• Title/Summary/Keyword: 기공밀도

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Test method of powder properties for electronic ceramics (전자 세라믹 분체의 특성 평가 방법)

  • 엄우식;이인식
    • Electrical & Electronic Materials
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    • v.8 no.3
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    • pp.372-381
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    • 1995
  • 본 논문에서는 분체 특성 평가 연구의 국제 동향과 입자형태, 입도분포, 비표면적, 분체밀도, 기공도, 화학분석 평가분야의 기본원리, 특히 측정시 변수들의 영향과 이러한 특성변화에 따른 전기적성질 변화에 대하여 간단히 언급을 하였다. 분체 특성평가분야의 연구는 선진국에 비해 낙후되어 있고 관심도 또한 낮은 형편이다. 이 분야의 학문적, 산업적인 중요점을 고려할 때, 분체 특성 평가에 대한 기초 및 응용연구가 활성화되었으면 한다.

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Comparison of Physiological Characteristics, Stomata and DNA Content between Seedling and 5-year-old Somatic Plant (Somatic Embryo Derived-plant) in Liriodendron tulipifera (백합나무 5년생 실생묘 및 체세포묘 (체세포배 유래 식물체) 간의 생리적 요인, 기공 및 DNA 함량 비교)

  • Kim, Yong Wook;Moon, Heung Kyu
    • Journal of Korean Society of Forest Science
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    • v.102 no.4
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    • pp.537-542
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    • 2013
  • Field performance of somatic plants (somatic embryo derived-plants) of yellow-poplar (Liriodendron tulipifera) produced from somatic embryogenesis was compared with that of seedlings at age 5. In comparison of photosynthetic rate (seedling, $10.67{\mu}mol$ $CO_2m^{-2}s^{-1}$; somatic plant, $9.04{\mu}mol$ $CO_2m^{-2}s^{-1}$), stomatal conductance rate (seedling, 0.2 $H_2Om^{-2}s^{-1}$; somatic plant, 0.166 $H_2Om^{-2}s^{-1}$) and respiration rate (seedling, 1.71 mmol $H_2Om^{-2}s^{-1}$; somatic plant, 1.513 mmol $H_2Om^{-2}s^{-1}$), no significant differences were found between plants. The seedlings were a little higher in comparison of stomatal density (seedling, $23.33/mm^2$; somatic plant, $22.43/mm^2$), length (seedling, $25.83{\mu}m$; somatic plant, $23.46{\mu}m$) and width (seedling, $15.87{\mu}m$; somatic plant, $15.3{\mu}m$). In comparison of DNA content of the leaves using flow cytometry, no differences in ploidy level were found between the seedlings and somatic plants.

Development of Porous Support with Mine Waste Materials (광산 폐기물을 활용한 다공성 담체 개발)

  • 정문영;정명채;최연왕
    • Economic and Environmental Geology
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    • v.37 no.1
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    • pp.143-151
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    • 2004
  • This study focused on examining the possibility of recycling mine solid waste as environmental materials, especially for porous media. Basic properties including mineralogical compositions, chemical compositions, and particle size distribution of the tailings from the Sangdong W mine were checked. The mineralogical and chemical compositions of the tailings samples were not much different in depth. According to Korean Standard Leaching Test for Wastes(KSLT), concentrations of heavy metals leached from the tailings were below the standard values. As a result of particle size analysis, the median diameter (d$_{50}$) of the tailings was in the range of 10 to 30 ${\mu}{\textrm}{m}$. The stable tailings slurry made up of 3 ${\mu}{\textrm}{m}$ in d$_{50}$ was prepared using Attrition Mill. The milling condition was 40 vol% in slurry concentration, 700 rpm in stirring speed, and 1 hour in milling time. PEI was added as dispersing agent. Concentrated slurry was extended to 3 times by foaming method. In the case of 3 times foamed slurry, the total and open porosity of ceramic supports sintered at 1,075$^{\circ}C$ for 90 minutes was about 80% and 72%, respectively. Pore size was in the range of 30∼350${\mu}{\textrm}{m}$. Therefore, the tailings could be recycled starting material for environmental materials such as macroporous ceramic support.

