The formation of high-quality polycrystalline silicon (poly-Si) on relatively low cost substrate has been an important issue in the development of thin film solar cells. Poly-Si seed layers were fabricated by an inverse aluminum-induced crystallization (I-AIC) process and the properties of the resulting layer were characterized. The I-AIC process has an advantage of being able to continue the epitaxial growth without an Al layer removing process. An amorphous Si precursor layer was deposited on Corning glass substrates by RF magnetron sputtering system with Ar plasma. Then, Al thin film was deposited by thermal evaporation. An SiO2 diffusion barrier layer was formed between Si and Al layers to control the surface orientation of seed layer. The crystallinity of the poly-Si seed layer was analyzed by Raman spectroscopy and x-ray diffraction (XRD). The grain size and orientation of the poly-Si seed layer were determined by electron back scattering diffraction (EBSD) method. The prepared poly-Si seed layer showed high volume fraction of crystalline Si and<100> orientation. The diffusion barrier layer and processing temperature significantly affected the grain size and orientation of the poly Si seed layer. The shorter oxidation time and lower processing temperature led to a better orientation of the poly-Si seed layer. This study presents the formation mechanism of a poly seed layer by inverse aluminum-induced crystallization.

The microstructure and tensile properties of Al-Mn/Al-Si hybrid aluminum alloys prepared by electromagnetic duocasting were investigated. Only the Al-Mn alloy showed the typical cast microstructure of columnar and equiaxed crystals. The primary dendrites and eutectic structure were clearly observed in the Al-Si alloy. There existed a macro-interface of Al-Mn/Al-Si alloys in the hybrid aluminum alloys. The macro-interface was well bonded, and the growth of primary dendrites in Al-Si alloy occurred from the macro-interface. The Al-Mn/Al-Si hybrid aluminum alloys with a well-bonded macro-interface showed excellent tensile strength and 0.2% proof stress, both of which are comparable to those values for binary Al-Mn alloy, indicating that the strength is preferentially dominated by the deformation of the Al-Mn alloy side. However, the degree of elongation was between that of binary Al-Mn and Al-Si alloys. The Al-Mn/Al-Si hybrid aluminum alloys were fractured on the Al-Mn alloy side. This was considered to have resulted from the limited deformation in the Al-Mn alloy side, which led to relatively low elongation compared to the binary Al-Mn alloy.

An ultrafine grained complex aluminum alloy was fabricated by an accumulative roll-bonding (ARB) process using dissimilar aluminum alloys of AA1050 and AA5052 and subsequently annealed. A two-layer stack ARB process was performed up to six cycles without lubricant at an ambient temperature. In the ARB process, the dissimilar aluminum alloys, AA1050 and AA5052, with the same dimensions were stacked on each other after surface treatment, rolled to the thickness reduction of 50%, and then cut in half length by a shearing machine. The same procedure was repeated up to six cycles. A sound complex aluminum alloy sheet was fabricated by the ARB process, and then subsequently annealed for 0.5h at various temperatures ranging from 100 to 350˚C. The tensile strength decreased largely with an increasing annealing temperature, especially at temperatures of 150 to 250˚C. However, above 250˚C it hardly decreased even when the annealing temperature was increased. On the other hand, the total elongation increased greatly above 250˚C. The hardness exhibited inhomogeneous distribution in the thickness direction of the specimens annealed at relatively low temperatures, however it had a homogeneous distribution in specimens annealed at high temperatures.

Zinc oxide as an optoelectronic device material was studied to utilize its wide band gap of 3.37 eV and high exciton biding energy of 60 meV. Using anti-site nitrogen to generate p-type zinc oxide has shown a deep acceptor level and low solubility. To increase the nitrogen solubility in zinc oxide, group 13 elements (aluminum, gallium, and indium) was co-added to nitrogen. The effect of aluminum on nitrogen solubility in a 3×3×2 zinc oxide super cell containing 72 atoms was investigated using density functional theory with hybrid functionals of Heyd, Scuseria, and Ernzerhof (HSE). Aluminum and nitrogen were substituted for zinc and oxygen sites in the super cell, respectively. The band gap of the undoped super cell was calculated to be 3.36 eV from the density of states, and was in good agreement with the experimentally obtained value. Formation energies of a nitrogen molecule and nitric oxide in the zinc oxide super cell in zinc-rich conditions were lower than those in oxygen-rich conditions. When the number of nitrogen molecules near the aluminum increased from one to four in the super cell, their formation energies decreased to approach the valence band maximum to some degree. However, the acceptor level of nitrogen in zinc oxide with the co-incorporation of aluminum was still deep.

