Table 4 below.
②磁性能评价:烧结磁铁使用中国计量院的NIM-10000H型BH大块稀土永磁无损测量***进行磁性能检测。下表4所示为磁性能检测结果。②Magnetic performance evaluation: The sintered magnet uses the NIM-10000H BH bulk rare earth permanent magnet non-destructive measurement system of China Metrology Institute for magnetic performance testing. Table 4 below shows the magnetic performance test results.
其中,Br或Hcj均是指均值:通过测试同一批次中5份稀土永磁材料样品(圆柱10mm*10mm)的剩磁或矫顽力,计算出的平均值;6-13-1相占整体物相的体积比以及温度系数也是通过测量同一批次中的5份R-T-B系永磁材料样品(圆柱10mm*10mm)的性能所取的平均值。同一批次指的是按照实施例或对比例所示的原料和工艺在同一个时间段所获得的产品。Among them, Br or Hcj refers to the average value: the average value calculated by testing the remanence or coercivity of 5 rare earth permanent magnet material samples (cylinder 10mm*10mm) in the same batch; 6-13-1 phase The volume ratio and temperature coefficient of the overall phase are also average values obtained by measuring the performance of 5 RTB-based permanent magnet material samples (cylinder 10mm*10mm) in the same batch. The same batch refers to the products obtained in the same time period according to the raw materials and processes shown in the examples or comparative examples.
表4Table 4
Figure PCTCN2021077189-appb-000004
Figure PCTCN2021077189-appb-000004
Figure PCTCN2021077189-appb-000005
Figure PCTCN2021077189-appb-000005
Figure PCTCN2021077189-appb-000006
Figure PCTCN2021077189-appb-000006
注:表4中6-13-1相是指RE 6Fe 13Ga相,其中:6-13-1相占整体物相的体积比是指RE 6Fe 13Ga相在整体物相中的体积比,整体物相包括晶界相、R 2T 14B主相和富稀土相。对比例1-8中R-T-B系永磁材料的磁性能为对比例1-8的配方经工艺优化(进水温度、烧结温度和时效温度)后所能够获得的最佳性能。 Note: The 6-13-1 phase in Table 4 refers to the RE 6 Fe 13 Ga phase, among which: the volume ratio of the 6-13-1 phase to the overall phase refers to the volume of the RE 6 Fe 13 Ga phase in the overall phase In contrast, the overall phase includes the grain boundary phase, the R 2 T 14 B main phase and the rare earth-rich phase. The magnetic properties of the RTB-based permanent magnet materials in Comparative Examples 1-8 are the best properties that can be obtained after the formulation of Comparative Examples 1-8 is optimized through the process (water inlet temperature, sintering temperature, and aging temperature).
(3)磁性能一致性检测(3) Magnetic performance consistency test
方形度:其计算公式为Hk/Hcj(Hk为当B为90%Br时,外磁场H的值,Hcj为矫顽力)。Squareness: The calculation formula is Hk/Hcj (Hk is the value of the external magnetic field H when B is 90% Br, and Hcj is the coercive force).
相对磁导率:其计算公式为Br/Hcb(Br为剩磁,Hcb为磁感矫顽力)。Relative permeability: The calculation formula is Br/Hcb (Br is remanence, Hcb is magnetic coercivity).
方形度和相对磁导率是通过测量同一批次中的5份R-T-B系永磁材料样品(圆柱10mm*10mm)的性能所取的平均值。Squareness and relative permeability are average values obtained by measuring the performance of 5 R-T-B series permanent magnetic material samples (cylinder 10mm*10mm) in the same batch.
Max(Hcj)-Min(Hcj):同一批次产品中矫顽力最大值减去矫顽力最小 值,若大于1.5kOe,则是磁性能一致性差。同一批次指的是按照实施例或对比例所示的原料和工艺在同一个时间段所获得的产品。Max(Hcj)-Min(Hcj): The maximum value of the coercive force minus the minimum value of the coercive force in the same batch of products. If it is greater than 1.5kOe, the magnetic performance consistency is poor. The same batch refers to the products obtained in the same time period according to the raw materials and processes shown in the examples or comparative examples.
下表所示为磁性能一致性检测结果。The following table shows the results of magnetic consistency testing.
表5table 5
编号serial number 方形度(%)Squareness (%) 相对磁导率Relative permeability Max(Hcj)-Min(Hcj)Max(Hcj)-Min(Hcj) 磁钢产品一致性Consistency of magnetic steel products
实施例1Example 1 98.298.2 1.0351.035 0.850.85 优异Excellent
实施例2Example 2 98.298.2 1.0371.037 0.950.95 优异Excellent
实施例3Example 3 98.498.4 1.0321.032 0.820.82 优异Excellent
实施例4Example 4 98.598.5 1.0321.032 0.630.63 优异Excellent
实施例5Example 5 98.598.5 1.0341.034 0.720.72 优异Excellent
实施例6Example 6 98.698.6 1.0311.031 0.380.38 优异Excellent
实施例7Example 7 98.298.2 1.0321.032 0.580.58 优异Excellent
实施例8Example 8 98.298.2 1.0351.035 0.380.38 优异Excellent
实施例9Example 9 98.498.4 1.0371.037 0.650.65 优异Excellent
实施例10Example 10 98.598.5 1.0321.032 0.850.85 优异Excellent
实施例11Example 11 98.598.5 1.0321.032 0.950.95 优异Excellent
实施例12Example 12 98.698.6 1.0341.034 0.820.82 优异Excellent
实施例13Example 13 98.298.2 1.0311.031 0.630.63 优异Excellent
实施例14Example 14 98.298.2 1.0321.032 0.720.72 优异Excellent
实施例15Example 15 98.498.4 1.0351.035 0.380.38 优异Excellent
实施例16Example 16 98.598.5 1.0371.037 0.630.63 优异Excellent
实施例17Example 17 98.598.5 1.0321.032 0.720.72 优异Excellent
实施例18Example 18 98.698.6 1.0321.032 0.380.38 优异Excellent
实施例19Example 19 98.298.2 1.0341.034 0.580.58 优异Excellent
实施例20Example 20 98.298.2 1.0311.031 0.380.38 优异Excellent
实施例21Example 21 98.498.4 1.0321.032 0.850.85 优异Excellent
实施例22Example 22 98.598.5 1.0351.035 0.950.95 优异Excellent
实施例23Example 23 98.598.5 1.0371.037 0.820.82 优异Excellent
实施例24Example 24 98.698.6 1.0321.032 0.630.63 优异Excellent
实施例25Example 25 98.298.2 1.0321.032 0.720.72 优异Excellent
实施例26Example 26 98.298.2 1.0341.034 0.380.38 优异Excellent
实施例27Example 27 98.498.4 1.0311.031 0.630.63 优异Excellent
实施例28Example 28 98.598.5 1.0321.032 0.720.72 优异Excellent
实施例29Example 29 98.598.5 1.0351.035 0.380.38 优异Excellent
实施例30Example 30 98.698.6 1.0371.037 0.850.85 优异Excellent
实施例31Example 31 98.298.2 1.0321.032 0.950.95 优异Excellent
实施例32Example 32 98.298.2 1.0321.032 0.820.82 优异Excellent
实施例33Example 33 98.498.4 1.0341.034 0.630.63 优异Excellent
实施例34Example 34 98.598.5 1.0311.031 0.720.72 优异Excellent
实施例35Example 35 98.598.5 1.0321.032 0.380.38 优异Excellent
实施例36Example 36 98.698.6 1.0351.035 0.630.63 优异Excellent
实施例37Example 37 98.298.2 1.0371.037 0.720.72 优异Excellent
实施例38Example 38 98.298.2 1.0321.032 0.380.38 优异Excellent
实施例39Example 39 98.498.4 1.0321.032 0.720.72 优异Excellent
对比例1Comparative example 1 87.887.8 1.1321.132 1.951.95 Difference
对比例2Comparative example 2 89.889.8 1.1231.123 1.761.76 Difference
对比例3Comparative example 3 98.698.6 1.0321.032 0.380.38 优异Excellent
对比例4Comparative example 4 90.590.5 1.1151.115 1.931.93 Difference
对比例5Comparative example 5 98.298.2 1.0321.032 0.720.72 优异Excellent
对比例6Comparative example 6 98.498.4 1.0331.033 1.671.67 Difference
对比例7Comparative example 7 98.598.5 1.0351.035 0.630.63 优异Excellent
对比例8Comparative example 8 98.598.5 1.0371.037 0.720.72 优异Excellent

