• Corrosion Science and Technology
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• 제9권2호
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• pp.92-97
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• 2010

Many kinds of alternative fuels such as biodiesel, ethanol, methanol, and natural gas have been developed in order to overcome the limited deposits in fossil fuels. In some cases, the alternative fuels have been reported to cause degrade materials. The corrosion rates of metals were measured by immersion test, a kind of time consuming test because low conductivity of these fuels was not allowed to employ electrochemical tests. With twin two-electrode cell newly designed for the study, however, electrochemical impedance spectroscopy (EIS) test was successfully applied to evaluation of the corrosion resistance ($R_p$) of zinc, iron, aluminum, and its alloys in an oxidized biodiesel and gasoline/ethanol solutions and the corrosion resistance from EIS was compared with the corrosion rate from immersion test. In biodiesel, $R_p$ increased in the order of zinc, iron, and aluminum, which agreed with the corrosion resistance measured from immersion test. In addition, on aluminum showing the best corrosion resistance ($R_p$), the effect of magnesium as an alloying element was evaluated in gasoline/ethanol solutions as well as the oxidized biodiesel. $R_p$ increased with addition of magnesium in gasoline/ethanol solutions containing chloride and the oxidized biodiesel. In the mean while, in gasoline/ethanol solutions containing formic acid, Al-Mg alloy added 1% magnesium had the highest $R_p$ and the further addition of magnesium decreased $R_p$. It can be explained with the fact that the addition of more than 1% magnesium increases the passive current density of Al-Mg alloys.

• Corrosion Science and Technology
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• 제6권4호
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• pp.206-210
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• 2007

Aerospace aluminum alloys such as Al alloy 2024-T3 and 7075-T6 are subject to localized corrosion due the existence of intermetallics containing Cu, Mg or Zn. Chromate is currently widely used in the aerospace industry as the corrosion inhibitor for these alloys. However, chromate needs to be replaced due to its strong carcinogenicity. In this study, an extensive pigment screening has been performed to find replacements for chromates. Different categories of inhibitors were evaluated by immersion tests, DC polarization tests and other methods. Phosphates, zinc salts, cerium salts, vanadates and benzotriazole were found to be effective inhibitors for AA7075. Among those inhibitors, zinc phosphate was found to be the most effective in our novel, silane-based, one-step aqueous primer system. The performance of this primer is comparable to that of currently used chromate primers in accelerated corrosion tests, while it is completely chromate-free and its VOC is about 80% less than that of current primers. Studies by SEM/EDS showed that the unique structure of the superprimer accounts for the strong anti-corrosion performance of the zinc phosphate pigment. The self-assembled stratified double-layer structure of the superprimer is characterized by a less-penetrable hydrophobic layer at the top and a hydrophilic layer accommodating the inhibitors underneath. The top layer functions as the physical barrier against water ingress, while the lower layer functions as a reservoirfor the inhibitor, which is leached out only if the coating is damaged by a scratch or scribe. The presence of a silane in the primer further improves the adhesion and anti-corrosion performance of the primer.

• Design & Manufacturing
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• 제17권2호
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• pp.55-61
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• 2023

With femtosecond (fs) laser pulse irradiation on metals, various types of nano- and micro-scale structures can be naturally induced at the surface through laser-matter interaction. Two notable structures are laser-induced periodic surface structures (LIPSSs) and cone/spike structures, which are known to significantly modify the optical and physical properties of metal surfaces. In this work, we irradiate fs laser pulses onto various types of metals, cold-rolled steel, pickled & oiled steel, Fe-18Cr-8Ni alloy, Zn-Mg-Al alloy coated steel, and pure Cu which can be useful for precise molding and imprinting processes, and adjust the morphological profiles of LIPSSs and cone/spike structures for clear structural coloration and a larger range of surface wettability control, respectively, by changing the fluence of laser and the speed of raster scan. The periods of LIPSSs on metals used in our experiments are nearly independent of laser fluence. Accordingly, the structural coloration of the surface with LIPSSs can be optimized with the morphological profile of LIPSSs, controlled only by the speed of the raster scan once the laser fluence is determined for each metal sample. However, different from LIPSSs, we demonstrate that the morphological profiles of the cone/spike structures, including their size, shape, and density, can be manipulated with both the laser fluence and the raster scan speed to increase a change in the contact angle. By injection molding and imprinting processes, it is expected that fs laser-induced surface structures on metals can be replicated to the plastic surfaces and potentially beneficial to control the optical and wetting properties of the surface of injection molded and imprinted products.