Development of Al-SiC Metal Matrix Composites by using Hot Press Forming Technologies (열간가압성형기술을 이용한 Ai-SiC 금속기 복합재료 개발)

  • Jeon, Ho-Jin;Kim, Tae-Won
    • Composites Research
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    • v.20 no.4
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    • pp.9-17
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    • 2007
  • Powder metallurgy has been employed for the development of SiC particle reinforced aluminum metal matrix composites by means of hot isotropic pressing and vacuum hot pressing. A material model based on micro-mechanical approach then has been presented for the processes. Densification occurs by the inelastic flow of matrix materials during the consolidation, and consequently it depends on many process conditions such as applied pressure, temperature and volume fraction of reinforcement. The model is implemented into finite element software so that the process simulation can be performed enabling the predicted relative density to be compared with experimental data. In order to determine the performance of finished products, further tensile test has been conducted using the developed specimens. The effect of internal void of the materials on mechanical properties therefore can be investigated.

Geographic Variation in Needle Characteristics of Pinus densiflora in Korea (우리나라 자생 소나무의 지역에 따른 침엽특성 변이)

  • Shin, Chang-Ho;Kim, Kyu-Sick;Lee, Cheul-Ho
    • Korean Journal of Plant Resources
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    • v.20 no.4
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    • pp.336-341
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    • 2007
  • This study was carried out to investigate geographic variation in needle characteristics of Pinus densiflora, one of the most economically important tree species in Korea. Needles were collected from 35 natural populations and their morphological and anatomical characteristics were studied. ANOVA showed statistically significant differences among populations as well as among individuals within populations in needle length, needle width, number of stomata row, density of stomata in $0.25mm^{2}$, number of serrations in 0.5mm, and number of resin ducts. In all these traits, variance components among individuals within populations were larger than those among populations. The density of stomata in $0.25mm^{2}$ increased as the latitudes and elevations of the populations increased, while the number of serrations in 0.5mm decreased as the decrease of latitudes and elevations. The number of resin ducts was higher in inland populations than in coastal populations. The resin duct index appeared to be higher in western populations than in eastern populations. Cluster analysis based on morphological characteristics divided populations into three groups. The third group was composed of populations selected from the Taebaek mountains. The number of serrations in 0.5mm of this group was lower than that of other two groups, while the density of stomata in $0.25mm^{2}$ was higher.

The Effect of Extrusion Temperature on Microstructure and Thermoelectric Properties of Rapidly Solidified P-type $P-type Bi_{0.5}Sb_{1.5}Te_3$ alloy (급속응고된 $P-type Bi_{0.5}Sb_{1.5}Te_3$ 합금 열전재료의 미세조직과 열전특성에 미치는 압출 온도의 효과)