Claims (10)

  1. 一种R-T-B系永磁材料,其特征在于,其包含:R、Ga、B、Al和Fe,还包含Ti、Zr和Nb的一种或多种,以重量百分比计,其含量如下:An R-T-B series permanent magnet material, characterized in that it contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and its content is calculated as a percentage by weight as follows:
    R:28.45-33.1wt%;所述R为至少含有Nd的稀土元素;R: 28.45-33.1wt%; said R is a rare earth element containing at least Nd;
    Ga:>0.35wt%;Ga: >0.35wt%;
    Al:0.08-0.125wt%;Al: 0.08-0.125wt%;
    B:0.835-0.945wt%;B: 0.835-0.945wt%;
    Fe:64.2-69.5wt%;其中:Fe: 64.2-69.5wt%; of which:
    当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.15-0.26wt%;When the R-T-B series permanent magnetic material contains Ti, the content of Ti is 0.15-0.26% by weight;
    当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.2-0.355wt%;When the R-T-B series permanent magnetic material contains Zr, the content of Zr is 0.2-0.355wt%;
    当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.19-0.51wt%;When the R-T-B series permanent magnetic material contains Nb, the content of Nb is 0.19-0.51wt%;
    所述R-T-B系永磁材料中不含有Co。The R-T-B-based permanent magnet material does not contain Co.
  2. 如权利要求1所述的R-T-B系永磁材料,其特征在于,所述R-T-B系永磁材料包含R 2T 14B主相、晶界相和富稀土相,所述晶界相中包含R 6Fe 13Ga相,所述R 6Fe 13Ga相的体积分数为1.5-15%,例如5.7%、6.5%、7.3%、7.4%、7.6%、7.7%、7.9%、10.3%、10.6%、10.8%、10.9%、11.2%、11.4%、11.5%或11.8%,百分比是指所述R 6Fe 13Ga相的体积在所述晶界相、所述R 2T 14B主相和所述富稀土相的体积之和中所占百分比; The RTB-based permanent magnetic material according to claim 1, wherein the RTB-based permanent magnetic material comprises a R 2 T 14 B main phase, a grain boundary phase, and a rare earth-rich phase, and the grain boundary phase contains R 6 Fe 13 Ga phase, the volume fraction of the R 6 Fe 13 Ga phase is 1.5-15%, for example, 5.7%, 6.5%, 7.3%, 7.4%, 7.6%, 7.7%, 7.9%, 10.3%, 10.6%, 10.8%, 10.9%, 11.2%, 11.4%, 11.5% or 11.8%, the percentage refers to the volume of the R 6 Fe 13 Ga phase in the grain boundary phase, the R 2 T 14 B main phase and the The percentage of the total volume of the rare earth-rich phase;
    和/或,所述R-T-B系永磁材料中不含有Cu;And/or, the R-T-B series permanent magnet material does not contain Cu;
    和/或,所述R的含量为28.495-33.017wt%,例如28.495wt%、29.494wt%、29.992wt%、29.999wt%、30.008wt%、30.02wt%、30.495wt%、30.496wt%、30.497wt%、30.498wt%、30.501wt%、30.502wt%、30.503wt%、31.0wt%、31.002wt%、31.003wt%、31.004wt%、31.005wt%、31.007wt%、31.966wt%、31.968wt%、31.979wt%、31.984wt%、31.987wt%、33.003wt%、33.004wt%、33.005wt%或33.017wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the content of R is 28.495-33.017wt%, for example 28.495wt%, 29.494wt%, 29.992wt%, 29.999wt%, 30.008wt%, 30.02wt%, 30.495wt%, 30.496wt%, 30.497 wt%, 30.498wt%, 30.501wt%, 30.502wt%, 30.503wt%, 31.0wt%, 31.002wt%, 31.003wt%, 31.004wt%, 31.005wt%, 31.007wt%, 31.966wt%, 31.968wt% , 31.979wt%, 31.984wt%, 31.987wt%, 33.003wt%, 33.004wt%, 33.005wt% or 33.017wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material;
    和/或,所述Nd的含量为17.5-26.0wt%,例如21.372-24.753wt%,再例如21.372wt%、21.987wt%、22.122wt%、22.496wt%、22.497wt%、 22.505wt%、22.752wt%、22.872wt%、22.873wt%、22.874wt%、22.877wt%、23.248wt%、23.249wt%、23.251wt%、23.252wt%、23.253wt%、23.255wt%、23.976wt%、23.987wt%、23.989wt%、24.751wt%、24.752wt%或24.753wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the Nd content is 17.5-26.0% by weight, such as 21.372-24.753% by weight, for example 21.372% by weight, 21.987% by weight, 22.122% by weight, 22.496% by weight, 22.497% by weight, 22.505% by weight, 22.752 wt%, 22.872wt%, 22.873wt%, 22.874wt%, 22.877wt%, 23.248wt%, 23.249wt%, 23.251wt%, 23.252wt%, 23.253wt%, 23.255wt%, 23.976wt%, 23.987wt% , 23.989wt%, 24.751wt%, 24.752wt% or 24.753wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    和/或,所述R中还包括Pr和/或重稀土RH;其中,所述Pr的含量优选为7.0-8.5wt%,例如7.123wt%、7.372wt%、7.496wt%、7.503wt%、7.523wt%、7.622wt%、7.623wt%、7.624wt%、7.628wt%、7.629wt%、7.748wt%、7.750wt%、7.752wt%、7.753wt%、7.992wt%、7.995wt%、8.000wt%、8.252wt%或8.253wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;所述RH的种类可为Tb或Dy;所述RH的含量可为1.5-6.0wt%,例如1.987wt%或2.012wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;优选地,当所述R中还包括Pr时,B/(Pr+Nd)的原子百分比≥0.405,例如0.408或0.410;And/or, said R also includes Pr and/or heavy rare earth RH; wherein, the content of said Pr is preferably 7.0-8.5wt%, such as 7.123wt%, 7.372wt%, 7.496wt%, 7.503wt%, 7.523wt%, 7.622wt%, 7.623wt%, 7.624wt%, 7.628wt%, 7.629wt%, 7.748wt%, 7.750wt%, 7.752wt%, 7.753wt%, 7.992wt%, 7.995wt%, 8.000wt %, 8.252wt% or 8.253wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material; the type of RH can be Tb or Dy; the content of the RH can be 1.5-6.0wt%, For example, 1.987wt% or 2.012wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material; preferably, when Pr is also included in the R, the atomic percentage of B/(Pr+Nd)≥0.405 , Such as 0.408 or 0.410;
