This study was conducted to investigate the temperature and accumulated temperature of Lentinula edodes strains from primordial occurrence to fruit body maturity. The experimental strains were Sanjo 108 (high temperature type), Sanjo 302 (middle temperature type) and Sanjo 502 (low temperature type). When the Sanjo 108 and Sanjo 302 occurred, the daily mean temperature inside the L. edodes inoculated logs was 17.9 ~ 20.5 °C, which was lower than air temperature by 0.7 ~ 1.15 °C. When the Sanjo 502 occurred, the daily mean temperature inside the L. edodes inoculated logs was 3.6 ~ 16.6 °C, which was lower than air temperature by 0.1 ~ 0.7 °C. The difference between the maximum and the minimum temperature when the fruit body occurred was 4.4 °C inside the inoculated logs and 6.9 °C in the air temperature in Sanjo 108 and Sanjo 302, and in Sanjo 502 was 5.5 °C inside the inoculated logs and 9.1 °C in the air temperature. The number of days from primordial occurrence to fruit body maturity in Sanjo 108, Sanjo 302 and Sanjo 502 was 3.9 days, 5.1 days and 10.6 days, and accumulated temperatures of these strains were 104.9 °C, 129.2 °C and 141.4 °C, respectively. The number of days and accumulation temperatures were 518 days and 8,361 °C in Sanjo 108, 444 days and 6,475 °C in Sanjo 302, and 560 days 9,263 °C in Sanjo 502.

The discontinuity movements of the Portland cement concrete (PCC) layer due to temperature fluctuations and traffic loading are primary causes of the reflection cracking in asphalt overlays. The thermal expansion and contraction of the discontinuities at the PCC layer induces tension at the bottom of the asphalt overlay layer creating excessive strains which causes cracking. The additional cyclic discontinuity movements from the thermal fluctuations and traffic loads propagates the cracks initiated until failure of the overlay layer. However, the crack behaviors of asphalt mixtures varies with temperature due to its viscoelastic property. As such, there is a need to investigate the cracking behavior of asphalt mixtures with varying temperatures and loading conditions. A modified overlay tester developed to evaluate the cracking resistance of asphalt mixtures in various loading directions and different confining temperatures was used to investigate the behavior of asphalt materials with various temperatures and loading conditions. The laboratory test was conducted in 2 segments. The first segment investigates the asphalt cracking behavior subjected to horizontal loading in 3 varying temperatures (10, 25 and 40C) which simulates the cyclic thermal contraction and expansion at the discontinuity. The second segment examines the cracking propagation of the asphalt mixture subjected to vertical loading in 3 varying temperatures. A load dissipation curve per loading cycle is generated in each test along with the images taken on the face of the specimen to monitor the crack propagation. Results have shown that asphalt mixtures undergo a 3-phase cracking behavior: initiation, propagation and failure. This is evident in the load dissipation curve when the initiation phase shows a rapid reduction of peak loads in first series of loading cycles which is followed by a slow and constant load reduction over a certain number of cycles. Failure occurs when there is a sudden decline in peak load and the percent reduction of the load is achieved. Figure 1 shows a fine dense grade asphalt mixture subjected to horizontal movement at 10C. Meanwhile, the load dissipation curve is further investigated by analyzing the images captured during testing. It can be seen that the first visible crack can be identified after 40 cycles which steadily propagates up to 600 cycles. However, between 600 and 700 loading cycles, there is a sudden dip in peak load which shows that at that the stage the crack has already propagated to the top of the test specimen as shown in Figure 2. Other tests have shown that the cracking patterns and load dissipation curves vary with different testing temperatures signifying that low temperature is more susceptible to early failure with constant differential movement. Further tests signify that using a general formula, parameters are calculated which refer to fracture properties of the material.

