• Proceedings of the Korean Institute of Surface Engineering Conference
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• 2017.05a
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• pp.68.2-68.2
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• 2017

인체접촉시 니켈도금의 알러지 반응을 억제하기 위한 대체 도금기술인 비 시안계 Cu-Sn 합금도금을 개발함에 있어서, 황산구리5수화물과 황산제일주석을 금속염으로 하여 황산 및 계면활성제, 유화제 등을 포함한 각종 유기첨가제를 포함하였고 특히 은백색조의 외관 색상과 안정적인 Cu-Sn 합금전착을 위해 2종의 착화제인 EDTP (Ethylenediaminetetrapropanol, $C_{14}H_{32}N_2O_4$)와 TEA (Triethanolamine)를 첨가한 비 시안계 Cu-Sn 합금 도금액을 도출하였다. Cu-Sn 합금도금 피막 조성의 균일화를 도모하기 위해서는 합금 도금액중의 Cu와 Sn 금속이온 농도를 일정하게 유지하는 것이 필요하다. 그러나 합금 도금액 중 2가 주석이온($Sn^{2+}$)은 수용액 중에서 4가 주석이온($Sn^{4+}$)으로 산화됨으로써 도금액 색상이 백탁이 되고 Stannic Hydroxide($Sn(OH)_4$, $SnO_2{\cdot}2H_2O$)이 생성되어 대량의 침전물이 침강하는 문제점이 발생되는 등시간 경과에 따른 도금액의 경시 변화가 발생되었다. 상기 침전물은 연속여과에 의해 제거 가능하나 합금 도금액 중 $Sn^{2+}$ 농도가 지속적으로 감소하게 된다. 이는 합금 도금액 중 금속이온 비율이 변동함으로써 합금도금 피막의 조성비를 일정하게 유지하는 것이 곤란해진다. 이에 $Sn^{4+}$ 침전물 생성을 방지하기 위한 산화방지제를 개발하고 또한 산화방지제의 첨가에 따른 도금 피막 외관에 미치는 영향을 평가하여 외관 개선을 위한 광택제를 개발하고자 한다. 본 연구의 결과를 토대로 니켈도금과 동등 이상의 기능 특성을 갖는 비 시안계 Cu-Sn 합금도금액을 개발하여 실용화하는 것을 목적으로 하였다.

• Resources Recycling
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• v.29 no.1
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• pp.70-80
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• 2020

This study investigates the effect of flux type and mixing ratio on efficiency in aluminum can scrap recycling using induction furnace. The removal of surface coating layer of aluminum can scrap was possible through heat treatment at about 500 ℃ for about 30 min. The temperature for the melting process was set to be slightly above the melting temperature of the aluminium can scrap. The molten metal treatment was performed with different types of flux and mixing ratio. As a result, The optimum efficiency of Al recovery ratio was revealed when the process was performed with at least 3 wt.% of the flux (Salt and MgCl₂ mixture of ratio 70:30) at 750 ℃. The mechanical property of the recovered Al alloy showed that the tensile strength is about 249 MPa and elongation is about 14 %. This result was found to be similar to the mechanical property of the virgin Al 5083 alloy.

• CORROSION AND PROTECTION
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• v.12 no.1
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• pp.30-38
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• 2013

Austenitic stainless steels and Ni-base alloys are widely used as structural materials for major components and piping system in pressurized water reactors (PWRs). These austenitic alloys are known to be susceptible to environmental assisted cracking (EAC), such as environmentally-assisted fatigue (EAF) and primary water stress corrosion cracking (PWSCC) during long-term exposure to PWR primary water environment. In this paper, the current understanding on the phenomena and mechanisms of these EAC are briefly introduced using experimental results and literature review. The mechanisms for EAF and PWSCC for austenitic stainless steels and Ni-base alloys are discussed. Currently, austenitic stainless steels are known to be more susceptible to EAF, while less susceptible to PWSCC than Ni-base alloys. The possible explanations to such behaviors are proposed and discussed in view of the role of hydrogen and internal oxidation.