    和/或,所述Ga的含量为0.396-2.0wt%,例如0.396-1.804wt%,再例如0.396wt%、0.552wt%、0.553wt%、0.596wt%、0.602wt%、0.652wt%、0.703wt%、0.793wt%、0.796wt%、0.802wt%、0.803wt%、0.903wt%、0.905wt%、0.989wt%、1.052wt%、1.054wt%、1.104wt%、1.202wt%、1.203wt%、1.252wt%、1.253wt%、1.297wt%、1.352wt%、1.393wt%、1.403wt%、1.496wt%、1.597wt%、1.603wt%、1.697wt%、1.801wt%或1.804wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the content of Ga is 0.396-2.0wt%, such as 0.396-1.804wt%, for example 0.396wt%, 0.552wt%, 0.553wt%, 0.596wt%, 0.602wt%, 0.652wt%, 0.703 wt%, 0.793wt%, 0.796wt%, 0.802wt%, 0.803wt%, 0.903wt%, 0.905wt%, 0.989wt%, 1.052wt%, 1.054wt%, 1.104wt%, 1.202wt%, 1.203wt% , 1.252wt%, 1.253wt%, 1.297wt%, 1.352wt%, 1.393wt%, 1.403wt%, 1.496wt%, 1.597wt%, 1.603wt%, 1.697wt%, 1.801wt% or 1.804wt%, percentage Refers to the weight percentage in the RTB-based permanent magnet material;
    或者,所述Ga的含量为Ga≥1.05wt%、0.35wt%<Ga<0.55wt%、0.55wt%≤Ga<1.05wt%、1.05wt%≤Ga<1.25wt%、或者、Ga≥1.25wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;Alternatively, the content of Ga is Ga≥1.05wt%, 0.35wt%<Ga<0.55wt%, 0.55wt%≤Ga<1.05wt%, 1.05wt%≤Ga<1.25wt%, or, Ga≥1.25wt %, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    和/或,所述Al的含量为0.081-0.123wt%,例如0.081wt%、0.082wt%、0.089wt%、0.091wt%、0.092wt%、0.099wt%、0.101wt%、0.102wt%、0.109wt%、0.112wt%、0.119wt%、0.121wt%或0.123wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the content of Al is 0.081-0.123wt%, such as 0.081wt%, 0.082wt%, 0.089wt%, 0.091wt%, 0.092wt%, 0.099wt%, 0.101wt%, 0.102wt%, 0.109 wt%, 0.112wt%, 0.119wt%, 0.121wt% or 0.123wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material;
    和/或,所述B的含量为0.839-0.944wt%,例如0.839wt%、0.842wt%、0.843wt%、0.862wt%、0.863wt%、0.881wt%、0.882wt%、0.892wt%、0.894wt%、0.903wt%、0.904wt%、0.913wt%、0.914wt%、0.916wt%、0.921wt%、0.922wt%、0.923wt%、0.942wt%或0.944wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the content of B is 0.839-0.944wt%, such as 0.839wt%, 0.842wt%, 0.843wt%, 0.862wt%, 0.863wt%, 0.881wt%, 0.882wt%, 0.892wt%, 0.894 wt%, 0.903wt%, 0.904wt%, 0.913wt%, 0.914wt%, 0.916wt%, 0.921wt%, 0.922wt%, 0.923wt%, 0.942wt% or 0.944wt%, the percentage refers to the RTB It is the weight percentage in the permanent magnet material;
    或者,所述B的含量为≥0.915wt%或者≥5.55at%;优选地,所述B的含量为0.915wt%和5.55at%中的大者;wt%是指在所述R-T-B系永磁材料中的重量百分比,at%是指在所述R-T-B系永磁材料中的原子百分比;Or, the content of B is ≥0.915wt% or ≥5.55at%; preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to the permanent magnet in the RTB system The weight percentage in the material, at% refers to the atomic percentage in the RTB-based permanent magnet material;
    和/或,所述Fe的含量为64.275-69.378wt%,例如64.275wt%、64.489wt%、64.667wt%、64.909wt%、65.027wt%、65.27wt%、65.465wt%、65.803wt%、65.922wt%、65.969wt%、66.023wt%、66.054wt%、66.168wt%、66.227wt%、66.367wt%、66.372wt%、66.599wt%、66.652wt%、66.821wt%、66.835wt%、66.87wt%、66.898wt%、66.902wt%、66.938wt%、66.973wt%、67.051wt%、67.225wt%、67.273wt%、67.522wt%、67.528wt%、67.546wt%、67.554wt%、67.719wt%、67.729wt%、67.817wt%、67.827wt%、68.236wt%或69.378wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, the Fe content is 64.275-69.378wt%, such as 64.275wt%, 64.489wt%, 64.667wt%, 64.909wt%, 65.027wt%, 65.27wt%, 65.465wt%, 65.803wt%, 65.922 wt%, 65.969wt%, 66.023wt%, 66.054wt%, 66.168wt%, 66.227wt%, 66.367wt%, 66.372wt%, 66.599wt%, 66.652wt%, 66.821wt%, 66.835wt%, 66.87wt% , 66.898wt%, 66.902wt%, 66.938wt%, 66.973wt%, 67.051wt%, 67.225wt%, 67.273wt%, 67.522wt%, 67.528wt%, 67.546wt%, 67.554wt%, 67.719wt%, 67.729 wt%, 67.817wt%, 67.827wt%, 68.236wt% or 69.378wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    和/或,当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.151-0.256wt%,例如0.151wt%、0.152wt%、0.200wt%、0.201wt%、0.203wt%、0.204wt%、0.205wt%、0.251wt%、0.252wt%、0.253wt%、0.254wt%或0.256wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, when the RTB-based permanent magnetic material contains Ti, the content of Ti is 0.151-0.256% by weight, such as 0.151% by weight, 0.152% by weight, 0.200% by weight, 0.201% by weight, 0.203% by weight, 0.204 wt%, 0.205 wt%, 0.251 wt%, 0.252 wt%, 0.253 wt%, 0.254 wt% or 0.256 wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    和/或,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.202-0.352wt%,例如0.202wt%、0.203wt%、0.261wt%、0.262wt%、0.302wt%、0.303wt%或0.352wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, when the RTB-based permanent magnet material contains Zr, the content of Zr is 0.202-0.352wt%, such as 0.202wt%, 0.203wt%, 0.261wt%, 0.262wt%, 0.302wt%, 0.303 wt% or 0.352wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material;
