• Journal of Korea Foundry Society
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• v.26 no.5
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• pp.227-231
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• 2006

Liquid formability of bulk amorphous alloys is known to be very poor due to their high viscosity comparing with conventional metallic materials. It is important to have the fabricating technology of bulk amorphous alloys in order to make the components with complicated shape. Liquid formability includes the mold cavity filling ability and the hot tear(crack) resistance during solidification. A mold made of a commercial tool steel for the formability test was designed. Melting was performed by the arc melting furnace with melting capacity of 200 g in an argon atmosphere. Liquid formability and glass forming ability of Cu base and Ni base bulk amorphous alloys were measured and evaluated. Mold filling ability of Ni-Zr-Ti-Si-Sn alloy was better than that of Cu-Ni-Zr-Ti alloy, however the reverse is the hot tear resistance. Bulk amorphous alloy is very susceptible to crack if partial crystallization occurs during solidification. Crack resistance was thought to be closely related with the glass forming ability.

• Transactions of Materials Processing
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• v.13 no.1
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• pp.9-14
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• 2004

Recently, various bulk metallic glasses (BMG's) having good mechanical and chemical properties were developed. BMG's can easily be deformed in the supercooled liquid region, via viscous flow mechanism. By using the viscous flow, the very low pressure is needed to deform the materials. In this study, we investigated the structural transition and deformation behavior of Vitreloy 1 (Zr/sub 41.2/Ti/sub 13.8/Cu/sub 12.5/Ni/sub 10/Be/sub 22.5/) using TMA and DSC. We applied the results to the micro forming process. The forming condition was chosen based on the viscosity data from TMA, and Si wafer with micro patterns on the surface was used as a forming die. The deformed surface was analyzed by SEM and 3D Surface Profiling System. The alloy showed good replication of the patterns. Quantitative measurement of roughness was useful to evaluate the replication. Surface condition of the deformed surface was determined by the initial surface condition.

• Journal of Powder Materials
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• v.14 no.6
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• pp.348-353
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• 2007

In the present study, Zr-base metallic glass (MG) and Zr-base BMG/diamond composites were fabricated using a combination of gas atomization and spark plasma sintering (SPS). The microstructure, thermal stability and mechanical property of both the specimens as atomized and sintered were investigated. The experimental results showed that the SPSed specimens could be densified into nearly 100% and maintained the initial thermal stability at the sintering temperature of 630K. In addition, MG/diamond powder composites were successfully synthesised using SPS process. The composites, even a very low diamond volume fraction, generated a significant increase in compressive strength. With increasing the diamond volume fraction, the compressive strength was also increased due to the addition of hardest diamonds. It suggests that these composites would be potential candidates for a new cutting tool material.

• Laser Solutions
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• v.8 no.2
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• pp.13-20
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• 2005

Weldability is largely dependent on the phase evolution and the microstructure of the weld. For the weldability of the $Cu_{54}Ni_6Zr_{22}Ti_{18}$ bulk metallic glass, the crystallization affects the sensitivity of the weld to the brittle failure. In order to suppress the irreversible crystallization, Nd:YAG laser welding was chosen. The pulsed Nd:YAG laser was irradiated onto the BMG plate and the effects of the pulse shape [peak power intensity and pulse duration time] on the crystallinity were evaluated.

• Journal of Powder Materials
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• v.30 no.1
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• pp.41-46
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• 2023

In this study, an Al₈₂Ni₇Co₃Y₈ (at%) bulk metallic glass is fabricated using gas-atomized Al₈₂Ni₇Co₃Y₈ metallic glass powder and subsequent spark plasma sintering (SPS). The effect of powder size on the consolidation of bulk metallic glass is considered by dividing it into 5 ㎛ or less and 20-45 ㎛. The sintered Al₈₂Ni₇Co₃Y₈ bulk metallic glasses exhibit crystallization behavior and crystallization enthalpy similar to those of the Al₈₂Ni₇Co₃Y₈ powder with 5 ㎛ or less and it is confirmed that no crystallization occurred during the sintering process. From these results, we conclude that the Z-position-controlled spark plasma sintering process, using superplastic deformation by viscous flow in the supercooled liquid-phase region of amorphous powder, is an effective process for manufacturing bulk metallic glass.

• Korean Journal of Materials Research
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• v.33 no.7
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• pp.273-278
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• 2023

In this study, based on the saturation magnetic flux density experimental values (B_s) of 622 Fe-based bulk metallic glasses (BMGs), regression models were applied to predict B_s using artificial neural networks (ANN), and prediction performance was evaluated. Model performance evaluation was investigated by using the F1 score together with the coefficient of determination (R² score), which is mainly used in regression models. The coefficient of determination can be used as a performance indicator, since it shows the predicted results of the saturation magnetic flux density of full material datasets in a balanced way. However, the BMG alloy contains iron and requires a high saturation magnetic flux density to have excellent applicability as a soft magnetic material, and in this study F1 score was used as a performance indicator to better predict B_s above the threshold value of B_s (1.4 T). After obtaining two ANN models optimized for the R² and F1 score conditions, respectively, their prediction performance was compared for the test data. As a case study to evaluate the prediction performance, new Fe-based BMG datasets that were not included in the training and test datasets were predicted using the two ANN models. The results showed that the model with an excellent F1 score achieved a more accurate prediction for a material with a high saturation magnetic flux density.

