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철기(Fe Based) 나노결정질 합금 분말코어의 코팅제 및 입도가 연자기적 특성에 미치는 영향
장세종(S. J. Jang),최영진(Y. J. Choi),김상욱(S. W. Kim),전병서(B. S. Jeon),이태행(T. H. Lee),송창빈(C. B. Song),남궁정(J. Namkung) 한국자기학회 2015 韓國磁氣學會誌 Vol.25 No.3
This is a basic research for improving soft magnetic property of Fe based nano crystalline alloy powder core. The main study is done around characteristics of permeability, core loss, and DC bias depending on amount of insulation coating agent and particle size. First, Fe<SUB>73.5</SUB>Si<SUB>13.5</SUB>B<SUB>9</SUB>Nb₃Cu₁ amorphous alloy ribbon was fabricated by using the planar flow casting (PFC) device. Then, heat treatment and ball milling were done to obtain alloy powder. The amount of polyether imide (PEI) added to it was varied by 0.5, 1.0, 2.0, 2.5 wt% to have compression molding into 16 ton/㎠. After going through crystalline heat treatment, the made toroidal nano crystalline powder core (OD12.7 mm*ID7.62 mm*H4.75 mm) had smaller permeability as amount of insulation coating agent decreases. However, it was found out that core loss and DC bias characteristics have been improved. The reason for this results were expected to be because green density of power core decreases as amorphous alloy powder particles become smaller as amount of alloy powder insulation coating agent increases, it was determined that 1 wt% of insulation coating agent is appropriate. Also, for powder core made based on alloy powder size with amount of insulation coating agent fixed at 1 wt%, effective permeability and core loss were outstanding as particle size became bigger. However, characteristics of DC bias became worse as applied DC field increases. This is expected to be due to insulation effect, residual pores, or molding density of powder core resulting from thickness of coating on surface of alloy powder.
최영진(Y. J. Choi),장세종(S. J. Jang),김상욱(S. W. Kim),전병서(B. S. Jeon),김상무(S. M. Kim),송창빈(C. B. Song),김용찬(Y. C. Kim),남궁정(J. Namkung) 한국자기학회 2015 韓國磁氣學會誌 Vol.25 No.1
This study was carried out to investigate a influence of humidity variation (%) on the magnetic properties and the surface flaws in the fabrication of Fe-based Fe78Si9B13 amorphous alloy ribbon by Planar Flow Casting process. As a result, the size of the air pocket and the droplet which is observed in the contact surface and the free face of the amorphous alloy ribbon becomes large when the humidity increases and the size highly increases with the surface roughness at the same time. Especially, the surface roughness value which is made in the 65 % of the humidity is the lowest in the contact surface (Ra = 0.60 μm, Rz = 3.11 μm) and the free face (Ra = 0.47 μm, Rz = 3.00 μm). Also, in case of the soft magnetic property of the magnetic core which is made with the toroidal core of 23(OD)*20(ID)*20(H) size, in the sample of the amorphous alloy ribbon which is made in 65% of the humidity, the most excellent value is gained as Bs(B<SUB>700</SUB>) = 1.055 T, H<SUB>c</SUB> = 0.083 Oe, permeability = 1,197 and core loss = 0.276W/kg.