    和/或,当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.192-0.503wt%,例如0.192wt%、0.201wt%、0.202wt%、0.298wt%、 0.301wt%、0.302wt%、0.392wt%、0.401wt%、0.492wt%或0.503wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;And/or, when the RTB-based permanent magnetic material contains Nb, the content of Nb is 0.192-0.503wt%, such as 0.192wt%, 0.201wt%, 0.202wt%, 0.298wt%, 0.301wt%, 0.302 wt%, 0.392wt%, 0.401wt%, 0.492wt% or 0.503wt%, the percentage refers to the weight percentage in the RTB-based permanent magnetic material;
    或者,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.20wt%≤Zr<(3.48B-2.67)wt%,例如0.26wt%≤Zr<(3.48B-2.67)wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比。Or, when the RTB-based permanent magnetic material contains Zr, the content of Zr is 0.20wt%≤Zr<(3.48B-2.67)wt%, for example 0.26wt%≤Zr<(3.48B-2.67)wt% , The percentage refers to the weight percentage in the RTB-based permanent magnet material.
  3. 如权利要求1或2所述的R-T-B系永磁材料,其特征在于,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,Ga≥1.05wt%wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;The RTB-based permanent magnetic material according to claim 1 or 2, wherein the RTB-based permanent magnetic material comprises the following components: R: 28.45-33.1wt%, Ga≥1.05wt%wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.55wt%≤Ga<1.05wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;Alternatively, the RTB-based permanent magnetic material contains the following components: R: 28.45-33.1wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe : 64.2-69.5wt%, Ti: 0.15-0.26wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.35wt%<Ga<0.55wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Ti:0.15-0.26wt%或者Zr:0.2-0.355wt%,百分比是指在所述R-T-B系永磁材料中的重量百分比;Alternatively, the RTB-based permanent magnetic material includes the following components: R: 28.45-33.1wt%, 0.35wt%<Ga<0.55wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe : 64.2-69.5wt%, Ti: 0.15-0.26wt% or Zr: 0.2-0.355wt%, the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,1.05wt%≤Ga<1.25wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比;Alternatively, the RTB-based permanent magnet material contains the following components: R: 28.45-33.1wt%, 1.05wt%≤Ga<1.25wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe : 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; The weight percentage in the magnetic material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,Ga≥1.25wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为Zr≥0.26wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比;Alternatively, the RTB-based permanent magnetic material includes the following components: R: 28.45-33.1wt%, Ga≥1.25wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe: 64.2-69.5 wt%, Zr: 0.2-0.355 wt%; wherein, preferably, the content of Zr is Zr ≥ 0.26 wt%; the percentage refers to the weight percentage in the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.45-33.1wt%,0.55wt%≤Ga<1.05wt%,Al:0.08-0.125wt%,B:0.835-0.945wt%,Fe:64.2-69.5wt%,Zr:0.2-0.355wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr< (3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料中的重量百分比。Alternatively, the RTB-based permanent magnetic material contains the following components: R: 28.45-33.1wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.08-0.125wt%, B: 0.835-0.945wt%, Fe : 64.2-69.5wt%, Zr: 0.2-0.355wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; The weight percentage in the magnetic material.
  4. 一种R-T-B系永磁材料的原料组合物,其特征在于,其包含:R、Ga、B、Al和Fe,还包含Ti、Zr和Nb的一种或多种,以重量百分比计,其含量如下:A raw material composition of RTB-based permanent magnet material, characterized in that it contains: R, Ga, B, Al and Fe, and also contains one or more of Ti, Zr and Nb, and its content is calculated as a percentage by weight. as follows:
    R:28.5-33.0wt%;所述R为至少含有Nd的稀土元素;R: 28.5-33.0wt%; said R is a rare earth element containing at least Nd;
    Ga:>0.35wt%;Ga: >0.35wt%;
    Al:0.05-0.07wt%;Al: 0.05-0.07wt%;
    B:0.84-0.94wt%;B: 0.84-0.94wt%;
    Fe:64.0-69.5wt%;其中:Fe: 64.0-69.5wt%; of which:
    当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.15-0.25wt%;When the R-T-B series permanent magnetic material contains Ti, the content of Ti is 0.15-0.25 wt%;
