• Journal of Powder Materials
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• v.17 no.1
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• pp.23-28
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• 2010

HDDR treated anisotropic Nd-Fe-B powders have been widely used for the sheet motors and the sunroof motors of hybrid or electric vehicles, due to their excellent magnetic properties. Microstructural alignment of HDDR treated powders are mostly depending on the hydrogen reaction in disproportionation step, so the specific method to control hydrogenation reaction is required for improving magnetic properties. In disproportionation step, hydrogenation pressure and reaction time were controlled in the range of 0.15~1.0 atm for 15~180 min in order to control the micorstructural alignment of $Nd_2Fe_{14}B$ phase and, at the same time, to improve remanence of HDDR treated magnet powders. In this study, we could obtain a well aligned anisotropic Nd-Fe-B-Ga-Nb alloy powder having high remanence of 12 kG by reducing hydrogen pressure down to 0.3 atm in disproportionation step.

• Proceedings of the Korean Magnestics Society Conference
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• 2003.06a
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• pp.200-201
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• 2003

• Korean Journal of Materials Research
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• v.5 no.4
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• pp.483-489
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• 1995

Nd-(Fe, Co)-B합금에 Ni, Al, Ti등을 복합치환하여 그에 따른 산화거동과 자기적 성질의 변화를 조사하였다. 이들 리본의 산호거동은 parabolic한 거동을 나타내고 있으며, Ni 첨가시 매우 낮은 산화량을 나타내었다. 또한 산화된 리본은 Nd-rich상의 우선적 산화에 의해 표면에 요철이 관찰되었으며 Ni 첨가시 그러한 요철은 많이 줄어들었다. 표면의 산화층은 Nd산화물이었고, 이는 입계에 있는 Nd-rich상이 산화되고 이것이 확산 통로로 작용하였다고 생각된다. 산화가 진행됨에 따라 입계상에 의한 domain wall pinning이 약해져 자기특성이 저하하였다. 그러나 Ni 첨가시 이러한 산화거동이 크게 억제되었으며 Ni의 첨가는 Nd-rich상의 산화저항성을 증가시킴으로써 리본의 산화를 억제해 자기특성의 저하를 억제하였다.

• Korean Journal of Materials Research
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• v.7 no.4
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• pp.287-294
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• 1997

(NdㆍDy)-(FeㆍCoㆍAIㆍM)-B 합금에 Sn,Mo등을 첨가하여 그에 따른 미세구조와 열적안정성 및 자기적 특성 변화를 조사하였다. Sn과 Mo의 첨가는 (NdㆍDy)-(FeㆍCoㆍAIㆍM)-B 합금리본의 큐리온도를 크게 향상시켰으며 자기특성, 특히 보자력을 1KOe이상 증가시켰다. 그리고 이러한 현저한 보자력 증가는 입계형 defect인 disturbed grain boundary defect에 기인하는 것이라 판단되었다. 또한 Sn과 Mo 첨가원소는 irreversible loss를 각각 4%와 6% 감소시켜 리본자석의 열적안정성을 향상시켰다. 이는 Sn과 Mo의 첨가가 보자력을 크게 증가시켰기 때문이다. 한편 (NdㆍDy)-(FeㆍCoㆍAIㆍM)-B 리본자석들의 열저항온도(heat resistance temperature)는 irreversible loss와 직선관계를 이루었다.

• Transactions of Materials Processing
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• v.31 no.3
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• pp.124-128
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• 2022

NdFeB magnets have been positioned as the core materials in advanced technologies such as MRI (magnetic resonance imaging), FA (factory automation system), robot, motors, and so on based on the highest magnetic properties. To effectively improve the refined microstructure, the plastic deformation has been known as the good alternatives by the recrystallization. However, it has been regarded as being impossible because of the few slip systems in the RE-Fe-B magnets at room temperature. The purpose of this study was to investigate the possibility of control of grain refinement and magnetic anisotropy of NdFeB alloy powder by the severe plastic deformation. The NdFeB magnet powder was fabricated by gas atomization process, and the powder was pre-compacted at high temperature. The pre-compacted billets were deformed by HPT (high pressure torsion), and then the deformed billets were observed microstructure and magnetic properties. After the HPT process at room temperature, the grain size decreased with increasing because of the melted Nd-rich phase, and the anisotropy of Nd₂Fe₁₄B phase was formed after the HPT process.