MAO(Micro-Arc Oxidation) method was used to make surface on 6063 Al specimen. This study was focused on an influence of voltage, density of electrolyte and a period of treatment on the change of surface microstructure by using SEM(Scanning Electron Microscope), EDS(Energy Dispersive X-ray Spectroscopy). The microstructure shows higher roughness and thicker oxidized layer with increase of voltage and maintaining period of treatment. The density of electrolyte affected a formation of more dense surface and increase of a oxidized layer.

We report growth of epitaxial AlN thin films on c-plane sapphire substrates by plasma-assisted molecular beam epitaxy. To achieve two-dimensional growth the substrates were nitrided by nitrogen plasma prior to the AlN growth, which resulted in the formation of a two-dimensional single crystalline AlN layer. The formation of the two-dimensional AlN layer by the nitridation process was confirmed by the observation of streaky reflection high energy electron diffraction (RHEED) patterns. The growth of AlN thin films was performed on the nitrided AlN layer by changing the Al beam flux with the fixed nitrogen flux at 860˚C. The growth mode of AlN films was also affected by the beam flux. By increasing the Al beam flux, two-dimensional growth of AlN films was favored, and a very flat surface with a root mean square roughness of 0.196 nm (for the 2 μm × 2 μm area) was obtained. Interestingly, additional diffraction lines were observed for the two-dimensionally grown AlN films, which were probably caused by the Al adlayer, which was similar to a report of Ga adlayer in the two-dimensional growth of GaN. Al droplets were observed in the sample grown with a higher Al beam flux after cooling to room temperature, which resulted from the excessive Al flux.

본 논문의 1편에서는 레저선박의 실시간 선체구조모니터링시스템을 개발하기 위하여 도파로 어레이격자(AWG, Arrayed Waveguide Grating)와 광섬유 브래그격자센서(FBG, Fiber-optic Bragg Grating)를 이용한 선체구조모니터링시스템의 설계 및 적용 가능성을 검토하였다. 본 연구에서는 레저선박의 구조취약부의 실시간 모니터링을 위하여 광섬유센서 데이터의 측정 및 분석을 고속으로 처리할 수 있도록 시스템을 최적화하였으며, 레저선박의 선체구조안전모니터링을 위하여 레저선박의 선체 주재료인 FRP와 알루미늄 시편을 대상으로 재료 특성에 대한 기 초 데이터베이스를 구축하였다. 30feet 및 60feet급 세일요트의 알루미늄 마스트에 개발된 시스템을 적용하여 하중변화에 따른 변형률 특성 확인 및 레저선박의 선체구조안전성 평가를 위한 기초 연구를 수행하였다.

레저선박의 대형화와 고부가가치화로 인해 설계 요구조건은 점차 까다로워지고 있으며, 제작공정 또한 기존보다 복잡해지고 있다. 해외의 레저선박 제작업체들은 PLM 개념 기반 3차원 모델 설계시스템 구축을 통하여 이러한 환경을 극복하기 위해 노력하고 있다. 반면 국내의 경우 아직까지 2차원 도면 중심의 전통적인 레저선박 개발 프로세스에 머물고 있으며, 일부 3차원 모델 기반 설계시스템을 갖추기 위한 노력이 있었으나 이는 매우 초기단계에 속한다. 본 연구에서는 DMU 기술을 레저선박 설계 프로세스에 적용하기 위한 초기연구를 수행하였다. DMU 모델 중심으로 레저선박 설계를 수행함으로써 DMU 모델 기반 설계 프로세스를 정립하였고, 40 ft급 알루미늄 레저보트 설계사례를 통해 그 효용성을 입증하였다.

The RFID (Radio-Frequency Identification) is an automatic identification method, relying on storing and remotely retrieving data using devices called RFID tags or transponders. Some RFID tags have been used in severe environment of temperature ranged from to for a long time and may cause serious problems such as signal error, short life cycle and explosion. Conventionally, the RFID tags for high temperature applications consisted of Fe-alloy housing part, ceramic powder and RFID sensor. However, it has disadvantage of heavy weight, signal noise and heat shield capability. In this study, we newly applied the aluminum porous materials fabricated by polymer leaching process into RFID tags in order to improve heat shielding ability, and compared the properties of RFID tag inserted by aluminum porous with the conventional one.

