• Journal of the Korean Society of Marine Environment & Safety
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• v.13 no.3
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• pp.223-228
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• 2007

This paper investigated on mechanical characteristic of Al alloy for ship's welded with various welding techniques such as TIG, MIG welding and welding by robot. The yield strength, tensile strength and elongation in TIG welding present 83.9%, 64.6% and 21.9% compare to those in base metal, respectively. The MIG welding is carried out with welding eletrode of ER5183 and ER5356. The mechanical characteristics in ER5356 are improved at approximately 2-4% for ER5183. The mechanical properties of 5083O in welding by robot are better than those of 5456-H116.

• Journal of the Korean Chemical Society
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• v.35 no.4
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• pp.414-421
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• 1991

High-purity alumina powder was prepared by extracting the natural alumino-silicate mineral (halloysite) in H$_2$SO$_4$ solution. For the selective precipitation of alum and aluminum hydroxide, the solubility diagram was prior calculated by also considering the formation of hydroxides and carbonates for all the metal ions in an aqueous solution, which allow us to control the contamination of impurities envolved in the natural minerals. Ammonium aluminum sulfate (alum) and alumium hydroxide could be successfully prepared at pH = 1.5∼2.5 and pH = 6∼8, respectively according to our solubility diagrams. The purity of alum-and hydroxide-derived ${\alpha}-Al_2O_3$ was determined to be 99.7${\%}$ and 99.0${\%}$, respectively, which indicates the former route would be more desirable for the large scale application. It is also worthy to note that the impurities like Na and Si were strongly reduced in the former (Na = 0.05${\%}$, Si = 0.09${\%}$) compared to the latter (Na = 0.29${\%}$, Si = 0.12${\%}$).

• 기계와재료
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• v.5 no.1 s.15
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• pp.84-93
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• 1993

• Proceedings of the Korean Vacuum Society Conference
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• 2012.08a
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• pp.176-176
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• 2012

본 연구는 GaN 기반의 전자소자의 표면 패시베이션 방법으로 열산화 공정을 이용한 알루미늄산화막 패시베이션 공정에 대하여 연구하였다. 결정질의 알루미늄산화물은 경도가 크고 화학적으로 안정적이기 때문에 외부 오염에 대한 소자 표면을 효과적으로 보호할 수 있으며, 열적안정성이 뛰어나 공정중 또는 공정 후의 고온 환경에서의 열 손상이 적은 장점을 가진다. 결정질 알루미늄산화막($Al_2O_3$)을 소자 표면에 형성하기 위해서 일반적으로 TMA (trimethlyaluminium)와 오존($O_3$)가스를 이용한 ALD 공정법이 사용되고 있으나 공정 비용이 비싸고 열산화막에 비해 전자 trapping이 많이 발생하여 전자이동도가 저하되는 단점이 있어, 본 연구에서는 열산화 공정을 이용하여 소자의 전기적 특성 저하를 발생시키지 않는 알루미늄산화막 패시베이션을 수행하였다. 실험에 사용된 기판은 AlGaN/GaN 이종접합 구조가 증착된 HEMT 제작용 기판을 사용하였으며 TLM 구조를 제작하여 소자의 채널 면저항 및 절연영역간 누설전류 특성을 확인하였다. TLM 구조가 제작된 샘플 위에 알루미늄을 100 ${\AA}$ 두께로 소자위에 증착하고 $O_2$ 분위기에서 약 $525{\sim}675^{\circ}C$ 온도로 3분간 열처리하여 알루미늄 산화막을 형성한 후 $950^{\circ}C$ 온도로 $N_2$ 분위기에서 30초간 안정화열처리 하여 안정한 알루미늄 산화막 패시베이션을 형성하였다. 알루미늄산화막 패시베이션 후 소자의 절연영역 사이의 누설전류는 패시베이션 전과 비슷한 크기를 나타냈고 패시베이션 후 채널의 면저항이 패시베이션 전에 비해 약 20% 감소한 것을 확인하였다. 또한 패시베이션된 소자와 패시베이션되지않은 소자에 대해 $900^{\circ}C$ 온도로 30초간 열처리한 결과 패시베이션 되지 않은 소자는 74%만큼 채널 면저항이 증가하였으며, 절연영역 누설전류가 다섯오더 크기로 증가한 반면 알루미늄산화막 패시베이션한 소자는 단지 13%의 채널 면저항의 증가를 나타내었고 절연영역 누설전류는 100배 감소한 값을 보여 알루미늄산화막 패시베이션이 소자의 열적 안정성을 향상시키는 것을 확인하였다.