    当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.2-0.35wt%;When the R-T-B series permanent magnetic material contains Zr, the content of the Zr is 0.2-0.35 wt%;
    当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.2-0.5wt%;When the R-T-B series permanent magnetic material contains Nb, the content of Nb is 0.2-0.5wt%;
    所述R-T-B系永磁材料中不含有Co。The R-T-B-based permanent magnet material does not contain Co.
  5. 如权利要求4所述的R-T-B系永磁材料,其特征在于,所述R的含量为29.5-33.0wt%,例如29.5wt%、30.0wt%、30.5wt%、31.0wt%、32.0wt%或33.0wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;The RTB-based permanent magnetic material of claim 4, wherein the content of R is 29.5-33.0wt%, such as 29.5wt%, 30.0wt%, 30.5wt%, 31.0wt%, 32.0wt% or 33.0wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    和/或,所述Nd的含量为21.0-25.0wt%,例如21.375wt%、22.0wt%、22.125wt%、22.5wt%、22.75wt%、22.875wt%、23.25wt%、24.0wt%或24.75wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, the Nd content is 21.0-25.0wt%, for example 21.375wt%, 22.0wt%, 22.125wt%, 22.5wt%, 22.75wt%, 22.875wt%, 23.25wt%, 24.0wt% or 24.75 wt%, percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    和/或,所述R中还包括Pr和/或重稀土RH;其中,所述Pr的含量优选为2.5-12.0wt%,例如2.5-12.0wt%,例如7.125wt%、7.375wt%、7.5wt%、7.625wt%、7.75wt%、8.00wt%或8.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;所述RH的种类可为Tb或Dy;所述RH的含量可为1.5-6.0wt.%,例如2.0wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;当所述R中还包括Pr时,优选地, B/(Pr+Nd)的原子百分比≥0.405;And/or, said R also includes Pr and/or heavy rare earth RH; wherein, the content of said Pr is preferably 2.5-12.0wt%, such as 2.5-12.0wt%, such as 7.125wt%, 7.375wt%, 7. wt%, 7.625wt%, 7.75wt%, 8.00wt% or 8.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material; the type of RH can be Tb or Dy; The content of the RH may be 1.5-6.0wt.%, for example 2.0wt%, and the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnetic material; when the R also includes Pr, it is preferred Ground, the atomic percentage of B/(Pr+Nd)≥0.405;
    和/或,所述Ga的含量为0.4-2.0wt%,例如0.4wt%、0.55wt%、0.6wt%、0.65wt%、0.7wt%、0.8wt%、0.9wt%、1.0wt%、1.05wt%、1.1wt%、1.2wt%、1.25wt%、1.3wt%、1.35wt%、1.4wt%、1.5wt%、1.6wt%、1.7wt%或1.8wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, the content of Ga is 0.4-2.0wt%, such as 0.4wt%, 0.55wt%, 0.6wt%, 0.65wt%, 0.7wt%, 0.8wt%, 0.9wt%, 1.0wt%, 1.05 wt%, 1.1wt%, 1.2wt%, 1.25wt%, 1.3wt%, 1.35wt%, 1.4wt%, 1.5wt%, 1.6wt%, 1.7wt% or 1.8wt%, the percentage refers to the RTB It is the weight percentage in the raw material composition of the permanent magnet material;
    或者,所述Ga的含量优选为Ga≥1.05wt%、0.55wt%≤Ga<1.05wt%、0.35wt%<Ga<0.55wt%、1.05wt%≤Ga<1.25wt%、或者、Ga≥1.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;Alternatively, the Ga content is preferably Ga≥1.05wt%, 0.55wt%≤Ga<1.05wt%, 0.35wt%<Ga<0.55wt%, 1.05wt%≤Ga<1.25wt%, or, Ga≥1.25 wt%, percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    和/或,所述Al的含量为0.06-0.07wt%,例如0.06wt%或0.07wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, the content of Al is 0.06-0.07% by weight, such as 0.06% by weight or 0.07% by weight, and the percentage refers to the weight percentage in the raw material composition of the R-T-B series permanent magnetic material;
    和/或,所述R-T-B系永磁材料的原料组合物中不含有Cu;And/or, the raw material composition of the R-T-B permanent magnet material does not contain Cu;
    和/或,所述B的含量为0.86-0.94wt%,例如0.86wt%、0.88wt%、0.90wt%、0.915wt%、0.92wt%或0.94wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, the content of B is 0.86-0.94wt%, such as 0.86wt%, 0.88wt%, 0.90wt%, 0.915wt%, 0.92wt% or 0.94wt%, and the percentage refers to the permanent The weight percentage in the raw material composition of the magnetic material;
    或者,所述B的含量为≥0.915wt%或者≥5.55at%;优选地,所述B的含量为0.915wt%和5.55at%中的大者;wt%是指在所述R-T-B系永磁材料的原料组合物中的重量百分比,at%是指在所述R-T-B系永磁材料的原料组合物中的原子百分比;Or, the content of B is ≥0.915wt% or ≥5.55at%; preferably, the content of B is 0.915wt% and 5.55at%, whichever is greater; wt% refers to the permanent magnet in the RTB system The weight percentage in the raw material composition of the material, at% refers to the atomic percentage in the raw material composition of the RTB-based permanent magnetic material;