규산 시비가 토마토 플러그 묘소질에 미치는 영향과 묘의 저온저장시 규산의 저온장해 경감효과를 검토하였다. ‘Rapito’품종을 공시하여 30일간 32구 규격의 플러그 트레이에서 육묘한 뒤, 여섯 개의 규산 처리 농도구 (8, 16, 32, 64, 128 및 256mM)를 설계하여 20일 동안 주 2회 관주 처리한 뒤, 묘소질을 대조구와 비교하였다. 처리 농도는 16mM과 32mM 처리가 초장, 엽면적, 생체중, T/R율 및 근권부 발육 등 대부분의 생육 지표에서 타 처리구에 비해 양호했으며, 특히 16mM의 농도에서 가장 좋은 묘소질을 보였으나, 64mM 이상의 고농도에서는 대조구에 비해 전반적으로 생육이 억제되는 경향을 보였다. 토마토 묘의 생리적 반응에서 엽온에서는 처리구별 차이가 나타나지 않았으나, 증산율은 32mM이상의 농도 처리구에서 기공확산 저항이 증가하면서 증산율이 감소되는 경향을 보였다. 또한, 처리 횟수에 따른 효과를 검토하기 위해 16mM농도의 규산을 20 일 동안 6, 10, 20회 관주처리 한 결과, 대부분의 생육지표에서 처리 횟수간에는 큰 차이가 없었으나, 무처리구에 비해 묘소질이 향상되었으며, 특히 뿌리표면적, 근장, root tip수등 근권부의 생육이 현저히 증가하였다. 아울러 규산처리가 저온저장시 토마토 묘의 저온장해를 감소시키는 효과가 있음을 확인하였다.

In this study, we investigated the response of freshwater oligochaete, Tubifex tubifex, to the water temperature changes and the differences of substrate composition in a laboratory condition. The changes of body shape were observed in a test cage according to the water temperature change ranging from 10℃ to 30℃ with 2℃ interval every 10 minutes. The substrate preference was observed with four different substrate composition from silt-clay to coarse sand. Our results displayed that T. tubifex preferred substrates with the smallest particle size (<0.063 mm). The water temperature influenced on the activity and body shape of T. tubifex, showing low activity with the coiled and constricted body shapes at lower temperature and high activity with relaxed linear body shapes at higher temperature.

To investigate the changes of dominant species of benthic macroinvertebrates according to the changes of temperature and precipitation, we surveyed twenty sites of the main Seomjin River in May and September in 2013 and 2014. The temperature, precipitation, water quality factors and substrate composition, which are important factors in benthos habitat environment, were collected and measured. The average temperature of the Seomjin River increased by 0.2℃ in 2014 compared to 2013, and the temperature increased from upstream to downstream, showing a difference of more than 3℃. Also, the annual cumulative precipitation (ACP) was increased toward low latitude. The temperature of Seomjin River increased more than twice in September (21.7~24.5℃) after rainfall compared to May (7.6~11.3℃) before rainfall, and CP (cumulative precipitation) increased about 3 times before rainfall (263 mm~287.5 mm) and after rainfall (756.3 mm~882 mm). Due to washing effect by summer precipitation, total number of species and individuals for benthic macroinvertebrates were higher in May than in September. Chironomidae sp. and Choroterpes altioculus were dominated in May, Ecdyonurus levis, Macrostemum radiatum and Choroterpes altioculus were dominated in September. As a result of correlation analysis between community indices and environment factors, it was found that there is a high correlation with boulder and sand among substrate compositions. According to the results of cluster analysis based on temperature, CP and the dominant species of benthic macroinvertebrates in Seomjin River, it was divided into two groups following temperature and CP, and the dominant species and geographical position were reflected and divided into detailed groups.

This study was conducted to clarify the effect of high temperature during winter period(autumn sowing) and spring sowing on yield, quality and growth and development in barley. The varieties used for the experiments were heenchalssalbori and keunalbori 1 having a strong spring habit characteristics. In spring sowing treatment, spikelet differentiation was proceeded rapidly and tillering was proceeded slowly compared to the development stage, because the barley sowed at spring is cultivated in high temperature and long day conditions from sowing to spikelet differentiation stage compared with autumn sowing(control). And in high temperature treatment during winter period, like spring sowing, tillering was inhibited compared to the development stage. The number of grain per panicle and the period required to heading stage from spikelet differentiation were reduced largely at spring sowing, because spring sowing treatment was conducted in high temperature and long day condition compared with autumn sowing and high temperature treatment during the period from spikelet differentiation to heading stage. Meanwhile in spring sowing treatment, average temperature during ripening stage was higher than the autumn sowing and high temperature during winter, because heading stage was so late. After all, starch, amylose content and grain weight were reduced while protein content was relatively increased in spring sowing treatment due to difference of average temperature of ripening stage. These changes affected the decrease of viscosity of peak, trough, breakdown and the increase of setback viscosity