• 한국주조공학회지
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• 제14권3호
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• pp.240-247
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• 1994

TiC particulate reinforced magnesium matrix composites were fabricated by melt stirring method. The effect of alloying elements on TiC particulate dispersion into molten magnesium and mechanical properties were investigated. The incorporation time is defined as the time required for dispersion of solid particles into molten metal. The incorporation time of TiC particles into molten pure magnesium was remarkably shorter and the particulated dispersion was more uniform than that of pure aluminum which was reported previously. The incorporation time was, prolonged by the addition of Al, Bi, Ca, Ce, Pb, Sn or Zn. The tensile strength increased and elongation decreased by the addition of Cu or Sn into the matrices and composites. Although, the tensile strength of the matrices and composites increased by alloying with Ca or Ce, the maximum elongation was observed at a content of about 1% for the matrices. By alloying with Zn, the tensile strength increased for the matrices and composites, but the elongation of the matrices increased. The pure magnesium and its alloy matrix composites reinforced with 20vol% TiC have the tensile strength of about 400MPa. This value is compared with the tensile strength of SiC whisker reinforced magnesium matrix composites fabricated by liquid infiltration method at the same volume fraction. There fore, the melt strirring method which has the advantages of simple process is considered to be efficient in fabricating magnesium matrix composites.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2007년도 춘계학술대회A
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• pp.1312-1316
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• 2007

Strip casted and rolled magnesium sheet is become exiting material for car manufacturer, due to its better formability and specific strength compare with conventional extruded sheet. TWB technology was attractive for car body designer, because it saves the weight of the car without strength loss. In this study, the laser welding performance of magnesium sheet was investigated for Mg TWB panel manufacturing. The material was strip casted and rolled magnesium alloy sheet contains 3 wt% Al and 1 wt% Zn (AZ31). Lamp pumped Nd:YAG laser of 2kW was used and its laser light was delivered by optical fiber of 0.6mm core diameter to material surface with focusing optics of 200mm focal length for TWB welding. The microstructure of weld bead was investigated to check internal defects such as inclusion, porosity and cracks. Also mechanical properties and formability were evaluated for press forming of car body. For the results, there was no crack but inclusion or porosity on weld at some conditions.The tensile strength of weld was over 95% of base metal. Inner and outer panel of engine hood were press formed and assembled at elevated temperature.

• Corrosion Science and Technology
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• 제23권2호
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• pp.139-144
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• 2024

Recently, due to the rapid spread and continuation of COVID-19, customer demand for health and hygiene has increased, requiring the development of new products that express antiviral and antibacterial properties. In particular, viruses are much smaller in size than bacteria and have a fast propagation speed, making it difficult to kill. POSCO has developed eco-friendly PCM color coated steel sheets with excellent antiviral properties by introducing inorganic composite materials to the color coating layer on the surface of Zn-Al-Mg alloy plated steels. The virus is not only destroyed by adsorption of metal ions released from the surface of the coating film, but is also further promoted by the generation of reactive oxygen species by the reaction of metal ions and moisture. As a result of evaluating the developed products under the International Standard Evaluation Act, the microbicidal activity was 99.9% for viruses, and 99.99% for bacteria and 0% fungi. In particular, excellent results were also shown in the durability evaluation for life cycle of the product. The developed product was applied as a wall of school classrooms and toilets and ducts for building air conditioning, resulting in excellent results. Developed products are being applied for construction and home appliances to practice POSCO's corporate citizenship.

