• 연구논문집
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• 통권34호
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• pp.121-129
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• 2004

The influence of powder size and ball-milling time on the magnetic properties of $Fe_{73}Si_{16}B_7Nb_3Cu_1$ nanocrystalline alloy powder was investigated. Flake-shaped powders were produced by pulverizing the ribbons annealed at $550^\circC$ for 1 hour. The powders were classified and consolidated into core shapes at a pressure of 18ton/$cm^2$. The initial permeability at 100kHz of the inductor core produced using $53-75\mum$ powders showed the highest value although its consolidated density showed the lowest one. The reason for the result is due to the cracking of the particles larger than $75\mum$ during the consolidation process. The ball-milling of powders for 2-4 hours improved the consolidation density and the initial permeability of the cores. The intrinsic coercivity of the powder decreased as well, resulting from the stress relief of the powder by a short-time milling.

• 한국분말재료학회지
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• 제28권4호
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• pp.293-300
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• 2021

We investigate the effect of phosphorous content on the microstructure and magnetic properties of Fe_83.2Si_5.33-0.33xB_10.67-0.67xP_xCu_0.8 (x = 1-4 at.%) nanocrystalline soft magnetic alloys. The simultaneous addition of Cu and P to nanocrystalline alloys reportedly decreases the nanocrystalline size significantly, to 10-20 nm. In the P-containing nanocrystalline alloy, P atoms are distributed in an amorphous residual matrix, which suppresses grain growth, increases permeability, and decreases coercivity. In this study, nanocrystalline ribbons with a composition of Fe_83.2Si_5.33-0.33xB_10.67-0.67xP_xCu_0.8 (x = 1-4 at.%) are fabricated by rapid quenching melt-spinning and thermal annealing. It is demonstrated that the addition of a small amount of P to the alloy improves the glass-forming ability and increases the resistance to undesirable Fe_x(B,P) crystallization. Among the alloys investigated in this work, an Fe_83.2Si₅B₁₀P₁Cu_0.8 nanocrystalline ribbon annealed at 460℃ exhibits excellent soft-magnetic properties including low coercivity, low core loss, and high saturation magnetization. The uniform nanocrystallization of the Fe_83.2Si₅B₁₀P₁Cu_0.8 alloy is confirmed by high-resolution transmission electron microscopy analysis.

• 한국소성가공학회:학술대회논문집
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• 한국소성가공학회 2004년도 추계학술대회논문집
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• pp.188-191
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• 2004

Electroforming is a process that employs technology similar to that used for electroplating but which is used for manufacturing metallic articles, rather than as a means of producing surface coatings. Electroforming provides a cost-effective means of producing alloys and fully dense nanocrystalline metals as foils, sheets and complex shapes. It was able to make Fe-Ni foil with $5{\mu}m$ thickness by electroforming. Electroformed Fe-Ni alloy was nanocrystalline and the yield strength was in the range $2000{\sim}2800\;MPa$. The magnetic permeability at high frequency of electroformed Fe-Ni foil was higher than that of thicker foils.

• Journal of Electrochemical Science and Technology
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• 제10권1호
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• pp.82-88
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• 2019

Here, we report on nanocrystalline Si-Al-M (M = Fe, Cu, Ni, Zr) alloys for use as an anode for lithium-ion batteries, which were fabricated via a melt-spinning method. Based on the XRD and TEM analyses, it was found that the Si-Al-M alloys consist of nanocrystalline Si grains surrounded by an amorphous matrix phase. Among the Si-Al-M alloys with different metal composition, Ni-incorporated Si-Al-M alloy electrode retained the high discharge capacity of 2492 mAh/g and exhibited improved cyclability. The superior $Li^+$ storage performance of Si-Al-M alloy with Ni component is mainly responsible for the incorporated Ni, which induces the formation of ductile and conductive inactive matrix with crystalline Al phase, in addition to the grain size reduction of active Si phase.

• 한국분말재료학회지
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• 제26권5호
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• pp.389-394
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• 2019

In the present study, we have investigated the effect of sintering process conditions on the stability of the austenite phase in the nanocrystalline Fe-5wt.%Mn-0.2wt.%C alloy. The stability and volume fraction of the austenite phase are the key factors that determine the mechanical properties of FeMnC alloys, because strain-induced austenite-martensite transformation occurs under the application of an external stress at room temperature. Nanocrystalline Fe-5wt.%Mn-0.2wt.%C samples are fabricated using the spark plasma sintering method. The stability of the austenite phase in the sintered samples is evaluated by X-ray diffraction analysis and hardness test. The volume fraction of austenite at room temperature increases as the sample is held for 10 min at the sintering temperature, because of carbon diffusion in austenite. Moreover, water quenching effectively prevents the formation of cementite during cooling, resulting in a higher volume fraction of austenite. Furthermore, it is found that the hardness is influenced by both the austenite carbon content and volume fraction.

