• Proceedings of the Korean Institute of Surface Engineering Conference
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• 1998.05a
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• pp.108-108
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• 1998

일반적으로 탄소강은 수용액 중에 노출될 경우 전면부식에 의한 손상을 받는다. 그러나 부식방지를 위하여 부식억제제를 적용할 경우, 탄소강의 부식거동은 현저한 변화를 겪게된다. 이러한 부식거동의 변화는 첨가되는 부식억제제의 종류에 따라 분 류할 수가 있는데, 양극부식억제제, 음극부식억제제 그리고 이들의 혼합부식억제제로 분류할 수가 있다. 현장에 적용된 부식억제제 시스템 중에는 자동차용 부동액과 가스히터용 열전달 매체액이 있다. 이러한 부식억제제가 적용된 시스댐은 정확한 부식억제능의 평가에 의한 그 교체 시기의 결정이 매우 중요하다. 교체 시기가 빠를 경우, 유지비용이 과다하게 소요되는 문제가 있으며, 교체시기가 늦을 경우 설비의 부식을 초래하는 문제 가 있다. 따라서 부식억제제의 정확한 성능 평가법은 매우 중요하며, 이에 대한 다양 한 연구가 진행 중이다. 부식억제제가 함유된 용액의 부식억제성능을 평가하는 방법에는 대표적으로 무게 감량법을 이용하고 있다. 이 방법은 다종의 금속이 적용된 자동차용 부동액을 실제 사용조건과 유사한 실험 조건에서 단기간, 가혹조건에서의 무게 감량에 의해 부식억 제능을 평가하는 방법이다. 그러나 이러한 방법은 특히 국부부식이 진행될 경우 부 식억제능을 정량화 하는데 어려움이 있다. 한편 전기화학적 측정방법으로는 분극곡선법을 이용한 $E_P$(공식개시전위), $E_R$(재부동태 화전위)의 측정법이 있다. 또한 부식억제피막의 안정성을 측정하기 위한 방법으로 인 위적인 양극전류 인가에 의한 피막의 파괴후에 피막이 복원가능 여부 및 그 속도 측 정에 의해 부식억제제의 건전성을 확인할 수가 었다. 본 연구에서는 가스히터의 주구성 재료인 A210 Gr Al의 탄소강을 사용하여, 사용기간이 5년 이상되어 부식억제 기능을 거의 상실한 것으로 여겨지는 열전달 매체액 과 신규 부식억제제가 적용된 시스템 등 객관적으로 확인된 부식억제제 시스랩에 대 하여 다양한 평가 방법을 동원 비교분석하고자 하였다. 실험은 KSM 2142에 의한 무게감량법, 분극곡선 측정에 의한 $E_P$(공식개시전위), $E_R$(재부동태화전위) 측정, 시간에 따른 자연전위 변화 측정 빛 이때의 부식속도(선형분극법), 인위적인 피막 파괴 전,후 의 전위 변화 및 부식속도 측정법에 의한 국부부식 발달 저지능 등을 평가하여 각 실험결과를 비교분석하여 보았다.

• Journal of Korean Society of Forest Science
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• v.37 no.1
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• pp.17-30
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• 1978

Press drying was used on italian poplar (Populus euamericana) to find the profitable means of drying. This study was designed to investigate the process of platen drying considering core temperature, drying time, current moisture content, drying rate, shrinkage and recovery, and green volume specific gravity, equilibrium moisture content and dimensional stability of press dried material and air dried material, The drying tests were conducted using 1.5 centimeter thick material at platen temperature of $175^{\circ}C$. The results were summarized as follows. 1. Core temperature was divided into three stages of drying characterized by period initial heating, plateau temperature and rising core temperature. Plateau temperature was 114 to $119^{\circ}C$. 2. The following predicting equations of drying time(y) in different core temperatures were developed for initial thickness($x_1$), initial moisture content ($x_2$) and final moisture content ($x_3$) 3. The predicting equaltion of current moisture content(u) was log u=4.658-0.060t as funtion of drying time(t) and that of drying rate(r) was log r=-2.797-0.049t. Current moisture content and drying rate of air drying were shown in figure 2. 4. The predicting equation of shrinkage in thickness direction(y) was log y=1.933+0.038t as function of drying time(t), and that of expansion in width direction was $y=-0.692+0.043t-0.001t^2$. 5. Thickness shrinkage was increased more than proportional at to pressure increase. Width shrinkage and thickness recovery was greatest at 35psi. 6. Green volume specific gravity of press dried material was 25% greater than that of air dried material. But equilibrium moisture content of press dried material was less 24% than that of air dried material. Antishrinkage efficiency of press dried material were obtained 27.7%.

• Journal of Korean Society of Forest Science
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• v.36 no.1
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• pp.26-32
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• 1977

Press drying was used on sapwood and heartwood of oak (Qercus acutissima Carruthers) to find profitable means of drying low grade logs. This study was designed to investigate the process of press drying considering core temperature, current moisture content, drying rate, drying time, final moisture content, dimensional change and drying defects. The drying tests were conducted using 1.5 centimeter thick material at platen temperature of $175^{\circ}C$ and pressure of 35psi. The results were summarized as fallows. 1. Core temperature was divided into three stages of drying characterized by initial heating period, plateau temperature, and period of rising core temperature. Plateau temperature of heartwood material was higher and longer than that of sapwood material. 2. The predicting equation for change in drying rate of sapwood material was log y=-2.7925-0.0811x as function of time. That of heartwood material was log y=-3.3382-0.0468x. 3. Sapwood material reduced the moisture content from 59 to 2.5 percent in 45minutes. Heartwood material reduced the moisture content from 64 to 3.3 percent in 55 minutes. 4. Shrinkage during press drying were 20.4 percent in thickness direction and 2.5 percent in width direction. Recovery on equilibrium conditioning at 65 percent relative humidity and temperature of $20^{\circ}C$. were 11.4 percent in thickness direction and 49.4 percent in width direction. 5. Heartwood material developed severe honeycombing and moderate checking. The sapwood material dried without honeycombing, checking and collapse. All material kept wood flat.

• Journal of Korean Society of Forest Science
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• v.113 no.2
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• pp.187-197
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• 2024

In this study, we aimed to identify the factors influencing post-fire mortality in Korean red pine (Pinus densiflora) using Cox's proportional hazards model and analyze the impact of these factors. We monitored the mortality rate of fire-damaged pine trees for seven years after a forest fire. Our survival analysis revealed that the risk of mortality increased with higher values of the delta normalized difference vegetation index (dNDVI), delat normalized burn ratio (dNBR), bark scorch index (BSI), bark scorch height (BSH) and slope. Conversely, the risk of mortality decreased with higher elevation, greater diameter at breast height (DBH), and higher value of delta moisture stress index (dMSI) (p < 0.01). Verification of the proportional hazards assumption for each variable showed that all factors, except slope aspect, were suitable for the model and significantly influenced fire occurrence. Among the variables, BSI caused the greatest change in the survival curves (p < 0.0001). The environmental change factors determined through remote sensing also significantly influenced the survival rates (p < 0.0001). These results will be useful in establishing restoration plans considering the potential mortality risk of Korean red pine after a forest fire.