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휴대용 기체 크로마토그래피 / 광이온화 검출기 시스템의 개발
김만구,심지희,이동수,이용근,Kim, Man Gu,Sim, Ji Hui,Lee, Dong Su,Lee, Yong Geun 대한화학회 1994 대한화학회지 Vol.38 No.2
기체시료 채취기와 짧은 모세관 컬럼(내경 0.32 mm, 길이 3 m), 광이온화 검출기 및 진공펌프로 구성되어, 컬럼의 출구 압력이 대기압보다 낮은 압력에서 조작되는 휴대용 기체 크로마토그래피 시스템을 개발하였다. 컬럼의 규격은 Golay식을 이용한 계산 결과를 기초로 선택하였으며, 조작압력비(컬럼입구와 출구압력비)는 1.03~1.2의 범위가 적절하였고, 이 조건에서 0.87∼4.63 ml/min의 걸럼유량을 얻을 수 있었다. 구경이 다른 3개의 튜브로 구성된 기체시료 채취기는 자동으로 기체시료를 직접 컬럼에 빠른 속도로 반복하여 도입할 수 있으며, 좋은 재현성을 나타내었다. 컬럼출구 압력이 대기압 이하에서 조작되며 짧은 모세관 컬럼을 사용하는 기체 크로마토그래피는 최적 컬럼유량이 일반적인 크로마토그래피보다 커 신속한 분석이 가능하여, 40초 이내에 m-xylene 과 o-xylene의 바탕선 분리가 가능하였다. 시스템의 분리능력에 영향을 주는 인자는 시료 채취시간, 컬럼의 길이와 내경 및 조작압력비였고, 벤젠 유도체들을 사용하여 이들의 영향을 검토하였다. The portable gas chromatography system was developed which was consisted of ambient vapor sampler(AVS), short capillary column(3 m long, 0.32 mm i.d. GC(SCCGC), photoionization detector (PID) and vacuum pump which was operated at subambient pressure. The seletion of capillary column was based on the theoretical calculation from Golay equation. The pressure ratio of column inlet and outlet appropriated between 1.03 and 1.2 in the system. The available column flow were 0.87∼4.63 ml/min at the pressure ratios. The AVS consisted of three concentric tubes and enables rapid, repetitive introduction of vapor samples directly into capillary column and showed good reproducibility. The subambient column outlet pressure with PID resulted in a significant increase in the optimum column flow, permitting rapid analysis. The baseline separation of m-xylene and o-xylene was able to within 40 second with the system. Parameters affecting the column resolving power were sampling duration, column length and diameter, and the pressure ratio. Effects of these parameters were investigated using bezene derivative compounds.
산성안개 환경하에서 Ni-Cr-Mo 강의 피로크랙전파거동
김민건,임용호,김만구,Kim, Min-Geon,Im, Yong-Ho,Kim, Man-Gu 대한기계학회 2000 大韓機械學會論文集A Vol.24 No.7
To examine the effect of acid fog on the corrosion fatigue behavior in structural steel, fatigue tests under acid fog atmosphere were carried out in comparison with distilled water. The corrosive c omponents contained in acid fog pile up the corrosion products on crack face and show a crack branching and crack tip blunting. Therefore, due to these workings crack growth rate was reduced by decreasing the effective stress range in crack tip rather than under distilled water. Also the effect of sulfuric acid, which is the main component of acid fog, and testing speed on fatigue crack growth were examined. It was found that corrosion behavior was remarkably dependent upon pH and Hz rather than components of acid fog. According as pH and testing speed decrease below a specific value, crack growth was accelerated in comparison with distilled water. This reveals that due to liquid having strong acidity and slow speed of test the crack face dissolution was promoted, so crack closure was disturbed in the process of stress descent.