  • 이영우;천병선;홍순직;손현택
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2001.11a
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    • pp.28-28
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    • 2001
  • $Bi_2Te_3$계 열전반도체 재료는 200 ~ 400K 정도의 저온에서 에너지 변환 효율이 가장 높은 재료로서 열전냉각 및 발전재료로 제조볍 및 특성에 관한 많은 연구가 진행되어 왔다. 전자냉각 모듈의 제조에는 P형 및 N형 $Bi_2Te_3$계 단결정이 주로 사용되고 있으나. $Bi_2Te_3$ 단결정은 C축에 수직한 벽개면을 따라 균열이 쉽게 전파하기 때문에 소자 가공사 수윤 저하가 가장 큰 문제점으로 지적되고 있다. 이에 따라 최근 열전재료의 가공방법에 따른 회수율 증가 및 열전특성 향상에 관한 열간압출, 단조와 같은 연구가 활발히 이루어지고 있다. 본 연구는 가스분사법(gas atomizer)을 이용하여 용질원자 편석의 감소, 고용도의 증가,균일고용체 형성, 결정립미세화 둥 급속응고의 장점을 이용하여 화학적으로 균질한$Bi_2Te_3$계 열전재료 분말을 제조하고, 제조된 분발을 압출가공하여 기계적성질, 소자의 가공성 및 열전 성능 지수율 향상시키는데 연구 목적이 있다. 본 설험에서는 99.9%이상의 고순도 Bi. Te. Se. Sb를 이용하여, 고주파 유도로에서 Ar 분위기로 용융하고, 가스분사법를 이용하여 균질한 $Bi_2Te_3$계 열전재료 분만을 제조하였다. 분말표면의 산화막을 제거하기 위하여 수소분위기에서 환원처리를 행하였고, 된 분말을 Al 캔 주입하여 냉간성형 한 후 진공중에서 압출온도를 변화시켜 열간압출 가공을 행하였다. 압출 온도변화에 따른 압출재의 미세조직 및 열전특성에 중요한 영향을 미치는 C면 배향에 대한 결정방위 해석, 압출재의 압축강도 등을 분석하였으며, 압출온도에 따삼 미세조직 변화와 결정방위의 변화에 따른 열전특성의 관계를 해석하였다성시켰고 이들이 산인 HNO3에서 녹았기 때문이다. 본 연구에서 개발된 새로운 에칭 용액인 90H2O2 - 10HNO3 (vol%)의 에칭 원리가 똑같이 적용 가능한 다른 종류의 초경 합금에서도 사용이 가능할 것으로 판단된다.로 판단된다.멸과정은 다음과 같다. 출발물질인 123 분말이 211과 액상으로 분해될 때 산소가스가 배출되며, 이로 인해 액상에서 구형의 기공이 생성된다. 이들 중 일부는 액상으로 채워져 소멸되나, 나머지는 그대로 남는다. 특히, 시편 중앙에 서는 수십-수백 마이크론 크기의 커다란 기공이 다수 관찰된는데, 이는 기공의 합체로 만들어진 것이다. 포정반응 열처리 시 기공 소멸로 만들어진 액상포켓들은 주변 211 입자와 반응하여 123 영역으로 변한다. 이곳은 다른 지역과 비교하여 211 밀도 가 낮기 때문에, 미반응 액상이 남거나 211 밀도가 낮은 123 영역이 된다. 액상으로 채워지지 못한 구형의 기공들 중 다수가 123 결정 내로 포획되며, 그 형상은 액상/ 기공/고상 계면에너지에 의해 결정된다.단의 경우, 파단면이 매끄럽고 파변상의 결정립도 매우 미세하였으며, 산확물 의 용집도 찾아보기 어려웠 나, 접합부 파단의 경우에는 파변의 굴곡이 비교척 심하고 연성 입계파괴의 형태를 보였£며, 결정립도 모채부 파단의 경우에 비해 조대하였다. 조대하였다. 셋째, 주상기간 중 총 에너지 유입률 지수와 $Dst_{min}$ 사이에 높은 상관관계가 확인되었다. 특히 환전류를 구성하는 주요 입자의 에너지 영역(75~l13keV)에서 가장 높은(0.80) 상관계수를 기록했다. 넷째, 회복기 중에 일어나는 입자들의 유입은 자기폭풍의 지속시간을 연장시키는 경향을 보이며 큰 자기폭풍일수록 현저했다. 주상에서 관측된 이러한 특성은 서브스톰 확장기 활동이 자기폭풍의

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Influence of the Micropore Structures of PAN-based Activated Carbon Fibers on Nerve Agent Simulant Gas (DMMP) Sensing Property (PAN계 활성탄소섬유의 미세기공 구조가 신경작용제 유사가스(DMMP) 감응 특성에 미치는 영향)

  • Kang, Da Hee;Kim, Min-Ji;Jo, Hanjoo;Choi, Ye Ji;Lee, Young-Seak
    • Applied Chemistry for Engineering
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    • v.29 no.2
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    • pp.191-195
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    • 2018
  • In this study, the influence of microporous structures of activated carbon fibers (ACFs) on dimethyl methylphosphonate (DMMP) gas sensing properties as a nerve agent simulant was investigated. The pore structure was given to carbon fibers by chemical activation process, and an electrode was fabricated for gas sensors by using these fibers. The PAN based ACF electrode, which is an N-type semiconductor, received electrons from a reducing gas such as DMMP, and then electrical resistance of its electrode finally decreased because of the reduced density of electron holes. The sensitivity of the fabricated DMMP gas sensor increased from 1.7% to 5.1% as the micropore volume increased. It is attributed that as micropores were formed for adsorbing DMMP whose molecular size was 0.57 nm, electron transfer between DMMP and ACF was facilitated. In conclusion, it is considered that the appropriate pore structure control of ACFs plays an important role in fabricating the DMMP gas sensor with a high sensitivity.

