• 한국표면공학회지
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• 제31권6호
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• pp.334-344
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• 1998

Yew coating pmccss t.o form a surface layer ol CrN phasc on mild steel (A81 1020!, AlSI Hi3, 1Cr-0.5Mo steel (ASTM A213 and Nickrl-base superalloy (Inconel 718) was developed. Surlaces of various alloys t,n.ateii by chromizing for the formation ol Cr diffusion layer was subsequently trcaled by plasma nitriding in order t.o form the hard CrS coating layer on the surfaces. This duplex plasma surface tri-atments of chromizing and plasma nitriding have induced a lormation of a duplex-lrcated surfacr hyer of approximat~ls 70-80 $\mu\textrm{m}$thickncss with a iargcly improved microiiardnrss up to approxiniateW 1500Hv(50gf). The main cause for the lage improvment in the surface hardncss is altribilted to [.he fact that CrN and $Fe_xN$ phases are created successfully by ccliromizins and plasma nilriding treatment. High tenipera1,urc wear resislance of the duplex-treated mild steel and HI3 steels at $600^{\circ}C$ was examined. Comparing the duplex-treated specimens with the specimens treated only by chromizing, the rcsults shovmi that, thc wear volume of the duplex-treated mild skcl and 1113 stcel aSt.er a wear test, at $600^{\circ}C$ were reduced hy a Iactor of 8 and 3, respectively. Characteristics of the CrS phase by duplrx treatment were compared with $CrN_x$,/TEX> film by ion plating and the wear behaviors of CrN film lormed by two different nroccsses arc nea.riy identical.

• 한국재료학회지
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• 제15권3호
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• pp.155-160
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• 2005

The electrolytic reduction of spent oxide fuel involves the liberation of oxygen in a molten LiCl electrolyte, which results in a chemically aggressive environment that is very corrosive fir typical structural materials. So, it is essential to choose the optimum material f3r the process equipment handling molten salt. In this study, the corrosion behavior of Al-Y coated Haynes 263 in a molten salt of $LiCl-Li_2O$ under oxidation atmosphere was investigated at $650^{\circ}C$ for $72\~168$ hours. The corrosion rate of Al-Y coated Haynes 263 was low while that of bare Haynes 263 was high in a molten salt of $LiCl-Li_2O$. Al-Y coated Haynes 263 improved the corrosion resistance better than bare Haynes 263 alloy. An Al oxide layer acts as a protective film which Prohibits Penetration of oxygen. Corrosion Products were formed $Li(Ni,Co)O_2$ and $LiTiO_2$ on bare Haynes 263, but $LiAlO_2,\;Li_5Fe_5O_8\;and\;LiTiO_2$ on Al-Y coated Haynes 263.

• 한국전기전자재료학회논문지
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• 제22권4호
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• pp.342-349
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• 2009

This study investigated the growth characteristics of carbon nanotubes (CNTs) by changing a period of annealing time and a $C_{2}H_{2}/H_2$ flow ratio at temperature as low as $450^{\circ}C$ with inductively coupled plasma chemical vapor deposition. The 1-nm-thick Fe-Ni-Co alloy thin film served as a catalyst layer for the growth of CNTs, which was thermally evaporated on the 15-nm-thick Al underlayer deposited on the 50-nm-thick Ti diffusion barrier. The annealing at low temperature of $450^{\circ}C$ brought about almost no granulation of the catalyst layer, and the CNT growth was not affected by a period of annealing time. A study of changing the flow rate of $C_{2}H_{2}$ and $H_2$ showed that as the ratio of the $C_{2}H_{2}$ flow rate to the $H_2$ flow rate was lowered, the CNTs were grown to be longer With further decreasing the flow ratio, the length of CNTs reached the maximum and then became shorter. Under the optimized gas flow rates, we successfully synthesized CNTs with a uniform length over a 4-inch Si wafer at $450^{\circ}C$.