In this study, the behavior of dominant microbial communities was investigated in the treatment of porcine carcasses using an anaerobic high temperature burial composting method. The correlation between odor emission and bacterial community structure was analyzed through principal component analysis and extended local similarity analysis. In the burial layer of porcine carcass, the dominant bacteria were Bacillaceae (46%), Thermoactinomycetaceae (15%) and Lactobacillaceae (4%) in the early stage and Bacillaceae (46%), Thermoactinomycetaceae (15%), Lactobacillaceae (4%) in the end. Clostridiaceae (CH3SH), Bacillacea ((CH3)2S2), Clostridium ((CH3)2S2), Clostridial (H2S), Oceanobacillus (H2S), and Thermoanaerobacteraceae (H2S) were closely related to the sulfurous odorants, which are the highest odor contributions. The emission of sulfurous odor substances such as H2S, CH3SH, (CH3)2S, and (CH3)2S2 showed a positive correlation with each other, but showed a negative correlation with nitrogenous odorants (NH3 and TMA), aldehydes, organic acids, and VOCs. The results of this correlation analysis can provide useful information that enables us to understand the characteristics of microbial communities and odor generation during the degradation of carcasses and to manage odors and burial sites in the treatment of carcass.

In this work, the effects of hydrogen reduction on the microstructure and thermoelectric properties of (GeTe)0.85(AgSbTe2)0.15 (TAGS-85) were studied by a combination of gas atomization and spark plasma sintering. The crystal structure and microstructure of TAGS-85 were characterized by X-ray diffraction(XRD) and scanning electron microscopy (SEM). The oxygen content of both powders and bulk samples were found to decrease with increasing reduction temperature. The grain size gradually increased with increasing reduction temperature due to adhesion of fine grains in a temperature range of 350 to 450 °C. The electrical resistivity was found to increase with reduction temperature due to a decrease in carrier concentration. The Seebeck coefficient decreased with increasing reduction temperature and was in good agreement with the carrier concentration and carrier mobility. The maximum power factor, 3.3 × 10−3 W/mK2, was measured for the non-reduction bulk TAGS-85 at 450 °C.

Synthesized monocrystalline nanodiamond (nD) particles are heat-treated at various temperatures to produce highly structured diamond crystals. The heat-treated nDs show different weight loss ratios during thermogravimetric analysis. The crystallinities of the heat-treated nDs are analyzed using Raman spectroscopy. The average particle sizes of the heat-treated nDs are measured by a dynamic light scattering (DLS) system and direct imaging observation methods. Moreover, individual dispersion behaviors of the heat-treated nD particles are investigated based on ultrasonic dispersion methods. The average particle sizes of the dispersed nDs according to the two different measurement methods show very similar size distributions. Thus, it is possible to produce highly crystallized nD powder particles by a heattreatment process, and the nD particles are relatively easy to disperse individually without any dispersant. The heattreated nDs can lead to potential applications such as in nanocomposites, quantum dots, and biomedical materials.

2011~2012년 보령연안 수온의 시공간적 변동특성을 장기 연속수온관측 자료를 이용하여 분석하였다. 수온은 반일 또는 일일의 단주기 변동이 전 계절에 탁월하고 그 진폭은 하계와 춘계에 크고 추계에 작다. 수온과 기온의 연변동 진폭은 기온 12.9℃, 수온 10.9℃로 기온이 더 크며, 연변동 최고위상은 기온 8월 2일, 수온 8월 22일로 기온이 20일 앞선다. 수온의 연변동 진폭은 원산도와 대천항 연안에서 가장 크다. 수온변동 중 일일주기는 대천항과 무창포항, 반일주기는 원산도 주변 협수로에서 탁월하며, 대천천 하구는 천해조 비율이 높 다. 표층수온과 기온은 대체로 풍향 변동에 따라 변동한다. 하천수가 방출되면 수온은 상승 후 하강 또는 하강 후 상승한다. 수온 탁월주 기는 0.5일, 1.0일, 15일 주기와 7~10일 전후이다. 수온변동특성에 따라 해역을 분류하면 ①원산도 남동연안의 혼합수역 ②삽시도~용도, 장 고도~삽시도, 장고도~안면도 남쪽의 서쪽 외해수역 ③용도~독산의 남쪽 외해수역 ④송도~대천항~무창포항의 조간대 연안수역으로 구분 된다.