Characterization of Biomass-Based Foam Structures for Home-Meal-Replacement Containers (가정간편식 용기용 바이오매스 기반 발포구조체의 특성에 관한 연구)

  • Kim, Inae;Kim, Sumin;Kambiz, Sadeghi;Han, Jeonggu;Hwang, Kiseop;Kwon, Hyukjoon;Kim, Yongsu;Yoo, Seung Ran;Seo, Jongchul
    • KOREAN JOURNAL OF PACKAGING SCIENCE & TECHNOLOGY
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    • v.26 no.2
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    • pp.77-83
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    • 2020
  • A series of foamed plastic sheets containing biomass (as HMR container) were developed via different foaming process temperatures, and their density, porosity, WVTR, and pore morphology were evaluated. Thermal stability of samples during re-heating the food in oven, change in morphology, density, porosity, and WVTR were investigated using a simulated thermal shock process according to MIL-STD-883E assay. As such, the pore size of samples was generally increased with increasing temperature of the foaming process. It can be explained that as foaming temperature increased, the viscosity of molten resins and the repulsive force against pore expansion decreased. In addition, an increase in the thermal shock cycle reduced the pore size and WVTR, while density increased because high temperature treatment that softened the sheet matrix was followed by a low temperature incubation, which contracted the matrix, thereby changing the physical and morphological properties of samples. However, an insignificant change in density was observed and WVTR tended to be decreased, indicating that as-prepared foamed plastic sheets could be used as a high thermal stable container for HMR application. Therefore, it found that the properties of newly developed HMR containers containing biomass were dependent on the foaming process temperature. Moreover, to better understanding of these newly developed containers, further investigations dealing with foaming process temperature based on various food items and cooking conditions are needed.

Thermal properties of silica fume-SiO2 based porous ceramic fabricated by using foaming method (직접 발포법을 이용해 제조된 실리카 흄-SiO2계 다공성 세라믹의 열적 특성)

  • Ha, Taewan;Kang, Seunggu;Kim, Kangduk
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.31 no.4
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    • pp.182-189
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    • 2021
  • Porous ceramics were manufactured using the foaming method for the development of inorganic insulating materials. Silica fume and SiO2 were used as main raw materials, and bentonite was used as a rapid setting agent for uniform structure formation of porous ceramics. The porous ceramics were sintered at 1200℃, and porosity, density, compressive strength, microstructure and thermal conductivity were analyzed. As the content of silica fume to SiO2 of the porous ceramics increased 70 to 90 %, the specific gravity increased from 0.63 to 0.69, and the compressive strength increased from 9.41 Mpa to 12.86 Mpa. But, the porosity showed a tendency to decrease from 72.07 % to 70.82 %, contrary to the specific gravity. As a result of measuring the thermal conductivity, the porous ceramic with a silica fume content of 70 % showed a thermal conductivity of 0.75 to 0.72 W/m·K at 25 to 800℃, respectively, and, another that a silica fume content of 90 % showed a 0.66~0.86 W/m·K. So the lower the silica f ume content, the lower the thermal conductivity, which was conf irmed to be consistent with porosity result. As a result of microstructure analysis using SEM (Scanning Electron Microscope), pores in the range of tens to hundreds ㎛ were observed inside and outside the porous ceramic, and it was confirmed that the pore distribution was relatively uniform.

Fabrication and Physical Properties of Tiles Recycled Waste Glass (폐유리를 재활용한 타일 제조 및 물리적 특성)

  • Kim, Young-Kil;Jung, Yeon-Gil;Song, Jun-Baek;Shin, Min-Chul;Lee, Hee-Soo
    • Journal of the Korean Ceramic Society
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    • v.42 no.3 s.274
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    • pp.193-197
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    • 2005
  • Wall and floor tiles were fabricated by a dry pressing method using waste glass and clay. The physical properties of the tiles such as absorption, bulk density, porosity, compressive strength, and abrasion loss are investigated with the firing temperature and glass contents. The physical properties are improved with increasing the firing temperature and glass contents. The composition containing the glass of $70 wt%$ and fired at $1050^{\circ}C$ for 2 h has the good properties. The optimal properties obtained in the tiles are the water absorprion of about $0.9\%$, the bulk density of about $2.3\;g/cm^3$, the apparent porosity of about $2.1 \%$, the compressive strength of about 210 MPa, and the abrasion loss of about 0.022 g, when the composition containing the glass of $70\;wt\%$ is fired at $1050^{\circ}C$. The physical proper1ies of tiles fabricated were enhanced compared to the commercial clay tiles, due to easy melting and densification of glassy phase during the firing process.