• 대한금속재료학회지
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• 제46권9호
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• pp.577-584
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• 2008

The electrolytic reduction of spent oxide fuel involves the liberation of oxygen in a molten LiCl electrolyte, which results in a chemically aggressive environment that is too corrosive for typical structural materials. So, it is essential to choose the optimum material for the process equipment handling molten salt. In this study, corrosion behavior of Inconel 713LC, Inconel MA 754, Nimonic 80A and Nimonic 90 in the molten salt $LiCl-Li_2O$ under an oxidizing atmosphere was investigated at $650^{\circ}C$ for 72~216 hrs. Inconel 713LC alloy showed the highest corrosion resistance among the examined alloys. Corrosion products of Inconel 713LC were $Cr_2O_3$, $NiCr_2O_4$ and NiO, and those of Inconel MA 754 were $Cr_2O_3$ and $Li_2Ni_8O_{10}$ while $Cr_2O_3$, $LiFeO_2$, $(Cr,Ti)_2O_3$ and $Li_2Ni_8O_{10}$ were produced from Nimonic 80A. Also, corrosion products of Nimonic 90 were found to be $Cr_2O_3$, $(Cr,Ti)_2O_3$, $LiAlO_2$ and $CoCr_2O_4$. Inconel 713LC showed local corrosion behavior and Inconel MA 754, Nimonic 80A, Nimonic 90 showed uniform corrosion behavior.

• 공업화학
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• 제27권1호
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• pp.21-25
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• 2016

리드프레임에 구리합금소재를 사용할 경우 구리이외의 고농도의 철, 니켈, 아연 등이 포함되며 여기서 발생되는 에칭폐액은 지정폐기물로 지정되어 있다. 따라서 본 연구에서는 전기도금용 산화구리(II)를 제조하기 위해 고농도 중금속을 함유한 리드프레임 에칭폐액의 맞춤형 정제과정을 설계하였다. 리드프레임 에칭폐액의 경우 중금속 함유량이 높아 이온교환수지법 단독으로는 중금속을 제거하는데 한계가 있었다. 따라서 본 연구에서는 물에 대한 용해도차를 이용한 환원-산화법을 연계하여 염화구리(I)을 제조한 후 산화제인 과황산나트륨을 이용하여 염화구리(II)로 재회수하는 방법을 사용하였다. 최적 환원제로는 하이드라진을 선택하였고, 최적 첨가량은 구리 1.0 mol당 1.4 mol이다. 환원-산화법과 이온교환수지법을 연결하여 중금속을 제거할 경우 3회 반복 시 $Fe^{3+}$ (4.3 ppm), $Ni^{2+}$ (2.4 ppm), $Zn^{2+}$ (0.78 ppm)로 전기도금용 산화구리(II) 제조용 원료로 사용이 가능할 것으로 사료된다.

• 한국분말야금학회:학술대회논문집
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• 한국분말야금학회 2002년도 제3회 최신 분말제품 응용기술 Workshop
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• pp.25-37
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• 2002

The most important industrial application of gamma radiation in characterizing green compacts is the determination of the density. Examples are given where this method is applied in manufacturing technical components in powder metallurgy. The requirements imposed by modern quality management systems and operation by the workforce in industrial production are described. The accuracy of measurement achieved with this method is demonstrated and a comparison is given with other test methods to measure the density. The advantages and limitations of gamma ray densitometry are outlined. The gamma ray densitometer measures the attenuation of gamma radiation penetrating the test parts (Fig. 1). As the capability of compacts to absorb this type of radiation depends on their density, the attenuation of gamma radiation can serve as a measure of the density. The volume of the part being tested is defined by the size of the aperture screeniing out the radiation. It is a channel with the cross section of the aperture whose length is the height of the test part. The intensity of the radiation identified by the detector is the quantity used to determine the material density. Gamma ray densitometry can equally be performed on green compacts as well as on sintered components. Neither special preparation of test parts nor skilled personnel is required to perform the measurement; neither liquids nor other harmful substances are involved. When parts are exhibiting local density variations, which is normally the case in powder compaction, sectional densities can be determined in different parts of the sample without cutting it into pieces. The test is non-destructive, i.e. the parts can still be used after the measurement and do not have to be scrapped. The measurement is controlled by a special PC based software. All results are available for further processing by in-house quality documentation and supervision of measurements. Tool setting for multi-level components can be much improved by using this test method. When a densitometer is installed on the press shop floor, it can be operated by the tool setter himself. Then he can return to the press and immediately implement the corrections. Transfer of sample parts to the lab for density testing can be eliminated and results for the correction of tool settings are more readily available. This helps to reduce the time required for tool setting and clearly improves the productivity of powder presses. The range of materials where this method can be successfully applied covers almost the entire periodic system of the elements. It reaches from the light elements such as graphite via light metals (AI, Mg, Li, Ti) and their alloys, ceramics ($AI_20_3$, SiC, Si_3N_4, $Zr0_2$, ...), magnetic materials (hard and soft ferrites, AlNiCo, Nd-Fe-B, ...), metals including iron and alloy steels, Cu, Ni and Co based alloys to refractory and heavy metals (W, Mo, ...) as well as hardmetals. The gamma radiation required for the measurement is generated by radioactive sources which are produced by nuclear technology. These nuclear materials are safely encapsulated in stainless steel capsules so that no radioactive material can escape from the protective shielding container. The gamma ray densitometer is subject to the strict regulations for the use of radioactive materials. The radiation shield is so effective that there is no elevation of the natural radiation level outside the instrument. Personal dosimetry by the operating personnel is not required. Even in case of malfunction, loss of power and incorrect operation, the escape of gamma radiation from the instrument is positively prevented.