    和/或,所述Fe的含量为64.32-69.41wt%,例如64.32wt%、64.555wt%、64.715wt%、64.93wt%、65.08wt%、65.3wt%、65.5wt%、65.82wt%、65.96wt%、65.99wt%、66.065wt%、66.11wt%、66.2wt%、66.24wt%、66.4wt%、66.42wt%、66.625wt%、66.685wt%、66.86wt%、66.9wt%、66.915wt%、66.935wt%、66.94wt%、66.98wt%、67.01wt%、67.08wt%、67.275wt%、67.33wt%、67.58wt%、67.585wt%、67.6wt%、67.76wt%、67.86wt%、67.87wt%、68.28wt%或69.41wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, the Fe content is 64.32-69.41wt%, for example 64.32wt%, 64.555wt%, 64.715wt%, 64.93wt%, 65.08wt%, 65.3wt%, 65.5wt%, 65.82wt%, 65.96 wt%, 65.99wt%, 66.065wt%, 66.11wt%, 66.2wt%, 66.24wt%, 66.4wt%, 66.42wt%, 66.625wt%, 66.685wt%, 66.86wt%, 66.9wt%, 66.915wt% , 66.935wt%, 66.94wt%, 66.98wt%, 67.01wt%, 67.08wt%, 67.275wt%, 67.33wt%, 67.58wt%, 67.585wt%, 67.6wt%, 67.76wt%, 67.86wt%, 67.87 wt%, 68.28wt% or 69.41wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    和/或,当所述R-T-B系永磁材料包含Ti时,所述Ti的含量为0.20-0.25wt%,例如0.20wt%或0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, when the RTB-based permanent magnet material contains Ti, the content of Ti is 0.20-0.25wt%, such as 0.20wt% or 0.25wt%, and the percentage refers to the raw material of the RTB-based permanent magnet material The weight percentage in the composition;
    和/或,当所述R-T-B系永磁材料包含Zr时,所述Zr的含量为0.26-0.35wt%,例如0.26wt%、0.3wt%或0.35wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, when the RTB-based permanent magnet material contains Zr, the content of Zr is 0.26-0.35wt%, for example, 0.26wt%, 0.3wt% or 0.35wt%, and the percentage means that the RTB-based permanent magnetic material The weight percentage in the raw material composition of the magnetic material;
    和/或,当所述R-T-B系永磁材料包含Nb时,所述Nb的含量为0.3-0.5wt%,例如0.3wt%、0.4wt%或0.5wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;And/or, when the RTB-based permanent magnetic material contains Nb, the content of Nb is 0.3-0.5wt%, for example, 0.3wt%, 0.4wt% or 0.5wt%, and the percentage means that the RTB-based permanent magnetic material The weight percentage in the raw material composition of the magnetic material;
    或者,当所述R-T-B系永磁材料的原料组合物中包含Zr时,所述Zr的含量为0.20wt%≤Zr<(3.48B-2.67)wt%,例如0.26wt%≤Zr<(3.48B-2.67)wt%。Or, when the raw material composition of the RTB-based permanent magnet material contains Zr, the content of the Zr is 0.20wt%≤Zr<(3.48B-2.67)wt%, for example, 0.26wt%≤Zr<(3.48B -2.67) wt%.
  6. 如权利要求4或5所述的R-T-B系永磁材料,其特征在于,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,Ga≥1.05wt%wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;The RTB-based permanent magnetic material according to claim 4 or 5, wherein the RTB-based permanent magnetic material comprises the following components: R: 28.5-33.0wt%, Ga≥1.05wt%wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.55wt%≤Ga<1.05wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;Alternatively, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe : 64.0-69.5wt%, Ti: 0.15-0.25wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.35wt%<Ga<0.55wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Ti:0.15-0.25wt%或者Zr:0.2-0.35wt%,百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;Alternatively, the RTB-based permanent magnetic material includes the following components: R: 28.5-33.0wt%, 0.35wt%<Ga<0.55wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe : 64.0-69.5wt%, Ti: 0.15-0.25wt% or Zr: 0.2-0.35wt%, the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,1.05wt%≤Ga<1.25wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67) wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;Alternatively, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 1.05wt%≤Ga<1.25wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe : 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; The weight percentage in the raw material composition of the magnetic material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,Ga≥1.25wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为≥0.26wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比;Alternatively, the RTB-based permanent magnetic material includes the following components: R: 28.5-33.0wt%, Ga≥1.25wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe: 64.0-69.5 wt%, Zr: 0.2-0.35 wt%; wherein, preferably, the content of Zr is ≥ 0.26 wt%; the percentage refers to the weight percentage in the raw material composition of the RTB-based permanent magnet material;
    或者,所述R-T-B系永磁材料包含下述组分:R:28.5-33.0wt%,0.55wt%≤Ga<1.05wt%,Al:0.05-0.07wt%,B:0.84-0.94wt%,Fe:64.0-69.5wt%,Zr:0.2-0.35wt%;其中,优选地,所述Zr的含量为0.26wt%≤Zr<(3.48B-2.67)wt%;百分比是指在所述R-T-B系永磁材料的原料组合物中的重量百分比。Alternatively, the RTB-based permanent magnet material contains the following components: R: 28.5-33.0wt%, 0.55wt%≤Ga<1.05wt%, Al: 0.05-0.07wt%, B: 0.84-0.94wt%, Fe : 64.0-69.5wt%, Zr: 0.2-0.35wt%; wherein, preferably, the content of the Zr is 0.26wt%≤Zr<(3.48B-2.67)wt%; The weight percentage in the raw material composition of the magnetic material.
  7. 一种R-T-B系永磁材料的制备方法,其特征在于,其包括下述步骤:A preparation method of R-T-B series permanent magnet material, which is characterized in that it comprises the following steps:
