• Proceedings of the KIEE Conference
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• 2007.10c
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• pp.43-44
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• 2007

SMC(Soft Magnetic Composite) 재질은 일반 실리콘 강판에 비해 코어의 3차원 형상을 자유롭게 제작 할 수 있으며, 고속 회전시에 발생하는 철손을 감소시킬 수 있어 모터 코어용으로 많은 제작이 이루어지고 있다. 따라서 본 논문에서는 고속 회전용 청소기용 BLDC 모터의 코어를 SMC 재질로 제작 Back-EMF를 측정하였다. 코어의 형상은 크게 3차원 형상을 고려한 3가지로 타입으로 구분하여 제작하였고, 각 형상별로 모터를 제작하여 특성을 측정하였다. 본 논문에서는 SMC 분말을 이용한 코어 성형시 3차원 형상에 따른 모터의 Back-EMF의 특성을 보여준다.

• Journal of the Korean Magnetics Society
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• v.27 no.4
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• pp.135-139
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• 2017

The magneto-impedance effect (MI effect) has been investigated in metal core/soft magnetic shell composite wires fabricated by electrodeposition of $Ni_{80}Fe_{20}$ on Cu wire (diameter $190{\mu}m$). The diagonal impedances $Z_{zz}$ and $Z_{{\theta}{\theta}}$ in cylindrical coordinate showed strong MI effect for the magnetic field applied along z-axis, while the off-diagonal impedance $Z_{{\theta}z}$ showed very weak MI effect. We have tried to develop the Cu $core/Ni_{80}Fe_{20}$ shell composite wire having strong MI effect in off-diagonal impedance by electrodeposion under torsional strain. The core/shell composite wire electrodeposited under torsional angles above $270^{\circ}$ showed significantly enhanced MI effect in the off-diagonal impedance. The maximum MI effect was observed in the composite wire electrodeposited under torsional angle of $360^{\circ}$. The developed method to enhance off-diagonal MI effect is expected to increase the applicability of the core/shell composite wire to magnetic sensor material.

• The Journal of the Korea institute of electronic communication sciences
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• v.16 no.3
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• pp.471-476
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• 2021

Soft magnetic composite (SMC) materials based on powder metallurgy have a number of advantages over the conventional electrical steel sheets commonly used in electric machines. Thus, technologies related to these materials have shown significant improvement in recent years. In general, SMCs are magnetically isotropic owing to the shape of the powder, which makes them suitable for the construction of electric machines with three-dimensional flux and complex structures. However, the materials with isotropic magnetic properties (such as SMCs) have complex vector hysteresis; thus, it is very difficult to predict accurate loss properties. Therefore, we manufactured ring-type specimens of electrical steel sheets and SMC, which analyzed their magnetic properties according to the specimen size, and performed the electromagnetic field analysis of a high-speed permanent magnet (PM) motor driven at 800 Hz or higher using the measured magnetic information to compare the core loss of the motor. The reliability of this paper has been verified by measuring the efficiency after manufacturing the motor.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 2007.11a
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• pp.239-240
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• 2007

변압기 코어소재로 사용하는 방향성 규소강판의 가공 방법에 따른 물성을 조사하기 위하여 테이프 와인딩 코어 형태, 곡률반경을 20, 30, 40mm로 하여 토로이달 형태 변압기 시료의 B-H 자성 특성을 조사하였다. 곡률반경이 40mm, 높이는 10mm의 비율에서 보자력은 0.02Oe, 포화자속밀도는 0.98, 1.85T으로 보자력(Hc)은 낮고 포화자속일도(Bs)는 제일 큰 값을 나타내었고, 국내에서 생산되고 있는 방향성 규소강판의 자속밀도값 보다 약간 크게 나타났으며, 본 연구로부터 방향성 규소강판을 이용하여 권자심 코어을 제작할 때 고려해야하는 탄성변형에 대한 중요성과 코어 소재의 가공방법이 자기적 특성에 미치는 영향을 고찰하였다. 또한 토로이달 코어형태의 변압기를 설계 제작시 높이와 곡율반경, 가공 방법에 따라 용량, 효율 등이 다르므로 사전에 소재의 물성을 면밀히 검토 후에 전기기기에 적용해야함을 재확인하였다.

• Proceedings of the KIEE Conference
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• 2009.07a
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• pp.2217_2218
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• 2009

• Proceedings of the KIEE Conference
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• 2005.07c
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• pp.1903-1905
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• 2005

다중 코어를 이용한 대전류용 고효율 변압기 개발을 위해 고주파 손실이 작고, 전기 비저항이 큰 자성재료와 최적의 코어 형상 및 권선 방법에 대한 연구개발과 최종적으로 고효율 다중 코어를 이용한 변압기를 개발하고 전원장치에 적용하여 동작특성을 평가하였다. 최소 손실 온도를 $90^{\circ}C$ 이하로 감소시켜 100 kHz에서 250kW/m3의 낮은 전력손실을 갖는 다중 코어를 이용하여 변압기를 제조하고, 제조된 변압기가 채용된 컨버터의 50A 출력 전류에서 측정된 변압기의 발열특성은 30분 이후 약 $58^{\circ}C$까지 증가하였으며, $30{\sim}80A$의 출력 전류에서 85% 이상의 고효율을 얻었다.