• 대한치과교정학회지
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• 제28권2호
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• pp.329-341
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• 1998

간염이나 AIDS의 영향으로 멸균에 대한 관심이 높아지고 있으며, 교정 진료실에서도 교정용 플라이어의 멸균이 필요하게 되었다. 제조회사에서는 멸균 과정의 열이 교정용 플라이어에서의 야금학적 변화를 야기하지 않는다고 하지만 교정치과의사들은 가압 증기 멸균기나 대류식 건열 멸균기를 이용하여 반복적으로 멸균을 시행한 경우에 ligature cutter의 날이 쉽게 무디어져서 ligature cutter의 수명이 짧아진다는 것을 임상적 경험으로 알고 있다. 본 연구는 멸균과정이 교정용 플라이어의 물성에 미치는 영향을 알아보기 위하여 시행되었다. 본 연구에 사용된 교정용 플라이어는 멸균 과정을 견딜 수 있도록 개발했다고 주장하는 AEZ, Unitek과 Dentronix ligature cutter이었고, 멸균기는 대류식 건열 멸균기인 Bowmar RHT-1000과 Dentronix DDS-5000와 가압 증기 멸균기 인 Eschmann SES-2000이었다. 멸균하기 전과 200회와 400회 멸균한 후의 ligature cutter의 날 부위의 표면과 파단면의 상태는 주사 저자 현미경으로, 미세 조직은 광학 현미경으로 관찰하고, micro-Vickers와 Rockwell 경도 시험기로 경도를 측정하고, SEM-EDX로 조성 분석을 시행하여 다음과 같은 결론을 얻었다. 1. 주사 전자 현미경을 이용한 교정용 플라이어의 날 부위의 표면과 파단면의 관찰에 의하면 멸균 횟수의 증가에 따라서 표면 조직에서 검은 반점 형태의 부식 생성물의 수와 크기가 증가하는 경향이 있었으며 파단면의 관찰에서도 멸균 횟수의 증가에 따라서 전형적인 취성 파면인 벽개면의 분포율이 증가하는 경향이 있었다. 이러한 부식 현상과 금속 조직의 취성화로 기계적 특성이 저하될 것으로 사료되었다. 2. 광학 현미경을 이용한 미세 조직 사진의 관찰에서도 멸균 횟수의 증가에 따라서 Cr계 탄화물의 수와 크기가 증가하는 경향이 있었다. 이러한 금속 조직의 조대화에 따라서 기계적 특성이 저하된 것으로 생각되었다. 3. 교정용 플라이어의 날 부위의 경도는 멸균 횟수의 증가에 따라서 감소되었는데 경도의 감소는 멸균에 의한 부식생성물과 표면 조직의 변화에 따른 것으로 생각되었다. 4. SEM-EDX를 이용한 조성 분석의 결과에 의하면 AEZ과 Unitek ligature cutter는 Fe-Cr계 stainless steel이었고, Dentronix ligature cutter는 Co-Cr계 합금이었는데, 제조 회사에 따라서 금속의 조성은 달랐지만 멸균 전후의 비교에서는 큰 차이가 없었다. 5. 반복적으로 멸균을 하면서 실제 임상에서 사용한 교정용 플라이어의 날의 표면 조직을 주사 전자 현미경으로 관찰한 결과, 미세 균열을 발견할 수 있었다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2010년도 제39회 하계학술대회 초록집
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• pp.302-303
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• 2010