    将如权利要求4-6中任一项所述R-T-B系永磁材料的原料组合物的熔融液经铸造、氢破、成形、烧结和时效处理,即可。The molten liquid of the raw material composition of the R-T-B-based permanent magnet material according to any one of claims 4-6 may be subjected to casting, hydrogen breaking, forming, sintering and aging treatment.
  8. 如权利要求7所述的R-T-B系永磁材料的制备方法,其特征在于,所述R-T-B系永磁材料的原料组合物的熔融液按下述方法制得:在高频真空感应熔炼炉中熔炼,即可;所述熔炼炉的真空度可为5×10 -2Pa;所述熔炼的温度可为1500℃以下; The method for preparing an RTB-based permanent magnet material according to claim 7, wherein the molten liquid of the raw material composition of the RTB-based permanent magnet material is prepared by the following method: smelting in a high-frequency vacuum induction melting furnace , That is; the vacuum degree of the smelting furnace can be 5×10 -2 Pa; the smelting temperature can be below 1500°C;
    和/或,所述铸造的工艺按下述步骤进行:在Ar气氛中,以10 2℃/秒-10 4℃/秒的速度冷却,即可;所述冷却可通过辊轮中通入冷却水实现,优选地,所述辊轮的进水温度≤25℃,例如23.2℃、23.4℃、23.5℃、23.6℃或23.7℃; And/or, the casting process is carried out according to the following steps: in an Ar atmosphere, cooling at a rate of 10 2 ℃/sec-10 4 ℃/sec; the cooling can be passed through the rollers. Water realization, preferably, the inlet water temperature of the roller ≤ 25°C, for example 23.2°C, 23.4°C, 23.5°C, 23.6°C or 23.7°C;
    和/或,所述氢破的工艺按下述步骤进行:经吸氢、脱氢、冷却处理,即可;And/or, the hydrogen breaking process is carried out according to the following steps: through hydrogen absorption, dehydrogenation, and cooling treatments;
    和/或,所述氢破后还进行粉碎,所述粉碎的工艺优选为气流磨粉碎;所述气流磨粉碎可在氧化气体含量120ppm以下的氮气气氛下进行;所述气流磨粉碎的粉碎室压力可为0.38MPa;所述气流磨粉碎的时间可为3小时;And/or, the pulverization is performed after the hydrogen is broken, and the pulverization process is preferably jet mill pulverization; the jet mill pulverization can be performed in a nitrogen atmosphere with an oxidizing gas content of 120 ppm or less; the pulverization chamber of the jet mill pulverization The pressure may be 0.38 MPa; the pulverization time of the jet mill may be 3 hours;
    和/或,所述成形的方法为磁场成形法或热压热变形法;And/or, the forming method is a magnetic field forming method or a hot pressing and thermal deformation method;
    和/或,所述烧结的工艺按下述步骤进行:在真空条件下,经预热、烧结、冷却,即可;所述预热的温度可为300-600℃,所述预热的时间可为1-2h, 优选地,所述预热为在300℃和600℃的温度下各预热1h;所述烧结的温度可为1040-1090℃,例如1055℃、1057℃、1058℃、1065℃、1067℃、1068℃、1070℃、1072℃、1073℃、1075℃、1076℃、1079℃、1080℃、1083℃、1085℃或1090℃;所述烧结的时间可为5-10h,例如8h;And/or, the sintering process is carried out according to the following steps: preheating, sintering, and cooling under vacuum conditions; the preheating temperature can be 300-600°C, and the preheating time It can be 1-2h, preferably, the preheating is each preheating at a temperature of 300°C and 600°C for 1h; the sintering temperature can be 1040-1090°C, such as 1055°C, 1057°C, 1058°C, 1065℃, 1067℃, 1068℃, 1070℃, 1072℃, 1073℃, 1075℃, 1076℃, 1079℃, 1080℃, 1083℃, 1085℃ or 1090℃; the sintering time can be 5-10h, For example 8h;
    和/或,所述时效处理包括一级时效处理和二级时效处理;所述一级时效处理的温度优选为860-960℃,例如900℃;所述一级时效处理中,升温至860-960℃的升温速率优选3-5℃/min;所述一级时效处理的时间可为3h;所述二级时效处理的温度优选为430-560℃,例如450-490℃,再例如460℃、470℃、475℃、477℃或480℃;所述二级时效中,升温至430-560℃的升温速率优选3-5℃/min;所述二级时效的处理时间可为3h。And/or, the aging treatment includes a primary aging treatment and a secondary aging treatment; the temperature of the primary aging treatment is preferably 860-960°C, such as 900°C; in the primary aging treatment, the temperature is increased to 860-960°C. The temperature increase rate of 960°C is preferably 3-5°C/min; the time of the primary aging treatment can be 3h; the temperature of the secondary aging treatment is preferably 430-560°C, such as 450-490°C, and for example, 460°C , 470°C, 475°C, 477°C or 480°C; in the secondary aging, the heating rate to 430-560°C is preferably 3-5°C/min; the treatment time of the secondary aging may be 3h.
  9. 一种如权利要求7或8所述的R-T-B系永磁材料的制备方法制得的R-T-B系永磁材料。An R-T-B series permanent magnetic material prepared by the method for preparing an R-T-B series permanent magnetic material according to claim 7 or 8.
  10. 一种如权利要求1-3和9中任一项所述的R-T-B系永磁材料作为电子元器件的应用。An application of the R-T-B series permanent magnetic material according to any one of claims 1-3 and 9 as an electronic component.
PCT/CN2021/077189 2020-02-29 2021-02-22 Rare earth permanent magnet material, preparation method therefor and application thereof WO2021169900A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN202010132232.8A CN111312464B (en) 2020-02-29 2020-02-29 Rare earth permanent magnetic material and preparation method and application thereof
CN202010132232.8 2020-02-29