• Proceedings of the Korean Vacuum Society Conference
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• 2013.02a
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• pp.335-335
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• 2013

최근 다기능 소재의 개발이 필요함에 따라 서로 상반되는 2가지 이상의 물성을 동시에 구현할 수 있는 소재의 개발이 요구되고 있다. 4 성분계 물질을 단일 타겟으로 제조함으로써 다수의 타겟을 이용하는 기존 PVD 방법의 복잡성과 재형성 등의 문제점을 해결하고 다기능성을 구현할 수 있는 코팅막을 제조할 수 있게 된다. 본 연구에서는 제조된 4 성분계 모물질을 UBM 최근 다기능 소재의 개발이 필요함에 따라 서로 상반되는 2가지 이상의 물성을 동시에 구현할 수 있는 소재의 개발이 요구되고 있다. 4 성분계 물질을 단일 타겟으로 제조함으로써 다수의 타겟을 이용하는 기존 PVD 방법의 복잡성과 재형성 등의 문제점을 해결하고 다기능성을 구현 할 수 있는 코팅막을 제조할 수 있게 된다. 본 연구에서는 제조된 4 성분계 모물질을 UBM 스퍼터링법을 이용하여 질화 공정을 도출하였고 질소 함량에 따른 물리적 특성 및 박막의 특성에 대해 연구하였다. BMG (Bulk Metallic Glass) 타겟을 이용하여 마그네트론 스퍼터링법으로 박막을 코팅하였다. 시편은 Si wafer, SUS 그리고 부식 특성 평가를 실시하기 위하여 냉연강판을 사용하였다. 시편은 아세톤, 알코올로 각각 10분간 초음파 세척한 후 진공장비에 장착하여 Ar 분위기에서 글로우 방전으로 청정을 30분간 실시하였다. 시편청정이 끝나면 ~$10^{-6}$ Torr까지 진공 배기를 실시하고 Ar 가스를 주입하여 2.5 mTorr로 진공도를 유지하여 스퍼터링으로 박막 코팅을 실시하였다. 스퍼터링 파워는 약 0.6 kW (2.0 A)으로 고정하였고 질소 유량은 0~10 SCCM으로 변화시켜 BMG 박막을 코팅하였다. 질소가 첨가된 BMG 박막에서는 시편의 색상이 노란빛으로 나타났으며 이것은 타겟의 조성 중 가장 많이 함유되어있는 Zr이 질화되어 색상의 변화가 일어난 것으로 판단된다. BMG 코팅을 위해서 진공용기로 주입한 질소의 유량이 소량인 경우에도 BMG 코팅층에 비교적 많은 양의 질소가 존재하였고 일정량 이상에서는 BMG 코팅층에 존재하는 질소의 양이 포화되는 현상을 보였다. 질소 유량 3, 4 SCCM의 BMG 코팅층에서 ZrN (111), ZrN (200) Peak이 관찰되었다. BMG 코팅층의 경도 측정결과 Bias 50 V 인가 시 ~22 Gpa로 경도가 가장 높았다. BMG 코팅층의 내부식 특성을 평가하기 위해 염수분무 시험을 실시하였고 ~$10{\mu}m$의 두께를 갖는 BMG 코팅층에서 염수분무 시작 후 48시간 만에 적청이 발생하였다.

• Journal of the Korean Magnetics Society
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• v.21 no.2
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• pp.77-82
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• 2011

The use of soft magnetic materials have been increasing in the various industrial fields according to the increasing demand for high performance, automatic, miniaturing equipments in the recent our life. In this study, we investigated the effect of factors on the core loss and magnetic properties of electrical steel and soft magnetic composites. Furthermore, we reviewed the major efforts to reduce the core loss and improve the soft magnetic properties in the two main soft magnetic materials. Domain purification which results from reduced density of defects in cleaner electrical steels is combined with large grains to reduce hysteresis loss. The reduced thickness and the high electrical conductivity reduce the eddy current component of loss. Furthermore, the coating applied to the surface of electrical steel and texture control lead to improve high permeability and low core loss. There is an increasing interest in soft magnetic composite materials because of the demand for miniaturization of cores for power electronic applications. The SMC materials have a broad range of potential applications due to the possibility of true 3-D electromagnetic design and higher frequency operation. Grain size, sintering temperature, and the degree of porosity need to be carefully controlled in order to optimize structure-sensitive properties such as maximum permeability and low coercive force. The insulating coating on the powder particles in SMCs eliminates particle-to-particle eddy current paths hence minimizing eddy current losses, but it reduces the permeability and to a small extent the saturation magnetization. The combination of new chemical composition with optimum powder manufacturing processes will be able to result in improving the magnetic properties in soft magnetic composite materials, too.