• Title/Summary/Keyword: silica-alumina

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Gas Permeation Characteristics of Silica Membrane Prepared by Ultrasonic Spray Pyrolysis (초음파 분무 열분해법에 의해 합성한 실리카 막의 기체 투과 특성)

  • Lee Kew-Ho;Youn Min-Young;Park Sang-Jin;Lee Dong-Wook;Sea Bongkuk
    • Membrane Journal
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    • v.15 no.2
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    • pp.105-113
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    • 2005
  • Silica membranes were prepared on a porous metal sheet by ultrasonic spray pyrolysis method for gas separation at high temperatures. In order to improve the permselectivity, silica was deposited in the sol-gel derived $silica/\gamma-alumina$ intermediate layer by pyrolysis of tetraethyl orthosilicate (TEOS) at 873 K. The pyrolysis with forced cross flow through the porous wall of the support was very effective in plugging mesopores, Knudsen diffusion regime, that were left unplugged in the membranes. At permeation temperature of 523 K, the silica/alumina composite membrane showed $H_2/N_2$ and water/methanol selectivity as high as 17 and 16, respectively, by molecular sieve effect.

Treatment of Black Dross with Water and NaOH Solution (물과 수산화나트륨용액에 의한 블랙 드로스의 처리)

  • Xing, Wei Dong;Ahn, Byung Doo;Lee, Man Seung
    • Resources Recycling
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    • v.26 no.3
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    • pp.53-60
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    • 2017
  • Black dross contains metallic aluminium, alumina, silica, MgO, soluble salts together with minor ingredients. Control of silica in black dross is important in transforming the black dross into usable materials. First, most of the soluble salts (KCl and NaCl) in black dross were dissolved in water at reaction temperature of $50^{\circ}C$. Leaching behavior of silica, alumina, MgO and $TiO_2$ from the residue after water treatment was investigated by varying NaOH concentration and reaction temperature. Reaction temperature ($25{\sim}95^{\circ}C$) was favorable to the leaching of alumina but an optimum temperature existed for silica. MgO was not dissolved at all in the NaOH concentration range from 2 to 6 M. At the leaching condition of 5 M NaOH and reaction temperature of $95^{\circ}C$, approximately 80% of alumina and 68% of silica was dissolved.

Preparation of Alumina and Amorphous Silica from Clay Minerals (점토광물로부터 알루미나 및 비정질 실리카 제조에 관한 연구)

  • 박희찬;조원제;강효경;손명모
    • Journal of the Korean Ceramic Society
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    • v.26 no.1
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    • pp.81-90
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    • 1989
  • High purity alumina and amorphous silica were prepared from Ha-dong kaolin by means of appliance of sulfuric acid. The effect of sulfuric acid concentration, reaction temperature and reaction time on the formation of aluminum sulfate was investigated. The precipitation conditions ofaluminum sulfate from the sulfuric acid solution with ethanol and ammonium hydroxide were deteremined. In the optimum condition, the conversion of aluminum oxide in kaolin to aluminum oxide powder was 85.0 percent. Alumina powder was prepared by calcination of the precipitates, and its purity was 99.0 percent.

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Effects of Nano-silica/Nano-alumina on Mechanical and Physical Properties of Polyurethane Composites and Coatings

  • Swain, Sarojini;Sharma, Ram Avatar;Bhattacharya, Subhendu;Chaudhary, Lokesh
    • Transactions on Electrical and Electronic Materials
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    • v.14 no.1
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    • pp.1-8
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    • 2013
  • The present approach shows the use of nano-silica/nano-alumina in polyurethane (PU) matrix, which lead to significant improvements in the mechanical and thermal properties of the nano-composite. It is observed that with incorporation of 1% of nano-alumina into the PU matrix, there is an improvement in the tensile strength of around 50%, and for nano-silica the improvement is around 41%, at the same concentration. The morphological data shows that above 3% of the nano particles there are agglomerations in the nanocomposite. Again with the absorption of moisture, there is a decrease in the thermal and mechanical properties of the PU resin, but in this research work it is observed that with the incorporation of the nano particles, in the presence of absorbed moisture there is an improvement in mechanical and thermal properties of the composite, over that of the PU matrix.

Effect of Silica-Alumina Adsorbent on the Efficiency of Paclitaxel Purification (파클리탁셀 정제 효율에 미치는 실리카-알루미나 흡착제의 영향)

  • Oh, Hyeon-Jeong;Jung, Kyeong Youl;Kim, Jin-Hyun
    • Clean Technology
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    • v.19 no.3
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    • pp.342-346
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    • 2013
  • Several types of mesoporous silica-alumina adsorbents with varied $SiO_2/Al_2O_3$ ratios were prepared by spray pyrolysis and were used for the purification of the anticancer agent paclitaxel. When $S_{0.5}A_{0.5}$ (Silica/Alumina molar ratio = 0.5/0.5) was used, the highest purity (~27%) and yield (~63%) of paclitaxel were obtained from adsorbent treatment and hexane precipitation. Removal of impurities was confirmed by TGA analysis of the organic substances that were adsorbed to the adsorbent.

