Magnetic sheet for radio frequency identification antenna, method of manufacturing the same, and radio frequency identification antenna using the same
First Claim
1. A method of manufacturing a multi-layered magnetic sheet for a radio frequency identification antenna, the method comprising the steps of:
- preparing first and second magnetic sheet layers made of alloy powder including at least one kind of an amorphous alloy selected from the group consisting of Fe—
Si—
B, Fe—
Si—
B—
Cu—
Nb, Fe—
Zr—
B, and Co—
Fe—
Si—
B, the first and second magnetic sheet layers are made by the steps of mixing amorphous alloy powder including at least one kind of an amorphous alloy selected from the group consisting of Fe—
Si—
B, Fe—
Si—
B—
Cu—
Nb, Fe—
Zr—
B, and Co—
Fe—
Si—
B and a resin for a binder, and depositing the mixture on a base member in the form of a thin film and then drying the base member to form a dried magnetic sheet layer;
preparing a first amorphous alloy ribbon made of one kind of the amorphous alloys, the first amorphous alloy ribbon made by melt-spinning process; and
laminating the first amorphous alloy ribbon between the first and second magnetic sheet layers and then compression-molding the laminated multi-layered magnetic sheet to increase a relative density of the laminated magnetic sheet and simultaneously form microcracks on the first amorphous alloy ribbon.
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Abstract
Provided are a magnetic sheet for use in a radio frequency identification (RFID) antenna, an RFID antenna including the magnetic sheet, and a method of manufacturing the magnetic sheet, in which the magnetic sheet includes an amorphous alloy selected from the group consisting of Fe—Si—B, Fe—Si—B—Cu—Nb, Fe—Zr—B and Co—Fe—Si—B. The magnetic sheet is made by laminating amorphous alloy ribbons made of an amorphous alloy between magnetic sheet layers formed of alloy powder including at least one amorphous alloy and then compression-molding the amorphous alloy ribbons, to thereby control microcrack of the amorphous alloy ribbons and enhance characteristic of an end-product. The magnetic sheet is also thin, and has an excellent magnetic permeability, and a simple manufacturing process.
20 Citations
5 Claims
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1. A method of manufacturing a multi-layered magnetic sheet for a radio frequency identification antenna, the method comprising the steps of:
-
preparing first and second magnetic sheet layers made of alloy powder including at least one kind of an amorphous alloy selected from the group consisting of Fe—
Si—
B, Fe—
Si—
B—
Cu—
Nb, Fe—
Zr—
B, and Co—
Fe—
Si—
B, the first and second magnetic sheet layers are made by the steps of mixing amorphous alloy powder including at least one kind of an amorphous alloy selected from the group consisting of Fe—
Si—
B, Fe—
Si—
B—
Cu—
Nb, Fe—
Zr—
B, and Co—
Fe—
Si—
B and a resin for a binder, and depositing the mixture on a base member in the form of a thin film and then drying the base member to form a dried magnetic sheet layer;preparing a first amorphous alloy ribbon made of one kind of the amorphous alloys, the first amorphous alloy ribbon made by melt-spinning process; and laminating the first amorphous alloy ribbon between the first and second magnetic sheet layers and then compression-molding the laminated multi-layered magnetic sheet to increase a relative density of the laminated magnetic sheet and simultaneously form microcracks on the first amorphous alloy ribbon. - View Dependent Claims (2, 3, 4, 5)
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Specification
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- Resources
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Current AssigneeAmotech Co., Ltd.
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Original AssigneeAmotech Co., Ltd.
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InventorsYang, Jae Suk, Lim, Hyeon Chul, Lee, Byoung Ki, Lee, Yong Sup, Kim, Yong Hyun, Song, Yong Sul, Kwon, Sang Kyun, Kim, Beom Jin
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Primary Examiner(s)SHEEHAN, JOHN P
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Application NumberUS12/841,347Publication NumberTime in Patent Office789 DaysField of SearchNoneUS Class Current148/121CPC Class CodesG06K 19/07771 the record carrier comprisi...H01Q 1/22 by structural association w...H01Q 17/00 Devices for absorbing waves...