• 한국표면공학회:학술대회논문집
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• 한국표면공학회 2018년도 춘계학술대회 논문집
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• pp.44-44
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• 2018

칼라도장강판은 금속 제품의 제품화 공정 중에 도장 공정을 생략함으로 경제적이며, 제조공정 중 발생할 수 있는 VOCs(Volatile Organic Compounds)의 배출 염려가 없어 건축 및 가전 산업에 다용되고 있다. 칼라도장강판은 용융아연도금강판(GI), 전기아연도금강판(EGI), 용융알루미늄아연합금도금강판 등이 기재로 적용되고 있으며, 최근 마그네슘 성분이 첨가되는 고내식 도금강판 개발과 함께 고내식 도금강판을 이용한 칼라도장강판의 개발 및 수요 발굴을 위한 연구가 활발하게 진행 중에 있다. 칼라강판의 구성은 일반적으로 도막 밀착성 확보를 위한 화성처리층, 기재와 도막간의 밀착성과 내식성 개선을 위한 하도층(primer layer), 가공성, 내오염성, 의장성 등의 기능성 부여를 위한 상도층(top layer)의 구조로 도장되어 있다. 도료는 가공성, 내오염성, 경도 등의 기능성이 우수한 폴리에스테르 수지계가 가장 폭넓게 사용되고 경화제로는 멜라민 화합물과 이소시아네이트 화합물이 널리 사용되고 있다. 칼라도장 강판은 1970년대 이후 본격적으로 보급되어 사용되기 시작하였으며, 화성처리층은 밀착성과 내식성이 우수한 크로메이트처리가 널리 사용되고, 하도층은 방청성이 우수한 크로메이트계 방청 안료를 함유시킨 도료가 일반적이다. 그러나, 전기전자 제품에 적용되는 칼라도장강판은 2006년에 RoHS 규제의 시행과 더불어 6가 크롬 사용 제한의 영향으로 크롬프리 화성처리가 일반화되어 적용되고 있으며, 그 동안 6가 크롬 제안이 유보적이었던 건축용 칼라도장강판 또한 크롬프리 화성처리층 및 크로메이트계 방청 안료의 하도층 적용을 회피하고 있는 추세이다. 이에 따라, 고내식 합금도금강판을 기재로 사용하고 기존의 화성처리층과 하도층에 크롬프리 수지를 적용하는 연구개발이 활발하게 진행 중에 있다. 본 연구에서는 마그네슘이 첨가된 고내식 합금도금강판으로 Al-Mg-S i강판과 용융 Zn-Al-Mg 합금도금강판에 기존의 상용화 공정에서 사용되는 크롬계 및 크로프리 화성처리 적용 칼라도장강판에 대한 내식성 등 칼라도장강판의 특성에 대해 발표한다.

• 한국산학기술학회논문지
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• 제17권9호
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• pp.718-723
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• 2016

중형 차량용 에어컨에 사용되는 스크롤 압축기는 토크변동이 적고 에너지 효율이 높으며, 소음이 적어 적용이 확대되어 가고 있다. 또한 경량화에 따라 압축기를 구성하는 주요부품이 스틸에서 알루미늄으로 변경하는 등 소재에 대한 연구가 활발히 이루어지고 있다. 또한 스크롤 압축기는 고정 스크롤과 선회 스크롤의 인벌루트 랩의 가공 정밀도가 $10{\mu}m$ 이하로 정밀도가 높은 전용장비와 전용 툴은 물론 숙련된 가공기술이 요구되므로 가공 품질을 확인하기 위하여 표면조도와 윤곽도를 측정하였으며, 알루미늄을 모재로하여 양극 산화 처리하여 사용되고 있는 선회스크롤의 경도를 향상시키기 위한 방법의 일환으로 봉공처리를 수행에 따른 특성들을 살펴보았다. 알루미늄 소재는 Al-Mg-Cu계 합금으로 미량의 Ni, Fe, Zn 이 부가된 것으로 나타났으며, 표면조도는 $3{\mu}m$이하로 가공 정밀도 기준 $10{\mu}m$를 만족하였다. 또한 양극산화 후 나노다이아몬드, CNT로 봉공처리 한 경우 경도는 450 이상으로 수봉공처리의 경우 보다 50% 이상 경도가 향상됨을 알 수 있었으며, 봉공재로 사용하기 위한 소재로서 탄소나노튜브나 나노다이아몬드는 큰 차이를 보이지 않았다.