In this study, we investigate the optical properties of InP/ZnS core/shell quantum dots (QDs) by controlling the synthesis temperature of InP. The size of InP determined by the empirical formula tends to increase with temperature: the size of InP synthesized at 140oC and 220oC is 2.46 nm and 4.52 nm, respectively. However, the photoluminescence (PL) spectrum of InP is not observed because of the formation of defects on the InP surface. The growth of InP is observed during the deposition of the shell (ZnS) on the synthesized InP, which is ended up with green-red PL spectrum. We can adjust the PL spectrum and absorption spectrum of InP/ZnS by simply adjusting the core temperature. Thus, we conclude that there exists an optimum shell thickness for the QDs according to the size.

붉은곰팡이는 곰팡이독소를 생성하는 식물병원균으로 수확된 보리 알곡에 잔존하여 저장 중 적절한 환경이 조성 되면 곰팡이독소를 생성할 수 있다. 저장 중 겉보리의 저장온도와 곡물수분함량이 붉은곰팡이와 곰팡이독소 오염에 미치는 영향을 알아보기 위해 전라도에서 수집한 겉보리 시료 3점의 수분함량을 14%와 20%로 조절한 후 온도 조절이 되지 않는 상온창고와 12oC 이하로 온도를 조절한 저온창고에 각각 저장하였다. 창고의 온도와 습도를 실시간으로 측정하면서 1, 3, 6, 12개월 후 시료의 수분함량, 붉은곰팡이와 곰팡이독소의 오염 정도를 조사하였다. 창고의 온·습도 조사결과 상온창고는 월별 평균온도가 최 저 3oC에서 최고 29oC였으며, 평균습도는 58~70% 인 반면 저온창고는 평균온도가 3~13oC 였으며, 평균습도는 62~74% 였다. 시료의 수분함량은 상온창고에서 감소하였으나 저온창고에서는 초기수분함량 14% 시료는 수분함량이 증가하였고, 초기수분함량 20% 시료는 감소하였다. 붉은곰팡이 오염립은 상온창고에서 저장기간이 경과할수록 감소하였으나 저온창고에서는 시료의 수분함량이 높아감 소폭이 적었다. 곰팡이독소는 대부분의 시료에서 저장 12 개월 후에는 상온창고에서 니발레놀이 더 많이 검출되었 으나 1, 3, 6개월에는 뚜렷한 차이가 없었다. 따라서 겉보리의 건조가 덜 된 경우 저온창고에 보관하는 것이 붉은 곰팡이의 오염을 줄이는데 효과적이며, 겉보리를 1년이상 장기 저장할 경우 저온창고에 보관해야 니발레놀의 오염을 줄일 수 있다.

A metallic oxide layer of a heat-resistant element contributes to the high-temperature oxidation resistance by delaying the oxidation and has a positive effect on the increase in electrical resistivity. In this study, green compacts of Fecralloy powder mixed with amorphous and crystalline silica are oxidized at 950oC for up to 210 h in order to evaluate the effect of metal oxide on the oxidation and electrical resistivity. The weight change ratio increases as per a parabolic law, and the increase is larger than that observed for Fecralloy owing to the formation of Fe-Si, Fe-Cr composite oxide, and Al2O3 upon the addition of Si oxide. Si oxides promote the formation of Al2O3 and Cr oxide at the grain boundary, and obstruct neck formation and the growth of Fecralloy particles to ensure stable electrical resistivity.