기계가공은 절삭 부위의 냉각작용과 윤활작용을 위해 절삭유를 많이 소모한다. 절삭유는 염소계의 극압첨가제 등이 함유되어 있어 작업자들에게 유독할 뿐만 아니라 대기의 오염을 초래하여 청정생산을 저해하게 되므로 이런 전통적인 방법은 작업자의 직업병으로부터 보호와 환경보호를 위하여 새로운 가공방법으로 변경되어야만 한다. MQL기계가공 방법은 절삭유를 아주 소량 소모하므로 청정생산을 위한 대안으로 떠오르고 있지만 많은 작업자들이 이에 대한 기술적인 확신이 부족하

To investigate the protective effect of omija(Schizandra chinensis Baillon) tea extracts against the aluminum toxicity, Sprague-Dawley rats(100±10g) were divided into 6groups consisting of a control group, a 3% Schizandra chinensis Baillon tea plus extract group, a 1, 000 and 2, 000ppm aluminum group, and a 1, 000 and 2, 000ppm aluminum plus 3% Schizandra chinensis Baillon tea plus extract group. The rats administered aluminum were given 1, 000 and 2, 000ppm of Al2(SO4)3 dissolved in distilled water. The aluminum content in tissues from rats administered aluminum was lower than in the tissues of rats of administered aluminum plus 3% Schizandra chinensis Baillon tea in the water extract. Aspartate aminotransferase (AST) and alanine aminotransferase(ALT) levels were increased in the aluminum group and lower in the group receiving a 3% extract of Schizandra chinensis Baillon tea. Lactate dehydrogenase(LDHase) was lower in the group receiving a 3% extract of Schizandra chinensis Baillon tea plus aluminum than in the aluminum group. Cholinesterase(ChEase) was higher in the 3% Schizandra chinensis Baillon tea-aluminum group than in the aluminum group. Plasma levels of renin were increased in the aluminum group, compared to the group receiving 3% Schizandra chinensis Baillon tea plus aluminum. Plasma levels of aldosterone were increased in the aluminum group compared with the 3% Schizandra chinensis Baillon tea plus aluminum group. These results suggest that the group receiving Schizandra chinensis Baillon tea in water extract had a lowered level of aluminum accumulation, and it is believed that the Schizandra chinensis Baillon tea plus water had some protective effects against aluminum toxicity when administered in rats, but the mechanism of these effects remains obscure.

Ni nanowires were fabricated using anodic aluminum oxide (AAO) membrane as a template by electrochemical deposition. The nanowires were formed within the walls of AAO template with 200 nm in pore diameter. After researching proper voltage and temperature for electrochemical deposition, the length of Ni nanowires was controlled by deposition time and the supply of electrolyte. The morphology and microstructure of Ni nanowires were investigated by field emission scanning electron microscope (FE-SE), X-ray diffraction (XRD) and transmission electron microscope (TEM).