Generally, the high energy lithium ion batteries depend intimately on the high capacity of electrode materials. For anode materials, the capacity of commercial graphite is unlike to increase much further due to its lower theoretical capacity of 372 mAhg-1. To improve upon graphite-based negative electrode materials for Li-ion rechargeable batteries, alternative anode materials with higher capacity are needed. Therefore, some metal anodes with high theoretic capacity, such as Si, Sn, Ge, Al, and Sb have been studied extensively. This work focuses on ternary Si-M1-M2 composite system, where M1 is Ge that alloys with Li, which has good cyclability and high specific capacity and M2 is Mo that does not alloy with Li. The Si shows the highest gravimetric capacity (up to 4000mAhg-1 for Li21Si5). Although Si is the most promising of the next generation anodes, it undergoes a large volume change during lithium insertion and extraction. It results in pulverization of the Si and loss of electrical contact between the Si and the current collector during the lithiation and delithiation. Thus, its capacity fades rapidly during cycling. Si thin film is more resistant to fracture than bulk Si because the film is firmly attached to the substrate. Thus, Si film could achieve good cycleability as well as high capacity. To improve the cycle performance of Si, Suzuki et al. prepared two components active (Si)-active(Sn, like Ge) elements film by vacuum deposition, where Sn particles dispersed homogeneously in the Si matrix. This film showed excellent rate capability than pure Si thin film. In this work, second element, Ge shows also high capacity (about 2500mAhg-1 for Li21Ge5) and has good cyclability although it undergoes a large volume change likewise Si. But only Ge does not use the anode due to its costs. Therefore, the electrode should be consisted of moderately Ge contents. Third element, Mo is an element that does not alloys with Li such as Co, Cr, Fe, Mn, Ni, V, Zr. In our previous research work, we have fabricated Si-Mo (active-inactive elements) composite negative electrodes by using RF/DC magnetron sputtering method. The electrodes showed excellent cycle characteristics. The Mo-silicide (inert matrix) dispersed homogeneously in the Si matrix and prevents the active material from aggregating. However, the thicker film than $3\;{\mu}m$ with high Mo contents showed poor cycling performance, which was attributed to the internal stress related to thickness. In order to deal with the large volume expansion of Si anode, great efforts were paid on material design. One of the effective ways is to find suitably three-elements (Si-Ge-Mo) contents. In this study, the Si based composites of 45~65 Si at.% and 23~43 Ge at.%, and 12~32 Mo at.% are evaluated the electrochemical characteristics and cycle performances as an anode. Results from six different compositions of Si-Ge-Mo are presented compared to only the Si and Ge negative electrodes.

• 한국자기학회지
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• 제27권2호
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• pp.41-48
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• 2017

$CrPt_3$ 합금은 큰 Kerr 효과를 보여 주는 강한 자기결정 이방성을 가지고 있고 흥미롭게도 훈트 제3법칙을 따르지 않는 것으로 알려져 있다. 본 연구에서는 $CrPt_3$ 합금 박막의 두께의 따른 자성과 자기결정 이방성의 변화를 제일원리계산 방법을 이용하여 연구하였다. 기준 자료로 활용하기 위해 덩치 $CrPt_3$의 다양한 자성 상태, 즉 강자성(FM), A-, C-, G-type 반강자성(A-, C-, G-AF)에 대한 계산을 우선 수행하였는데 덩치 $CrPt_3$은 FM 상태가 안정하였고 이는 실험과 일치하였다. A-, C-, G-AF 상태가 FM 상태일 때 보다 총에너지가 각각 0.517, 0.591, 0.183 eV 만큼 높았고 Cr의 자기모멘트는 FM, A-, C-, G-AF 일 때 각각 2.782, 2.805, 2.794, $2.869_{{\mu}_B}$으로 확인되었다. $CrPt_3$(001) 박막의 표면은 CrPt 표면과 Pt 표면으로 두 종류의 원소 구성을 가질 수 있다. 각각의 표면에 대해 3층에서 9층까지 두께를 변화시켜 가면서 계산을 수행하였다. CrPt 표면의 3층 박막은 덩치와는 다르게 C-AF 상태가 FM 상태에 비해 8 meV 안정하였고 그 보다 두꺼운 5층, 7층, 9층 박막은 덩치처럼 FM 상태가 안정하였다. Pt 표면의 3층 박막은 C-AF 상태가 FM 상태에 비해 37 meV, 5층 박막은 G-AF이 FM 상태에 비해 54 meV 만큼 안정하였고 그 보다 두꺼운 7, 9층 박막은 덩치와 같이 FM 상태가 더 안정하였다.