• Journal of the Korean Magnetics Society
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• v.17 no.3
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• pp.141-146
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• 2007

A new class of LC-resonator for micro magnetic sensor device was invented and fabricated by means of MEMS technique. The micro LC-resonator consists of a solenoidal micro-inductor with a bundle of soft magnetic microwire cores and a capacitor connected in parallel to the micro-inductor. The core magnetic material is a tiny glass coated $Co_{83.2}B_{3.3}Si_{5.9}Mn_{7.6}$ microwire fabricated by a glasscoated melt spinning technique. The core materials were annealed at various temperatures $150^{\circ}C,\;200^{\circ}C\;,250^{\circ}C\;,$ and $300^{\circ}C$ for 1 hour in a vacuum to improve soft magnetic properties. The solenoidal micro-inductors fabricated by MEMS technique were $500{\sim}1,000{\mu}m$ in length with $10{\sim}20$ turns. The changes of inductance as a function of external magnetic field in micro-inductors with properly annealed microwire cores were varied as much as 370%. Since the permeability of ultra soft magnetic microwire is changing rapidly as a function of external magnetic field. The inductance ratio as well as magnetoimpedance ratio (MIR) in a LC-resonator was varied drastically as a function of external magnetic field. The MIR curves can be tuned very precisely to obtain maximum sensitivity. A prototype magnetic sensor device consisting of the developed microinductors with a multivibrator circuit was test successfully.

• Journal of Korean Society of Environmental Engineers
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• v.34 no.9
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• pp.613-622
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• 2012

A chrome absorbent that is useful in rapid magnetic recovery and recycling was developed though a synthesis of Multi-Terminalized Magnetic-core Dendrimer (MTMD). Divergence through coprecipitation and rotation growth was used for synthesis. The dendrimer was multi-terminilized through methyl propionate and glutaric acid. The property analysis of the synthesized sample was performed through XRD, FT-IR, TEM, EDS, TGA and zeta potential analyzer. A magnetic-core of MTMD had a magnetite crystal and the size of 4th generation dendrimer was identified to be from 15 nm to 20 nm. Through the analysis of the TGA, the rate of the dendrimer branch for the first generation dendrimer was about 7% and 3% of diminished weight occurred as the generation grows. Also, the potential of the dendrimer when multi-terminalized, had variation from 25.26 mV to -6.53 mV. As a result of MTMD adsorption experiment, it absorbed more than 80% within 5 minutes and indicated absorptivity of 6.308 mg/g. When it was compared with COOH Dendrimer (COOH-D) after magnetic recovery, the recovery time was rapidly reduced by more than half and it could recover 100% within 30 minutes. In case of the regeneration experiment that used chrome, it was identified to maintain the same adsorptivity for four runs.

• Journal of the Korean Magnetics Society
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• v.25 no.1
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• pp.10-15
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• 2015

The model for the magneto-impedance of composite wires composed of highly conductive nonmagnetic metal core and soft magnetic shell was derived based on the Maxwell's equations. The Cu($100{\mu}m$ diameter)/$Ni_{80}Fe_{20}$($15{\mu}m$ thickness) core/shell composite wire was fabricated by electrodeposition. The impedance spectra for the $Cu/Ni_{80}Fe_{20}$ core/shell composite wire were measured in the frequency range of 10 kHz~10 MHz under longitudinal dc magnetic field in 0 Oe~200 Oe. The spectra of complex permeability in circumferential direction were extracted from the impedance spectra by using the derived model. The extracted spectra of complex permeability showed relaxation-type dispersion which is well curve-fitted with Debye equation with single relaxation frequency. By analyzing the magnetic field dependence of the complex permeability spectra, it has been verified that the composite wire has magnetic anisotropy in longitudinal direction and the origin of the single relaxation process is the magnetization rotation in circumferential direction.

• Korean Journal of Optics and Photonics
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• v.28 no.3
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• pp.97-102
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• 2017

In this paper, we investigate the optical properties of $Ag@Fe_3O_4$ nanoparticles (NPs) composed of a plasmonic core and a magnetic shell. As the $Fe_3O_4$ shell with high refractive index (~2.42) is formed on the surface of the silver NPs having diameter of 60 nm, the wavelength of the localized surface-plasmon resonance (LSPR) is shifted from 420 nm to 650 nm, a so-called "redshift". Furthermore, through the use of three simulation models ($Ag@Fe_3O_4$ NP, $Fe_3O_4$ shell NP, and silver NP), the peak at 410 nm is seen to be the result of scattering by the $Fe_3O_4$ shell with 60 nm thickness, which would be useful in comprehending the complex optics in various nanoscale assemblies using similar NPs.