A Study on the Dehydrogenation of Methanol by Alkali-doped Silica-alumina Catalyst (알칼리 금속이 첨가된 silica-alumina 촉매에 의한 메탄올의 탈수소반응의 연구)

  • Kwak, Jong Woon;Park, Jin-Nam;Lee, Ho-In
    • Applied Chemistry for Engineering
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    • v.7 no.4
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    • pp.698-706
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    • 1996
  • Dehydrogenation of methanol to produce formaldehyde was carried out over various silica-alumina catalysts doped with alkali metals in a continuous flow system. The reaction was rather dependent on Lewis acid than Br${\ddot{o}}$nsted acid suggesting that dehydrogenation of methanol was an electronic reaction. The Br${\ddot{o}}$nsted acid sites on silica-alumina were neutralized by doping with alkali metals, and the neutralization effect of Br${\ddot{o}}$nsted acid was dependent on the electron-donating capacity of the dopant metals. Activation energy for dehydrogenation of methanol decreased when Br${\ddot{o}}$nsted acid was neutralized by doping with K.

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Al2O3/Al Composites Fabricated by Reaction between Sintered SiO2 and Molten Al (실리카 소결체와 용융 알루미늄과의 반응에 의한 $Al_2$O$_3$/Al 복합체의 제조)

  • 정두화;배원태
    • Journal of the Korean Ceramic Society
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    • v.35 no.9
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    • pp.923-932
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    • 1998
  • Al2O3/Al composites were produced by displacement reaction method which was carried out by imm-ersing the sintered silica preform which was prepared form fused silica powder in molten aluminu. an ac-tivation energy of 94kJ/mole was calculated from Al-SiO2 reaction data in 1000-130$0^{\circ}C$ temperature range With increase of reaction temperature the alumina particle in the Al2O3/Al composites produced with pur metal Al showed grain growth and the growth of alumina particle in Al2O3/Al composite produced by using of Mg contained Al alloy was inhibited. The flexural strength of Al2O3/Al composites produced at 100$0^{\circ}C$ showed the highest value as 393 MPa. Flexural strength of the composite fabricated at 85$0^{\circ}C$ showed higher deviation than that of the composite produced at above 100$0^{\circ}C$ Low flexural strength of the composite fa-bricated at 120$0^{\circ}C$ due to the growth of pore and alumina particle size. The hardness of composites de-pended on alumina content in Al2O3/Al composite decreased with increasing of aluminium content in case the same alumina content and increased with increasing of silicon content in composite.

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Synthesis of Alumina-Silica ceramic material(II) (알루미나-실리카계 세라믹복합체 제조 연구(II))

  • Kim Cheol-soo;Lee Hyung-Bock
    • Composites Research
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    • v.18 no.6
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    • pp.48-53
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    • 2005
  • In this study, to improve the ballistic efficiency of very brilliant alumina-silica armor material, forming press and sintering temperature were changed. After physical/mechanical measurement, we measured ballistic properties about KE(Kinetic Energy, L/D=10.7, tungsten heavy alloy) and HEAT(High Explosive Anti-Tank, K215) projectiles and analyzed them. As a result, in $1235^{\circ}C$, it appeared the highest ballistic efficiency about HEAT and it improved $22\%$ ballistic efficiency, better than invented alumina-silica armor material before.

ANALYSIS OF RADIOACTIVE IMPURITIES IN ALUMINA AND SILICA USED FOR ELECTRONIC MATERIALS

  • Lee Kil-Yong;Yoon Yoon-Yeol;Cho Soo-Young;Kim Yong-Je;Chung Yong-Sam
    • Nuclear Engineering and Technology
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    • v.38 no.5
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    • pp.423-426
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    • 2006
  • A developed neutron activation analysis(NAA) and gamma-spectrometry were applied to improve the analytical sensitivity and precision of impurities in electronic-circuit raw materials. It is well known that soft errors in high precision electronic circuits can be induced by alpha particles emitted from naturally occurring radioactive impurities such as U and Th. As electronic circuits have recently become smaller in dimension and higher in density, these alpha-particle emitting radioactive impurities must be strictly controlled. Therefore, new NAA methods have been established using a HTS(Hydraulic Transfer System) irradiation facility and a background reduction method. For eliminating or stabilizing fluctuated background caused by Rn-222 and its progeny nuclides in air, a nitrogen purging system is used. Using the developed NAA and gamma-spectrometry, ultra trace amounts of U(0.1ng/g) and Th(0.01ng/g) in an alumina ball and high purity silica used for an epoxy molding compound (EMC) could be determined.

Electrical AC Insulation Breakdown Characteristics of Various Epoxy / Heterogeneous Inorganic Mixed Composite (여러 종류의 에폭시/이종무기물 혼합 콤포지트의 전기적 교류 절연파괴 특성)

  • Park, Jae-Jun
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.67 no.11
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    • pp.1463-1470
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    • 2018
  • In this study, 20 types of samples were prepared by mixing different kinds of inorganic materials to develop insulation materials for epoxy - based GIS substation equipment used under high voltage environmentally friendly insulation gas. One of the electrical characteristics, AC insulation breakdown experiment was performed. As mixing ratio of mixed heterogeneous inorganic materials, the dielectric breakdown strength was increased with increasing filler ratio of micro silica, micro silica : micro Alumina, 1:9, 3:7, 5:5, 7:3, 9:1, and decreased as the filling amount of micro alumina increased. The AC insulation breakdown characteristics were the best when the composition ratio was 9:1. The higher the content of silica, the better the interfacial properties, and the larger the alumina content ratio, the worse the interfacial properties.