In this study, we investigate the effect of the diffusion barrier and substrate temperature on the length of carbon nanotubes. For synthesizing vertically aligned carbon nanotubes, thermal chemical vapor deposition is used and a substrate with a catalytic layer and a buffer layer is prepared using an e-beam evaporator. The length of the carbon nanotubes synthesized on the catalytic layer/diffusion barrier on the silicon substrate is longer than that without a diffusion barrier because the diffusion barrier prevents generation of silicon carbide from the diffusion of carbon atoms into the silicon substrate. The deposition temperature of the catalyst and alumina are varied from room temperature to 150°C, 200°C, and 250°C. On increasing the substrate temperature on depositing the buffer layer on the silicon substrate, shorter carbon nanotubes are obtained owing to the increased bonding force between the buffer layer and silicon substrate. The reason why different lengths of carbon nanotubes are obtained is that the higher bonding force between the buffer layer and the substrate layer prevents uniformity of catalytic islands for synthesizing carbon nanotubes.

In order to study for the growth of fish in the aquaculture industry, the behavior analysis of rock bream (Oplegnathus fasciatus) depending on the temperature and LED lights was conducted. In this study, water temperatures from 10 to 30 degrees were used. One red light (wave length: 622 nm; light power: 811 mW) and one green light (wave length: 518 nm; light power: 648 mW) were used. Behavior of the rock bream was analyzed at an average moving distance for one minutes (AMD) and a rate of movement. The mean AMD were respectively 5.3 m, 7.3 m and 3.0 m in the red LED light, green LED light and control condition. The mean rates of movement were 77%, 88% and 61% respectively in the red LED light, green LED light and control condition. The mean AMD during 24 hours were 3.1 m, 3.1 m and 3.3 m respectively in the red LED light, green LED light and control condition.

본 연구는 ‘청도반시’ 감을 열대지역으로 수출하는 상황을 모의하여 실시하였다. 수송 중이나 수송 후 유통과정에서 홍시를 만들기 위한 적절한 수송 온도(0℃, 5℃, 10℃)와 에틸렌 발생제 투입시기(수송 전, 수송 후)를 구명하고자 하였다. 15일간 모의 수송 후와 이후 30℃에서 5일간 모의 유통 후에 과실의 숙성과율과 품질을 조사하였다. 에틸렌 발생제를 처리하여 15일간 모의 수송한 후의 숙성과율은 10℃에서는 모두 홍시가 되었으나 0℃와 5℃에서는 홍시가 되지 않았고, 수송 전에 에틸렌 발생제를 처리하지 않은 과실은 모든 온도에서 홍시가 되지 않았다. 이후 30℃에서 5일간 모의 유통한 과실은 수송 전 에틸렌 발생제를 투입한 처리는 5℃와 10℃에서 모두 홍시가 되었으나 0℃에서는 38.5%만 홍시가 되었다. 수송 후 에틸렌 발생제를 투입한 처리는 모두 홍시가 된 처리구가 없었으며, 0℃와 5℃에서는 각각 63.5%와 59.6%로 비슷했으나 10℃에서는 19.2%로 오히려 낮았다. 결론적으로 수송 직후 바로 출하하기 위해서는 수송 전에 에틸렌 발생제를 투입하고 10℃에서 수송하는 것이, 그리고 5일간의 현지 유통 중에 숙성을 유도하기 위해서는 수송 전에 에틸렌 발생제를 투입하여 5℃에서 수송하는 것이 효과적인 것으로 판단되었다. 수송 후 에틸렌 발생제를 투입해서 유통 중 숙성을 유도하여 홍시를 제조하는 방식은 수송 온도에 따른 차이는 있으나 10℃ 이하에서 15일간 수송한 감에서는 홍시가 잘 되지 않으므로 앞으로 그 원인과 적절한 수송온도에 대한 연구가 더 필요하다.

