Coil component and method of manufacturing the same
US-2024170199-A1 · May 23, 2024 · US
Magnetic composite powders, preparing method thereof and electromagnetic noise suppressing films comprising same
US10008311B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-10008311-B2 |
| Application number | US-57266809-A |
| Country | US |
| Kind code | B2 |
| Filing date | Oct 2, 2009 |
| Priority date | Jan 22, 2009 |
| Publication date | Jun 26, 2018 |
| Grant date | Jun 26, 2018 |
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- Title
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Abstract
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This invention relates to a magnetic composite powder, a method of preparing the same and an electromagnetic noise suppressing film comprising the same. The magnetic composite powder and the electromagnetic noise suppressing film can effectively suppress unwanted electromagnetic waves emitted by various parts of an advanced digital device having high performance characteristics in terms of speed, frequency and functionality.
First claim
Opening claim text (preview).
What is claimed is: 1. A magnetic composite powder having a core-shell structure, comprising: a core particle having shape anisotropy, wherein the core particle consists of a magnetic material selected from the group consisting of Fe—Al—Si crystalline alloy, Fe—Al—B—Nb—Cu crystalline alloy, Fe—Al—B—Nb crystalline alloy, Fe—Cr—Mo—C—B amorphous alloy, Fe—Si—B—Nb amorphous alloy, Fe—Zr—B—Ni amorphous alloy, Fe—Cu—Nb—Si—B amorphous alloy, Fe—Al—B—Nb amorphous alloy, Fe—Al—B—Cu amorphous alloy, Fe—Zr—B—Cu amorphous alloy, Co—Fe—Ni—B—Si amorphous alloy, Co—Fe—Ni—Mo—B—Si amorphous alloy, Ni—Cr—Fe—Si—B amorphous alloy, and Ni—Nb—Cr—Mo—P—B amorphous alloy, and a magnetic layer formed on the surface of the core particle wherein the magnetic layer is selected from the group consisting of Fe—Co—Ni—P—B, Fe—Ni—Zn—P, Fe—Ni—Cu—P, Co—Ni—Zn—P, Fe—Co—Ni—Zn—P, Co—Ni—Cu—P, Co—Fe—Cu—P, Fe—Co—Ni—Cu—P, and Fe—Ni—Zn—Cu—P; wherein the core particle has the shape of a plate or a needle. 2. The magnetic composite powder of claim 1 , wherein the core magnetic material of the core particle is selected from the group consisting of Fe—Al—B—Nb—Cu crystalline alloy and Fe—Al—B—Nb crystalline alloy. 3. The magnetic composite powder of claim 1 , wherein the magnetic material of the core particle is selected from the group consisting of Fe—Cr—Mo—C—B amorphous alloy, Fe—Si—B—Nb amorphous alloy, Fe—Zr—B—Ni amorphous alloy, Fe—Cu—Nb—Si—B amorphous alloy, Fe—Al—B—Nb amorphous alloy, Fe—Al—B—Cu amorphous alloy, Fe—Zr—B—Cu amorphous alloy, Co—Fe—Ni—B—Si amorphous alloy, Co—Fe—Ni—Mo—B—Si amorphous alloy, Ni—Cr—Fe—Si—B amorphous alloy, and Ni—Nb—Cr—Mo—P—B amorphous alloy. 4. The magnetic composite powder of claim 1 , wherein magnetic material of the core particle is Fe—Cr—Mo—C—B amorphous alloy. 5. The magnetic composite powder of claim 1 , wherein the magnetic material of the core particle is Fe—Si—B—Nb amorphous alloy. 6. The magnetic composite powder of claim 1 , wherein the magnetic material of the core particle is Fe—Zr—B—Ni amorphous alloy. 7. The magnetic composite powder of claim 1 , wherein the magnetic layer is Fe—Ni—Zn—Cu—P. 8. The magnetic composite powder of claim 1 , wherein the core particle consists of a magnetic material selected from the group consisting of Fe—Cr—Mo—C—B amorphous alloy, Co—Fe—Ni—Mo—B—Si amorphous alloy, and Ni—Nb—Cr—Mo—P—B amorphous alloy. 