본 연구는 농도를 달리한 알루미늄 급여가 두충의 효과에 미치는 영향을 실시한 결과 식이섭취량에서 두충차 추출액과 알루미늄 병합급여군은 알루미늄 단독급여군에 비하여 증가하였으나 각 실험군간에 유의성은 나타나지 않았다. 음용수 섭취량은 알루미늄 단독 급여군에 비하여 알루미늄과 두충차 추출액 병합급여군이 약간 증가하였다. 체중 증가량은 대조군과 두충차 추출액 급여군에 비하여 농도를 달리한 알루미늄 급여군이 감소하였으며 식이효율은 각 실험군간에 유의적인 차이는 나타나지 않았다. 간, 심장, 신장, 폐, 위, 소장, 대장 및 비장 조직 중의 알루미늄 함량에서 대조군과 두충차추출액급여군 간에는 별다른 차이를 보이지 않았으나 각각의 농도를 달리한 알루미늄 급여군에 비하여 알루미늄과 두충차 추출액 병합급여군의 함량은 감소하였다. 레닌활성도에서 대조군에 비하여 두충차 추출액 급여군이 감소하였고, 각각 농도를 달리한 알루미늄 급여군에 비하여 알루미늄과 두충차 추출액 병합급여군이 유의적으로 감소하였다. 알도스테론농도는 각각 농도를 달리한 알루미늄 급여군에 비하여 알루미늄과 두충 추출액 병합급여군이 유의적으로 감소하였다. ALT와 AST는 농도를 달리한 알루미늄 단독 급여군에 비하여 알루미늄과 두충차 추출액 병합 급여군이 유의적으로 감소하였다. LDHase는 알루미늄 급여군에 비하여 알루미늄과 두충차 추출액 병합급여군이 감소하였으나 유의한 차이는 없었다. ChEase는 농도를 달리한 알루미늄 단독급여군에 비하여 두충차 추출액과 알루미늄 병합급여군 및 대조군과 두충차 추출액군이 유의하게 증가하였다. 따라서 알루미늄을 만성적으로 섭취하게 되면 독성효과를 나타낼 수 있으나 두충차추출액이 알루미늄에 의해 손상된 조직과 AST, ALT, LDHase. ChEase 활성도, 레닌, 알도스테론 호르몬 농도에 어느정도 영향을 미치는 것으로 나타나 두충의 폴리페놀 성분이 알루미늄에 의한 어느 정도 중독 완화 효과가 있으며, 본 실험은 흰쥐를 이용한 동물모델로 실시하였으나 알루미늄은 여러 경로를 통해 사람에게 노출 될 수 있으므로 알루미늄이 인체에 어떤 영향을 미치는지에 대한 연구는 계속되어져야 한다고 사료된다.

Various anti-scattering agents for suppression of dust scattering at waste depository were compared in this study. Based on the price, easy of usage, and no toxicity, 1% of Al2(SO4)3 was selected as surface hardening agents. Only lower than 2% of total weight were flied when wind speed was monthly maximum velocity during 1 hr. These results were quite good with comparison of S anti-scattering agents which was made by C company in Korea. When Al2(SO4)3 was spread, the surface waste became hard therefore the effect of suppression of scattering dust was long lasting. It was recommend that 2% of Al2(SO4)3 was spread to keep suppression of scattering dust when sudden gust of wind such as natural disaster was occurred.

This study was designed to investigate the effects of green tea extract on aluminum-induced damage to phospholipid content in old rat cerebral tissue. The aim of this study was to investigate the possibility that aluminum is the cause of Alzheimer’s disease. Forty Sprague-Dawley old male rats weighing 350±10 g were divided into four groups, consisting of a control group (CON), 40 ppm aluminum sulfate group (Al-40), green tea water extract group (GTWE), and 40 ppm aluminum sulfate and green tea water extract groups (Al-40+GTWE) and kept on their respective diets for 12 weeks. In order to discover the influence of aluminum on cerebral tissue of old male rats, the serum aluminum concentration and phospholipid composition were compared between the aluminum-treated group and the normal group. The results showed that the serum aluminum concentration was higher in the aluminum sulfate-treated group than in the normal group. The cerebral tissue phospholipid concentration decreased significantly in the aluminum sulfate treated group as compared to the normal group. The results of this experiment show that increase of aluminum concentration in experimental animals causes the rise of serum aluminum and phospholipid concentrations, phenomena that are very similar to those shown in Alzheimer’s disease., The results of this experiment, together with reports that aluminum is a cause of neurofibrillary tangles in cerebral tissue, therefore demonstrate the possibility that aluminum is the cause of Alzheimer’s disease. Green tea water extract is also shown to be an effective therapeutic candidate for the treatment of Alzheimer’s disease.

In this study, a new, relatively simple fabrication method for forming a mesoporous Al(OH)3 film onAl substrates was demonstrated. This method, i.e., alkali surface modification, was simply comprised of dippingthe substrate in a 5×10-3M NaOH solution at 80oC for one minute and then immersing it in boiling waterfor 30 minutes. After alkali surface modification, a mesoporous Al(OH)3 film was formed on the Al substrate,and its chemical state and crystal structure were confirmed by XPS and TEM. According to the results of theXPS analysis, the flake-like morphology after the alkali surface modification was mainly composed of Al(OH)3,with a small amount of Al2O3. The mesoporous Al(OH)3 layer was composed of three regions: an amorphous-rich region, a region of mixed amorphous and crystal domains, and a crystalline-rich region near the Al(OH)3layer surface. It was confirmed that the stabilization process in the alkali surface modification stronglyinfluenced the crystallization of the mesoporous Al(OH)3 layer.