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반복겹침접합 압연공정에 의해 제조한 초미세립 AA1050/AA5052 복합알루미늄합금판재의 어닐링 특성
이성희,이광진,Lee, Seong-Hee,Lee, Gwang-Jin 한국재료학회 2011 한국재료학회지 Vol.21 No.12
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 $350^{\circ}C$. The tensile strength decreased largely with an increasing annealing temperature, especially at temperatures of 150 to $250^{\circ}C$. However, above $250^{\circ}C$ it hardly decreased even when the annealing temperature was increased. On the other hand, the total elongation increased greatly above $250^{\circ}C$. 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.
전철구 ( Jeon Cheolgu ),이버들 ( Lee Buddle ),이광진 ( Lee Gwang Jin ),신윤희 ( Shin Yunhee ),정해도 ( Jeong Hadoo ) 국군의무사령부 2018 대한군진의학학술지 Vol.49 No.1
Objectives : The purpose of this study was to compare indoor air pollution levels and to suggest appropriate ventilation methods for military living room. Methods : To compare the air pollution levels of flat bed type and bed type dormitories by selecting four divisions of educational camps, and to compare the effects of natural and mechanical ventilation for dirty dormitories. Investigation items are carbon dioxide, fine dust(PM10), Total aerobic bacteria. Results : Indoor air pollution was higher in flat bed type dwelling. Natural ventilation was best when door and two windows were opened for 10 minutes at 1 hour intervals and the concentration of carbon dioxide was 700∼2,500ppm. In case of mechanical ventilation, the ventilation system was operated continuously and the door was opened for 10 minutes at intervals of 1 hour and the external air was introduced. The carbon dioxide concentration was 650∼1,580ppm. During the summer, ventilation did not occur during the operation of the air conditioner, so the concentration of carbon dioxide was high but the concentration decreased when the window was opened. Conclusions : In recent year, it is necessary to check the fine dust forecast and determine whether to ventilate because the number of days with high concentration of fine dust is increasing in the air. In the long term, it is necessary to install ventilation device which is not influenced by winter warming and usual outside air pollution desirable.
기상조건에 따른 도시내 위험물질 확산정보와 보행자환경 위험영향평가
김은령 ( Eun-ryoung Kim ),이광진 ( Gwang-jin Lee ),이채연 ( Chaeyeon Yi ) 한국환경영향평가학회 2017 환경영향평가 Vol.26 No.4
본 연구에서는 위험물질 누출 사고로 인한 영향을 예측하고 피해를 줄이기 위한 대응 방안으로 기상장(풍향·풍속)과 실제 도시 구조를 고려한 가상의 사고 시나리오를 구축하였다. 위험물질 확산에 대한 시나리오를 기반으로 서울시 강남 지역을 대상으로 보행자 환경에서의 위험특성을 분석하였다. 풍향과 풍속 조건에 따라 48개의 시나리오를 가정하였으며, 스칼라 물질의 확산 특성을 분석하기 위한 위험물질로써 불화수소를 가정하였다. CFD_NIMR_SNU 모델을 이용하여 모의한 기상장(풍향·풍속) 평가를 실시하여 모든 검증 지수가 유효한 범위 내에 나타남을 보였다. 보행자 고도에서 모의된 확산장 분석 결과, 도시의 인공적 구조에 의해 기상장의 조건에 따라 상세 흐름이 변화하며 위험물질이 확산되는 경향에 영향을 미치는 것을 확인하였다. 또한, 유입류의 풍속이 가장 약한 조건의 경우, 하층에서 유입방향의 역방향으로 흐름이 형성되어 보행자 고도에서의 물질 이동경로가 변화함을 보였다. 본 연구에서는 도시 지역의 난류흐름 형성에 도시의 인공적 구조가 매우 중요한 영향을 미치는 것을 보였다. 본 연구에 사용된 기술은 향후 실제 위험물질을 취급하는 도시 내 산업단지에 확산모의 실험과 보행자 환경에서의 위험성 평가에 유용할 것으로 기대된다. In this paper, dispersion scenarios concerning various meteorological conditions and real urban structures were made to estimate the impacts of hazardous substance leakage accidents and to reduce damages. Based on the scenario of the hazardous substance dispersion, the characteristics of the risk in the pedestrian environment were analyzed in Gangnam, Seoul. The scenarios are composed of 48 cases according to the meteorological conditions of wind direction and wind speed. In order to analyze the dispersion characteristics of the hazardous substances, simulations were conducted using a computational fluid dynamic (CFD) model with hydrogen fluoride releases. The validation for the simulated wind was conducted at a specific period, and all the calculated verification indices were within the valid range. As a result of simulated dispersion field at pedestrian level, it was found that the dispersion pattern was influenced by the flow, which was affected by the artificial obstacles. Also, in the case of the weakest wind speed of the inflow, the dispersion of the hazardous substance appeared in the direction of the windward side at the pedestrian level due to the reverse flow occurred at lower layers. Through this study, it can be seen that the artificial structures forming the city have a major impact on the flow formed in urban areas. The proposed approach can be used to simulate the dispersion of the hazardous substances and to assess the risk to pedestrians in the industrial complexes dealing with actual hazardous substances in the future.