• Proceedings of the Korean Vacuum Society Conference
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• 2012.02a
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• pp.259-259
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• 2012

Mo-Cu 합금은 열전도도, 전기전도도가 우수하고 합금조성에 따라 열팽창계수의 조절이 가능하여 반도체소재, 방열소재, 접점소재 등에 적용가능성이 높은 재료로 주목받고 있다. 또한 상태도 상에서 고용도가 전혀 없기 때문에 박막을 제작하였을 경우, 나노 복합체 형성이 용이하고 질소 분위기에서는 MoN-Cu로 상분리가 가능하여 하드상과 소프트상의 물성을 동시에 보유한 박막 제작이 가능하다. 또한 고온에서 산화반응에 의해 생기는 $MoO_3$, $CuO_3$와 같은 준안정상의 산화물들은 육방정계 구조(HCP)를 가지며 전단특성이 우수하여 자동차 저마찰 코팅재료로써 많은 연구가 진행되고 있다. 반면, Mo-Cu 는 상호간에 고상은 물론 액상에서도 고용도가 전혀 없기 때문에 일반적인 방법으로는 합금화 또는 복합화가 어렵다. 또한 Mo-Cu 박막을 제작할 경우 복수의 타겟을 이용해야 하기 때문에 성분조절과 구조적 제어가 불리하고 공정의 복잡화라는 단점을 가지고 있으며 추가적으로 다른 원소를 첨가하여 3원계, 4원계 이상의 박막을 형성하는 것에 한계가 있다. 따라서 본 연구에서는 위와 같은 문제점을 해결하기 위하여 상호간의 고용도가 없는 재료의 합금화가 용이한 기계적 합금화법(Mechanical Alloying)을 이용하여 Mo-Cu 합금분말을 제조하였고, 준안정상태의 구조의 유지가 가능한 방전 플라즈마 소결법(Spark Plasma Sintering)을 이용하여 합금타겟을 제작하였다. Mo-Cu 박막은 제작된 합금타겟을 사용하여 DC 스퍼터링 공정으로 제작하였다. Mo-Cu 박막의 공정조건으로는 타겟조성, 공정분위기, 가스 비율로 정하여 실험을 진행하였다. 제작된 박막은 자동차 코팅재료로써의 적용가능성을 보기 위해서 내열성, 내식성, 내마모성의 특성을 평가하였다.

• Proceedings of the Korean Institute of Industrial Safety Conference
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• 2002.11a
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• pp.154-159
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• 2002

최근의 공업제품의 제조에는 미분화기술이 많이 이용되고 있다. 전자공업의 발전 및 제품의 고 기능화에 수반되어, 전자제품은 충분한 강도를 가지면서 경량화, 가공 및 재활용의 용이함 등이 요구되고 있다. 개인단말기나 노트북 등의 전자기기 케이스의 재질은, Mg-Al합금이 많이 사용되어지고 있는데, Mg은 가장 가벼운 금속으로 전자파 차단성, 방열성 등에 뛰어난 반면, 발화 등의 반응위험성이 높으므로, Al과의 합금에 의해, 일정한 기계적 강도 및 반응의 안정화를 기하고 있다. 일반적으로 Mg-Al합금은 9:1의 배합비율로 제조되고 있으며, 완전히 불 활성화시키는 것은 Mg의 장점을 살릴 수 없기 때문에 실용상 어렵다. Mg 이외에도, Ta금속 분은 각종 전자기기의 부 재료로서, Zr은 원자력 등의 공업 부 재료로서 사용이 증가하고 있다.(중략)

• Resources Recycling
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• v.3 no.1
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• pp.25-31
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• 1994

This paper was focused to optimize hot extrusion condition of Mg machined chips and scraps as fundamental basic research for the recycle of Mg alloy. We have been performed to extrude at $300~380^{\circ}C$ temperature range under the extrusion ratio of 25:1 after cold-pressing AZ91 Mg machined chips and scraps. AZ91 Mg ingots was used as reference materials. Microstructure observation showed that the extruded machined chips were perfectly bonded and extruded materials became fine grain size($20\mu\textrm{m}$) by recrystallization during hot extrusion. The specimens extruded from the machined chips, scraps and Mg ingot indicated tensile strength of 330MPa and the elongation of 10% at room temperature.

• Journal of the Korean Chemical Society
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• v.47 no.4
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• pp.315-324
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• 2003

In this study, a new method is presented to produce stable hydrophobic metal alloy nanocluster in chloroform solution including surfactant NaAOT(sodium bis(2-ethylhexyl)-sulfosuccinate) via the chemical reduction of metal salt $(HAuCl_4,\AgNO_3,\Cu(NO_3)_2)$ by sodium borohydride. For the alloy nanocluster, several samples were prepared by changing the molar ratio of Au/Cu, Au/Ag alloy nanocluster, 3:1, 1:1, 1:3. The alloy nanoclusters were characterized by UV-Visible spectrophotometer, TEM(Transmission Electron Microscope), and XPS(X-ray Photoelectron Spectrometer). With the change of the mole ratio of the alloy component, the wavelengths of the surface plasmon absorption shift linearly from 520 nm of the pure Au nanocluster to 570 nm of the pure Cu nanocluster for Au/Cu alloy nanoclusters and from 405 nm to 520 nm for Au/Ag alloy nanoclusters. The chemical shifts of the Au4f, Ag3d, Cu2p XPS peaks were observed with changing the molar ratio of the alloy element. The alloy nanoclusters in chloroform solution were made uniformly in size and colloidally stable for long periods of time. These results indicate that the method here is a very effective method for synthesizing hydrophobic alloy nanoclusters with uniform or nearly uniform particle size distribution.