• 한국자기학회지
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• 제9권3호
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• pp.154-158
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• 1999

Nd 함유량을 2~6at.%로 변화시킨 $\alpha$-(Fe, Co)-B-Nb-Cu 초미세결정립합금의 미세조직 및 자기특성을 조사하였다. 급속응고된 Ndx(Fe0.9Co0.1)90-xB6Nb3Cu1(2$\leq$x$\leq$6, 1at.% 간격) 합금은 x=3 이상에서 비정질상으로 제조되었다. 제조된 비정질합금은 열처리에 의해 $\alpha$-(Fe, Co) 및 Nd2(Fe, Co)14B1상으로 구성된 초미세결정립합금으로 결정화 되었다. 최적열처리조건에서 잔류자화는 Nd의 증가에 따라 감소하며, x=3에서 1.55T로 최대 값을 나타내었다. 보자력은 Nd함유량 증가에 따라 직선적으로 증가하여 x=6에서 4.6kOe이었으며, 최대에너지적은 10.6MGOe였다.

• 한국항해항만학회:학술대회논문집
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• 한국항해항만학회 2018년도 춘계학술대회
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• pp.154-154
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• 2018

Conventional inductive powerline communications typically use ferrite cores. However, since the recent nanocrystalline cores are expected to perform better, this paper aims to measure the performance of inductive couplers using nanocrystalline cores. To do this, we used inductive powerline communications to observe the communication range when increasing the number of cores from one to five. This experiment shows that we have the best communication performance when we connect 5 cores.

• 한국자기학회지
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• 제17권6호
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• pp.226-231
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• 2007

나노결정질 비정질 리본 표면에 졸-겔법에 의해 제조된 $TiO_2$ 및 $SiO_2$ 졸을 딥 코팅법을 이용하여 절연막을 형성시킴으로써 전기 비저항의 증가를 통한 고주파 손실을 제어하고자 하였다. 졸-겔법에 의한 슬러리 제조에서, 금속 알콕사이드의 혼합조건 및 절연층 형성용 슬러리의 제조조건을 확립하였고, 비정질 합금 리본 표면에 균일하고 우수한 점착력을 가지는 절연층을 형성시킬 수 있었다. 그리고 표면 절연층이 형성된 나노 결정질 합금 재료를 이용하여 제조한 자심재료는 전기 비저항의 증가로 인해 코어 손실을 약 40% 이상 감소시킬 수 있었다. 또한 표면 절연층을 형성시킨 자심재료를 이용하여 제조한 비접촉식 커플러는 코어 손실의 감소로 인해 삽입손실의 감소 효과가 나타났으며, 삽입손실의 감소효과는 주파수 증가에 따라 증가하였다.

• 한국자기학회지
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• 제7권1호
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• pp.44-48
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• 1997

약 30 nm의 미세결정립으로 구성된 ( .alpha. -Fe)-(Nd$_{2}$Fe$_{14}$B$_{1}$)형 저 Nd함유 Nd-Fe-B계 합금이 급속응고법으로 제조된 비정질상으로 부터 결정화하여 제조되었다. Nd$_{4}$Fe$_{82}$B$_{10}$Mo$_{3}$Cu$_{1}$ 조성에 Ga의 첨가는 각형성 개선효과와 함께 잔류자화를 1.29 T까지 증가시킨다. Nd의 함유량을 증가시킨 초미세결정립 Nd$_{5}$Fe$_{81}$B$_{9}$Mo$_{3}$Cu$_{1}$Ga$_{1}$ 합금의 Nd$_{2}$Fe$_{81}$B$_{9}$Mo$_{3}$Cu$_{1}$Ga$_{1}$ 합금의 잔류자화, 보자력 및 최대자기에너지적은 각각 1.24 T, 257.4 kA/m(3.23 kOe), and 100.3 kJ/m$^{3}$(12.6 MGOe)이다.다.

• 한국표면공학회지
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• 제36권6호
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• pp.461-465
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• 2003

The microstructures and magnetic properties of electrodeposited Fe-45 wt%Ni-P alloys have been investigated. The structures of electrodeposited Fe-45 wt%Ni alloy was FCC i.e. ${\gamma}$ phase and the size of crystallite was 10 nm. The structure of electrodeposited Fe-45 wt%Ni-1 wt%P alloy showed ${\gamma}$ phase and 7 nm sized nanocrystalline. The electrodeposited Fe-45 wt%Ni-P alloys containing 2∼3 wt% of P exhibited ${\gamma}$ ＋ $\alpha$ dual phases. The electrodeposited Fe-45 wt%Ni-P alloys above 3.5 wt% showed an amorphous structure. P in the alloys acted grain refining and phase changing element. The resistivity of the electrodeposited alloys increased with P contents. Effective permeability at high frequency (above 1 MHz) increased with P contents up to 2 wt% and this was ascribed to the easier magnetization rotation owing to the reduction of eddy current. Effective permeability decreased with P contents above 3 wt% and this was ascribed to the transformation of the ferromagnetism of Fe-45 wt%Ni alloy gradually into paramagnetism with the introduction of P into the electrodeposited alloy matrix.