최근 도시 내 급격한 기상 변화로 인한 자연재해가 심각한 사회적 문제로 대두되고 있다. 도시의 자연 환경 변화에 대한 효과적인 예측과 대처를 위해서는 신뢰성 있는 기상 자료의 확보가 매우 중요하다. 이러한 맥락에서 본 연구는 도시의 기상 환경 중 기온에 초점을 맞춰, 보다 정확한 기온 추정을 위한 대안적 방법을 제시하였다. 특히, 시공간 해상도와 정확성을 높이기 위해 원격탐사 자료와 지형 기반 공간 보간법을 결합한 기온 추정 방법을 제시하였으며, 기존의 여러 추정 방법들과 비교·평가함으로써 제시된 추정법의 적용가능성을 검토하였다. 분석 결과, 각 추정 기법을 통한 기온 결과는 기온 추정값의 범위에 있어서는 유사한 결과를 보였지만 기온의 공간적 분포 특성은 매우 상이하게 나타났다. 특히, 원격탐사 자료를 활용하여 추정된 기온 분포는 토지피복 유형에 따른 차이를 잘 보여주며, 본 연구에서 제시한 추정 기법의 결과는 고도에 따른 기온차를 보다 뚜렷하게 보여줬다. 추정의 정확도에 있어서는 원격탐사 자료와 지형 기반 공간 보간법을 결합한 기온 추정 기법이 높은 정확도를 보여줬다. 종합적으로 본 연구에서 제시한 기온 추정 기법은 토지피복 유형과 고도에 따른 기온 변화를 잘 나타내는 동시에 원격탐사 자료를 활용한 기존의 기온 추정 기법들에 비해 정확도가 높아 기온 분포도와 같이 연속적 공간의 기온값을 정확하게 표현하는 데 유용하게 활용될 수 있을 것으로 기대된다.

The resistance of metallic materials to ballistic penetration generally depends on a number of parameters related to projectile, impact, and armor plate. Recently, armor materials have been required to have various properties such as hardness, strength, and impact toughness in order to maintain an excellent ballistic resistance even after impact. In the present study, the influence of tempering on the microstructure and mechanical properties of an ARMOX 500T armor steel plate was investigated and then compared with those of S45C and SCM440 steels. As the tempering temperature increased, the hardness and strength gradually decreased, whereas the ductility and impact toughness clearly increased because the hardness, tensile, and impact properties were affected by the microstructural evolution and precipitation occurring during tempering. On the other hand, temper embrittlement appeared at tempering temperatures of 300 to 400 °C for the impact specimens tested at low temperature.

In this work, p-type Bi−Sb−Te alloys powders are prepared using gas atomization, a mass production powder preparation method involving rapid solidification. To study the effect of the sintering temperature on the microstructure and thermoelectric properties, gas-atomized powders are consolidated at different temperatures (623, 703, and 743 K) using spark plasma sintering. The crystal structures of the gas-atomized powders and sintered bulks are identified using an X-ray diffraction technique. Texture analysis by electron backscatter diffraction reveals that the grains are randomly oriented in the entire matrix, and no preferred orientation in any unique direction is observed. The hardness values decrease with increasing sintering temperature owing to a decrease in grain size. The conductivity increases gradually with increasing sintering temperature, whereas the Seebeck coefficient decreases owing to increases in the carrier mobility with grain size. The lowest thermal conductivity is obtained for the bulk sintered at a low temperature (603 K), mainly because of its fine-grained microstructure. A peak ZT of 1.06 is achieved for the sample sintered at 703 K owing to its moderate electrical conductivity and sustainable thermal conductivity.

We fabricate fine (<20 μm) powders of Bi0.5Sb1.5Te3 alloys using a large-scale production method and subsequently consolidate them at temperatures of 573, 623, and 673 K using a spark plasma sintering process. The microstructure, mechanical properties, and thermoelectric properties are investigated for each sintering temperature. The microstructural features of both the powders and bulks are characterized by scanning electron microscopy, and the crystal structures are analyzed by X-ray diffraction analysis. The grain size increases with increasing sintering temperature from 573 to 673 K. In addition, the mechanical properties increase significantly with decreasing sintering temperature owing to an increase in grain boundaries. The results indicate that the electrical conductivity and Seebeck coefficient (217 μV/K) of the sample sintered at 673 K increase simultaneously owing to decreased carrier concentration and increased mobility. As a result, a high ZT value of 0.92 at 300 K is achieved. According to the results, a sintering temperature of 673 K is preferable for consolidation of fine (<20 μm) powders.