• 콘크리트학회논문집
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• 제24권5호
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• pp.613-621
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• 2012

철근부식은 콘크리트의 내구성 문제뿐 아니라 구조적인 안전성에 영향을 미치므로 매우 중요한 열화이다. 철근부식을 방지하기 위하여 콘크리트 구체의 내구성을 향상시키려는 연구가 진행되고 있으나 용융아연도금 철근과 같이 철근 표면을 코팅함으로서 부식을 방지하려는 연구도 진행되고 있다. 이 연구는 용융아연도금 철근의 내부식성능 및 구조성능을 정량적으로 평가하는 것이다. 이를 위하여 아연, 알루미늄, 아연 45% + 알루미늄 55% 등을 사용한 도금 철근에 대하여 예비실험을 수행하였다. 다양한 금속코팅재료의 부식거동을 평가하여 최적의 도금재료인 아연을 선정하였으며, 아연도금 철근의 전위변화를 촉진염수 분무실험 등을 통하여 평가하였다. 또한 용융아연 도금된 철근과 일반철근을 이용하여 철근의 인장강도 시험, 콘크리트와의 부착력 시험 등이 수행되었으며, 최종적으로 RC 보를 제작하여 균열패턴 및 구조거동을 평가하였다. 이 연구에서는 다양한 금속코팅재료의 부식거동, 노치를 가진 금속의 전위변화 등을 포함한 부식특성이 평가되었다. 또한 부착력, 인장강도, 하중에 따른 거동 등을 포함한 구조적 거동이 평가되었으며, 최종적으로 용융아연도금 철근의 사용에 대한 적용성이 검토되었다.

• 대한금속재료학회지
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• 제49권4호
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• pp.281-290
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• 2011

In order to gain better understanding of the selective surface oxidation and its influence on the galvanizability of a transformation-induced plasticity (TRIP) assisted steel containing 1.5 wt.% Si and 1.6 wt.% Mn, a model experiment has been carried out by depositing Si and Mn (each with a nominal thickness of 10 nm) in either monolayers or bilayers on a low-alloy interstitial-free (IF) steel sheet. After intercritical annealing at $800^{\circ}C$ in a $N_2$ ambient with a dew point of $-40^{\circ}C$, the surface scale formed on 590 MPa TRIP steel exhibited a microstructure similar to that of the scale formed on the Mn/Si bilayer-coated IF steel, consisting of $Mn_{2}SiO_{4}$ particles embedded in an amorphous $SiO_{2}$ film. The present study results indicated that, during the intercritical annealing process of 590 MPa TRIP steel, surface segregation of Si occurs first to form an amorphous $SiO_{2}$ film, which in turn accelerates the out-diffusion of Mn to form more stable Mn-Si oxide particles on the steel surface. During hot-dip galvanizing, particulate $Fe_{3}O_{4}$, MnO, and Si-Mn oxides were reduced more readily by Al in a Zn bath than the amorphous $SiO_{2}$ film. Therefore, in order to improve the galvanizability of 590 TRIP steel, it is most desirable to minimize the surface segregation of Si during the intercritical annealing process.