• Proceedings of the Korean Vacuum Society Conference
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• 2016.02a
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• pp.302.2-302.2
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• 2016

알루미늄 산화막 스퍼터링 공정 중 타겟이 반응성이 있는 산소와 결합하여 산화되는 타겟 오염은 증착 효율의 감소[1]와 방전기 내 아크 발생을 촉진[2]하여 이를 억제하는 방법이 연구되어 왔다. 본 연구에서는 알루미늄 산화막 증착 공정 중 타겟 오염 현상이 기판에 증착된 알루미늄 산화막 특성이 미치는 영향을 분석하였다. 실험에는 알루미늄 타겟이 설치된 6 인치 웨이퍼용 직류 마그네트론 스퍼터링 장치를 활용하였다. 위 장치에서 공정 변수 제어를 통해 타겟 오염 현상의 진행 속도를 제어하였다. 공정 중 타겟 오염 현상을 타겟 표면 알루미나 형성에 따른 전압 강하로 관찰하였고 타겟 오염에 의한 플라즈마 변화를 원자방출분광법을 통해 관찰하였다. 이 때 기판에 증착 된 알루미나 박막의 화학적 결합 특성을 XPS depth로 측정하였으며, 알루미나 박막의 두께를 TEM을 통해 측정하였다. 측정 결과 타겟 오염 발생에 의해 공정 중 인가 전압 감소와 타겟 오염에 소모된 산소 신호의 감소가 타겟 오염 정도에 따라 변동되었다. 또한 공정 중 타겟 오염 정도가 클수록 기판에 증착한 막과 실리콘 웨이퍼 사이에 산소와 실로콘 웨이퍼의 화합물인 산화규소 계면의 형성 증가됨을 확인했다. 위 현상은 타겟 오염 과정 중 발생하는 방전기 내 산소 분압 변화와 막 증착 속도 변화가 산소의 실리콘 웨이퍼로의 확산에 영향을 준 것으로 해석되었다. 위 결과를 통해 스퍼터링 공정 중 타겟 오염 현상이 기판에 증착 된 알루미나 막 및 계면에 미치는 영향을 확인하였다.

• Journal of the Korean Society of Propulsion Engineers
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• v.22 no.2
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• pp.108-114
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• 2018

In this study, the thermal and rheological characteristics of a 10 wt.% addition of aluminum particles and the effect of the particle size were investigated to qualitatively analyze the paraffin fuel entrainment regression rate. The results revealed that the addition of aluminum particles and their relative particle size affected the rheological characteristics, rather than the thermal characteristics. Moreover, it was found that the variation of thermal properties had a minor effect on the entrainment regression rate, in comparison to the variation in rheological properties.

• Composites Research
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• v.36 no.4
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• pp.241-245
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• 2023

Aluminum (Al) and copper(Cu) are non-ferrous alloys with excellent electrical and thermal conductivity but have relatively lower mechanical properties than iron alloys. Stainless steel(STS), an iron alloy, is a high-strength industrial material due to its excellent mechanical properties and corrosion resistance compared to non-ferrous Al and Cu. In this research combined Al, Cu, and STS to fabricate as a functionally graded material (FGM) through a powder metallurgical process. The produced FGM exhibited lightweight and excellent surface hardness compared to copper and iron alloys and also showed higher thermal conductivity than single Al and STS materials.

• Food Science and Preservation
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• v.24 no.8
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• pp.1094-1102
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• 2017

Hazardous metals leaching experiment was carried out in accordance with various usage environments for camping cooking utensils distributed in the market. There was a significant difference in the degree of migration for lead, arsenic, cadmium and nickel defending on the solvent and how to use, although they were all appropriate for criteria. In general, the migrated amount of aluminum was increased in acidic condition, and the migrated amount of arsenic was increased in salty condition. Physical scratches increased the overall release of hazardous metals from the portable pots and pans for camping in all solvents. Especially, in 0.5% citric acid solution, cadmium was migrated by physical scratch in stainless steel and hard aluminum pots and pans. The longer the leaching time, the higher the migration of aluminum in acid condition and arsenic in basic condition. From these results, it is desirable to use the cooking utensil for camping without being exposed to strong acidic or basic solution and scratches in order to reduce the migration of hazardous metals from them.

• Korean journal of food and cookery science
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• v.9 no.1
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• pp.7-13
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• 1993

This survey was performed to investigate the holding amount of the various kinds of cooking tools of the farm and fishing villages in Chungnam area. The results were as follows: 1. The holding ratio of refrigerators was the highest (97.9%), and that of toasters was the lowest (1.9%) among the electric tools. 2. The holding ratio of gas-ranges was the highest (95.7%) and that of gas oven-ranges was the lowest (1.2%) among 4 kinds of gas tools under investigation. 3. The holding amount of pans was the highest among the cooking tools and that of wicker baskets was very high among the small cooking tools. The holding ratios of egg-cutters and lemon-squeezers were very low (4.1% and 2.9%, respectively). 4. The holding ratios of various kinds of cooking tools were related to the housewife's educational background and family income.

• Korean Chemical Engineering Research
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• v.53 no.6
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• pp.677-681
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• 2015

Aluminum alloy was examined as a material of low weight reactor for hydrolysis of $NaBH_4$. Aluminum is dissolved with alkali, but there is NaOH as a stabilizer in $NaBH_4$ solution. To decrease corrosion rate of aluminum, decrease NaOH concentration and this result in loss of $NaBH_4$ during storage of $NaBH_4$ solution. Therefore stability of $NaBH_4$ and corrosion of aluminum should be considered in determining the optimum NaOH concentration. $NaBH_4$ stability and corrosion rate of aluminum were measured by hydrogen evolution rate. $NaBH_4$ stability was tested at $20{\sim}50^{\circ}C$ and aluminum corrosion was measured at $60{\sim}90^{\circ}C$. The optimum concentration of NaOH was 0.3 wt%, considering both $NaBH_4$ stability and aluminun corrosion. $NaBH_4$ hydrolysis reaction continued 200min in aluminum No 6061 alloy reactor with 0.3 wt% NaOH at $80{\sim}90^{\circ}C$.