9. The magnetic composite powder of claim 1 , further comprising an AlN insulating layer between the core particle and the magnetic layer. 10. The magnetic composite powder of claim 1 , wherein the core particle consists of a magnetic material selected from the group consisting of Fe—Zr—B—Ni amorphous alloy, and Fe—Zr—B—Cu amorphous alloy. 11. The magnetic composite powder of claim 1 , wherein the magnetic layer is Fe—Co—Ni—P—B. 12. The magnetic composite powder of claim 1 , wherein the magnetic layer is Fe—Co—Ni—Zn—P. 13. The magnetic composite powder of claim 1 , wherein the magnetic layer is Co—Ni—Cu—P. 14. The magnetic composite powder of claim 1 , wherein the magnetic layer is Fe—Co—Ni—Cu—P. 15. A magnetic composite powder having a core-shell structure, comprising: a core particle having shape anisotropy, the core particle consisting of: a ceramic selected from the group consisting of phosphoric acid, antimony oxide, magnesium hydroxide carbonate, and a magnetic material selected from the group consisting of Fe—Al—Si crystalline alloy, Fe—Al—B—Nb—Cu crystalline alloy, Fe—Al—B—Nb crystalline alloy, Fe—Cr—Mo—C—B amorphous alloy, Fe—Si—B—Nb amorphous alloy, Fe—Zr—B—Ni amorphous alloy, Fe—Cu—Nb—Si—B amorphous alloy, Fe—Al—B—Nb amorphous alloy, Fe—Al—B—Cu amorphous alloy, Fe—Zr—B—Cu amorphous alloy, Co—Fe—Ni—B—Si amorphous alloy, Co—Fe—Ni—Mo—B—Si amorphous alloy, Ni—Cr—Fe—Si—B amorphous alloy, and Ni—Nb—Cr—Mo—P—B amorphous alloy; and a magnetic layer formed on the surface of the core particle wherein the magnetic layer is selected from the group consisting of Fe—Co—Ni—P—B, Fe—Ni—Zn—P, Fe—Ni—Zn—B, Fe—Ni—Cu—P, Fe—Ni—Cu—B, Co—Ni—Zn—P, Co—Fe—Zn—P, Fe—Co—Ni—Zn—P, Co—Ni—Cu—P, Co—Fe—Cu—P, Fe—Co—Ni—Cu—P, Co—Ni—Cu—B, Co—Fe—Cu—B, Fe—Co—Ni—Cu—B, Fe—Ni—Zn—Cu—P, and Fe—Ni—Zn—Cu—B. 16. The magnetic composite powder of claim 15 , wherein the core particle is Fe—Al—Si crystalline alloy. 17. A magnetic composite powder having a core shell structure, comprising: a core particle having shape anisotropy, the core particle comprising an AlN ceramic mixed with a magnetic material comprising Co—Fe—Ni—Mo—B—Si amorphous alloy; an insulating layer formed on the core particle; and a magnetic layer formed on the insulating layer, the magnetic layer comprising Fe—Ni—Zn—Cu—P.
Assignees
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Classifications
Metallic powder characterised by particles having an amorphous microstructure · CPC title
Metallic particles coated with metal · CPC title
containing cobalt · CPC title
Use of organic or inorganic compounds other than metals, e.g. activation, sensitisation with polymers · CPC title
in a bonding agent · CPC title
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Frequently asked questions
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- What does patent US10008311B2 cover?
- This invention relates to a magnetic composite powder, a method of preparing the same and an electromagnetic noise suppressing film comprising the same. The magnetic composite powder and the electromagnetic noise suppressing film can effectively suppress unwanted electromagnetic waves emitted by various parts of an advanced digital device having high performance characteristics in terms of spee…
- Who is the assignee on this patent?
- Kim Sang Woo, Park Ji Hea, Kim Yoon Bae, and 1 more
- What technology area does this patent fall under?
- Primary CPC classification H01F1/26. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Jun 26 2018 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).