• Journal of the Korean Magnetics Society
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• v.5 no.1
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• pp.64-70
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• 1995

The authors have studied crystallographic and magrletic properties of $NdFe_{10.7}TiM_{0.3}(M=B,\;Ti)$ by X-ray diffraction, VSM magnetometer, and Mossbauer spectrometer. The Alloys were prepared by arc-melting under argon atmosphere. The $NdFe_{10.7}TiM_{0.3}$ has pure single phase, whereas the $NdFe_{10.7}Ti_{1.3}$ contains some $\alpha-Fe$, from powder X-ray diffractometry. The $NdFe_{10.7}TiM_{0.3}$ has the $ThMn_{12}$-type tetragonal structure with $a_{0}=8.587\;{\AA}\;and\;c_{0}=4.788\;{\AA}$. The Curie temperature ($T_c$) is $570{\pm}3\;K$ from $M\"{o}ssbauer$ spectroscopy performed at various temperatures ranging from 13 to 770 K. Each spectrum of below $T_c$ was fitted with five subspectra of Fe sites in the structure ($8i_{1},\;8i_{2},\;8j_{1},\;8j_{2}\;and\;8f$). The area fraction of the subspectra at room temperature are 16.4, 8.2, 14.8, 21.3 and 39.3 %, respectively. Magenetic hyperfine fields for the Fe sites decrease in the order, $H_{hf}(8i)>H_{hf}(8j)>H_{hf}(8f)$.

• Proceedings of the Korean Powder Metallurgy Institute Conference
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• 2000.11a
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• pp.31-32
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• 2000

• Journal of the Korean Magnetics Society
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• v.4 no.3
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• pp.233-238
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• 1994

The effect of die upset and heat treatment on the magnetic properties of mechanically ground $Nd_{16}Fe_{78}B_{6}$ alloys has been studied. Although stripe domain patterns parallel to the compression direction were observed after die upset, it was found that crystallographic c-axes of a specimen were not completely aligned along the compression direction' which resulted in the decrease of Br. The average grain size of a die-upset specimen annealed for 5 hours at $1000^{\circ}C$ was about $20\mu\textrm{m}$, resulting in reduced values of Br and $_{i}H_{c}$. The maximum magnetic properties (Br=7.8 kG and $(_{i}H_{c}=14\;kOe) were obtained from the magnet die-upset at $750^{\circ}C$ using the alloy powder ground for 13 hours.

• Proceedings of the Materials Research Society of Korea Conference
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• 2010.05a
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• pp.47.2-47.2
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• 2010

1980년대 이후로 등장한 Nd-Fe-B 소결자석은 뛰어난 자성특성을 나타내며, 원재료도 풍부하기 때문에 단위 자기 에너지당 가격은 비교적 저가이다. 따라서 대부분의 기존 Sm-Co와 주조 Al-Ni-Co 자석재료를 대체하며 다양한 첨단사업의 핵심소재로 적용되며, 자동차 및 의료기기 등 산업 전반에 사용되고 있다. 이러한 응용 중에서도 향후 녹색성장을 위한 신성장동력 산업인 하이브리드 자동차의 구동 모터로서 사용되는 대표적인 영구자석이다. 현재 개발된 Nd계 영구자석은 큐리온도가 낮고 높은 온도에서 자기적 성능의 열화가 심하게 진행된다는 단점이 있기 새로운 합금 설계 및 공정의 최적화를 통해 보자력을 향상 시킴으로써 사용온도를 $200^{\circ}C$ 정도로 높이는 연구가 활발히 진행되고 있다. 본 연구에서는 일반적인 제조공정을 통해 제조된 소결체의 미세구조에 변화시키기 위하여 약 $10^{-5}$ Torr의 진공분위기에서 $10^{\circ}C/min$의 승온/냉각속도로 $350^{\circ}C$부터 $450^{\circ}C$ 구간에서 2 사이클부터 8 사이클까지 승온과 냉각을 반복하는 열처리를 수행하였다. Nd-Fe-B 소결자석을 $350^{\circ}C{\sim}450^{\circ}C$ 온도구간에서 반복적인 열처리를 수행한 결과 열처리 사이클에 따라 보자력 특성이 다르게 나타내었다. 이에 승온과 냉각을 반복하며 나타난 미세구조의 변화가 자성특성에 어떠한 영향을 미쳤는지에 대해 고찰하였다.

• Journal of the Korean Magnetics Society
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• v.13 no.4
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• pp.182-186
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• 2003

A new axial pressing method using pulse magnetizing field was studied to improve the remanence of Nd-Fe-B sintered magnets. In order to make near-net shape green compacts of butterfly, disk, or coin magnets, conventional axial-type pressing has been normally used. However, compared to the transverse-type pressing, it is not possible to obtain higher remanence by this method because the magnetic alignment of powder begins to deteriorate when the density of green compacts increases over a critical value. On the other hand, we found that an axial pressing under pulse magnetizing field was very effective to increase the degree of magnetic alignment of powder, yielding remanences even higher than those obtained by the transverse pressing. In this study, it was revealed that appropriate tapping density and how to apply pulse magnetic held were important to improve the grain alignment and thus remanence of Nd-Fe-B sintered magnet.