• Journal of the Korean Institute of Gas
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• v.16 no.4
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• pp.32-37
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• 2012

The aim of this study is to evaluate the characteristics of explosion and flame velocity that can be utilized to factories where Mg-Al alloy metal powders are handled in the form of raw materials, products or by-product for similar dust explosion prevention and mitigation. Because the strength of the blast pressure is the result due to flame propagation, flame velocity in dust explosion can be utilized as a valuable information for damage prediction. An experimental investigation was carried out on the influences of content ratio of Mg-Al alloy (mean particle size distribution of 151 to 161 ${\mu}m$). And a model of flame propagation velocity based on the time to peak pressure and flame arrival time in dust explosion pressure, assuming the constant burning velocity, leads to a representation of flame velocity during dust explosion. As the results, the maximum flame velocity of Mg-Al(60:40 wt%), Mg-Al(50:50 wt%) and Mg-Al(40:60 wt%) was estimated 15.5, 18 and 15.2 m/s respectively, and also tend to change with content ratio of Mg-Al.

• Journal of Conservation Science
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• v.25 no.2
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• pp.207-217
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• 2009

After replicating 10 bronze types such as Gyemija, Gyeongjaja, Eulhaeja, etc. before the Imjin war, we studied the change of microstructure from each casting process, method, and alloy ratio by Gyechukja replicated from "Donggukyeojiseungnam". We selected the average of compositions of Eulhaeja in the National Museum of Korea as the standard(Cu 86.7%, Sn: 9.7%, Pb: 2.3%) of bronze types, so we decided on the alloy's composition of Cu 87%, Sn 15%, Pb 8% added to 5% Sn and Pb contents because of evaporating the Sn and the Pb. Before replicating major metal types, we made master-alloy first, melting it again, and then replicated metal types. The composition of the 1'st replicated Gyechukja showed the range of Cu 85.81~87.63%, Sn 9.27~10.51%, Pb 3.05~3.19%. The 2'nd replicated Gyechukja made using the branch metal left after casting the 1st replica. The 2nd replicated Gyechukja showed the composition range of Cu 87.21~88.09%, Sn 9.06~9.36%, Pb 2.80~3.05%. This result decreases a little contents of Sn and Pb as compared with metal types of the 1st replica. However, it's almost the same as the Eulhaeja's average composition ratio in the National Museum of Korea. As a result of observing the microstructure of restored Gyechukja, it showed the dendrite structure of the typical casting structure and the segregation of Pb. There is no big difference of microstructure between the 1st and the 2nd restored metal types, even though the 2nd restored types partially decreases the eutectoid region in comparison with the 1st types. The systematic and scientific restoration experiment of metal types using Joseon period will be showed the casting method and alloy ratio, and this will be of great help to the study of restoration metal types in the future.

• Journal of the Korean Electrochemical Society
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• v.11 no.2
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• pp.109-114
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• 2008

Though ethanol can theoretically generate 12 electrons during oxidation to carbon dioxide, the complete oxidation of ethanol is hard to achieve due to the strong bond between the two carbons in its molecular structure. Therefore, development of high activity catalyst for ethanol oxidation is necessary for the commercialization of direct ethanol fuel cell. In this study, some binary and ternary electrocatalysts of PtSn/C and PtSnAu/C have been synthesized and characterized. The catalysts were fabricated with modified polyol method with the amounts of 20 wt%, where the Pt : Sn ratios in the PtSn/C were 1 : 0, 4 : 1, 3 : 1, 2 : 1, 1.5 : 1, 1 : 1, 1 : 1.5 and Pt:Sn:Au ratios in the PtSnAu/C were 5 : 5 : 0, 5 : 4 : 1, 5 : 3 : 2, 5 : 2 : 3. From the XRD and TEM analysis results, the catalysts were found to have face centered cubic structure with particle size of around $1.9{\sim}2.4\;nm$. The activity in the ethanol oxidation was examined with cyclic voltammetry and the results indicated that PtSn(1.5 : 1)/C and PtSnAu(5 : 2 : 3)/C had the highest activity in each catalyst system. Further tests with single cell were performed with those catalysts. It was found that PtSn/C(1.5 : 1) exhibited the best performance while the long term stability of PtSnAu/C(5 : 2 : 3) is better than PtSn/C(1.5 : 1).