Publications (1)

Publication Number Publication Date
WO2021169900A1 true WO2021169900A1 (en) 2021-09-02

Family

ID=71147826

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2021/077189 WO2021169900A1 (en) 2020-02-29 2021-02-22 Rare earth permanent magnet material, preparation method therefor and application thereof

Country Status (2)

Country Link
CN (1) CN111312464B (en)
WO (1) WO2021169900A1 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111312464B (en) * 2020-02-29 2021-10-29 厦门钨业股份有限公司 Rare earth permanent magnetic material and preparation method and application thereof

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050098239A1 (en) * 2003-10-15 2005-05-12 Neomax Co., Ltd. R-T-B based permanent magnet material alloy and R-T-B based permanent magnet
CN103817335A (en) * 2013-09-12 2014-05-28 厦门钨业股份有限公司 Alloy powder for rare-earth magnet, methods for manufacturing alloy powder and rare-earth magnet and powder manufacturing device
CN110828089A (en) * 2019-11-21 2020-02-21 厦门钨业股份有限公司 Neodymium-iron-boron magnet material, raw material composition, preparation method and application
CN110853855A (en) * 2019-11-21 2020-02-28 厦门钨业股份有限公司 R-T-B series permanent magnetic material and preparation method and application thereof
CN111312464A (en) * 2020-02-29 2020-06-19 厦门钨业股份有限公司 Rare earth permanent magnetic material and preparation method and application thereof

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9350203B2 (en) * 2010-03-30 2016-05-24 Tdk Corporation Rare earth sintered magnet, method for producing the same, motor, and automobile
CN109754970B (en) * 2017-11-01 2023-01-10 北京中科三环高技术股份有限公司 Rare earth magnet and preparation method thereof
JP7180095B2 (en) * 2018-03-23 2022-11-30 Tdk株式会社 R-T-B system sintered magnet

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050098239A1 (en) * 2003-10-15 2005-05-12 Neomax Co., Ltd. R-T-B based permanent magnet material alloy and R-T-B based permanent magnet
CN103817335A (en) * 2013-09-12 2014-05-28 厦门钨业股份有限公司 Alloy powder for rare-earth magnet, methods for manufacturing alloy powder and rare-earth magnet and powder manufacturing device
CN110828089A (en) * 2019-11-21 2020-02-21 厦门钨业股份有限公司 Neodymium-iron-boron magnet material, raw material composition, preparation method and application
CN110853855A (en) * 2019-11-21 2020-02-28 厦门钨业股份有限公司 R-T-B series permanent magnetic material and preparation method and application thereof
CN111312464A (en) * 2020-02-29 2020-06-19 厦门钨业股份有限公司 Rare earth permanent magnetic material and preparation method and application thereof

Also Published As

Publication number Publication date
CN111312464B (en) 2021-10-29
CN111312464A (en) 2020-06-19

Similar Documents

Publication Publication Date Title
TW202121452A (en) Ndfeb magnet material, raw material composition, preparation method and application
WO2021042864A1 (en) Rare earth permanent magnet material, raw material composition, preparation method, application, and motor
WO2021109568A1 (en) R-t-b-based permanent magnet material, preparation method therefor and use thereof
TWI755152B (en) NdFeB MAGNET MATERIAL, RAW MATERIAL COMPOSITION, PREPARATION METHOD AND APPLICATION
CN111223627B (en) Neodymium-iron-boron magnet material, raw material composition, preparation method and application
TW202000944A (en) Low B content R-Fe-B based sintered magnet and preparation method thereof
KR102527122B1 (en) R-T-B rare-earth permanent magnet material, its manufacturing method, and application
CN111326306B (en) R-T-B series permanent magnetic material and preparation method and application thereof
WO2021114648A1 (en) R-t-b series permanent magnet material, raw material composition, preparation method and application
WO2021169894A1 (en) Rare earth permanent magnet material, preparation method for same, and applications thereof
WO2021169906A1 (en) R-t-b system permanent magnet material, preparation method therefor and use thereof
CN111261355B (en) Neodymium-iron-boron magnet material, raw material composition, preparation method and application
WO2021169898A1 (en) Neodymium iron boron material, and preparation method therefor and application thereof
WO2021169895A1 (en) Neodymium-iron-boron material and preparation method therefor and application thereof
WO2021169899A1 (en) Rare earth permanent magnet material, preparation method therefor and application thereof
WO2021169905A1 (en) Neodymium iron boron material, preparation method therefor and use thereof
WO2021135141A1 (en) R-t-b series permanent magnet material, raw material composition, preparation method and application
WO2021135142A1 (en) R-t-b series permanent magnet material, raw material composition, preparation method and application
CN111223628B (en) Neodymium-iron-boron magnet material, raw material composition, preparation method and application
WO2021169900A1 (en) Rare earth permanent magnet material, preparation method therefor and application thereof
WO2021169901A1 (en) R-t-b system permanent magnet material, preparation method therefor and use thereof
WO2021218702A1 (en) R-t-b-based permanent magnet material, preparation method therefor and use thereof
CN116110672A (en) Neodymium-iron-boron magnet material, preparation method thereof and electronic device containing neodymium-iron-boron magnet material
CN116544016A (en) Neodymium-iron-boron magnet material, preparation method thereof and electronic device containing neodymium-iron-boron magnet material

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 21760792

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 21760792

Country of ref document: EP

Kind code of ref document: A1