• Title/Summary/Keyword: aluminum oxide particle

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Reaction Characteristics Study of Aluminum-Copper(II) Oxide Composites Initiated by the Electrostatic Discharge (Aluminum-Copper(II) Oxide Composite의 정전기에 의한 반응 특성 연구)

  • Kim, Minjun;Kim, Sung Ho;Kim, Jayoung;Im, Yeseul
    • Journal of the Korea Institute of Military Science and Technology
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    • v.21 no.5
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    • pp.591-598
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    • 2018
  • The reaction characteristics of aluminum-copper(II) oxide composites initiated by the electrostatic discharge were studied as changing the aluminum particle size. Three different sizes of aluminum particles with nano-size copper(II)-oxide particle were used in the study. These composites were manufactured by two methods i.e. a shock-gel method and a self-assembly method. The larger aluminum particle size was, the less sensitive and less violent these composites were based on the electrostatic test. On the analysis of high speed camera about ignition appearances and burning time, the burning speed was faster when aluminum particle size was smaller.

Modeling of the Ignition and Combustion of Single Aluminum Particle (단일 알루미늄 연료 입자의 점화 및 연소 모델링)

  • Yang, Hee-Sung;Lim, Ji-Hwan;Kim, Kyung-Moo;Lee, Ji-Hyung;Yoon, Woong-Sup
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2008.05a
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    • pp.187-192
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    • 2008
  • A simplified model for an isolated aluminum particle burning in air is presented. Burning process consists of two stages, ignition and quasi-steady combustion (QSC). In ignition stage, aluminum which is inside of oxide film melts owing to the self heating called heterogeneous surface reaction (HSR) as well as the convective and radiative heat transfer from ambient air until the particle temperature reaches melting point of oxide film. In combustion stage, gas phase reaction occurs, and quasi-steady diffusion flame is assumed. For simplicity, 1-dimesional spherical symmetric condition and flame sheet assumption are also used. Extended conserved scalar formulations and modified Shvab-Zeldovich functions are used that account for the deposition of metal oxide on the surface of the molten aluminum. Using developed model, time variation of particle temperature, masses of molten aluminum and deposited oxide are predicted. Burning rate, flame radius and temperature are also calculated, and compared with some experimental data.

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Microstructure and Mechanical Properties of Ni3Al Matrix Composites with Fine Aluminum Oxide by PM Method

  • Han, Chang-Suk;Choi, Dong-Nyeok
    • Korean Journal of Materials Research
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    • v.28 no.9
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    • pp.495-498
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    • 2018
  • Intermetallic compound matrix composites have been expected to be established as high temperature structural components. $Ni_3Al$ is a representative intermetallic alloy, which has excellent ductility even at room temperature by adding certain alloying elements. $Ni_3Al$ matrix composites with aluminum oxide particles, which are formed by the in-situ reaction between the alloy and aluminum borate whiskers, are fabricated by a powder metallurgical method. The addition of aluminum borate whiskers disperses the synthetic aluminum oxide particles during sintering and dramatically increases the strength of the composite. The uniform dispersion of reaction synthesized aluminum oxide particles and the uniform solution of boron in the matrix seem to play an important role in the improvement in strength. There is a dramatic increase in strength with the addition of the whisker, and the maximum value is obtained at a 10 vol% addition of whisker. The $Ni_3Al$ composite with 10 vol% aluminum oxide particles $0.3{\mu}m$ in size and with 0.1 wt% boron powder fabricated by the conventional powder metallurgical process does not have such high strength because of inhomogeneous distribution of aluminum oxide particles and of boron. The tensile strength of the $Ni_3Al$ with a 10 vol% aluminum borate whisker reaches more than twice the value, 930 MPa, of the parent alloy. No third phase is observed between the aluminum oxide and the matrix.

Collodial Properties and Acid Consuming Capacity of Hydrous Aluminum Oxide Suspension (제산제 알루미나수화물의 콜로이드성과 제산능)

  • 이계주;이기명
    • YAKHAK HOEJI
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    • v.35 no.4
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    • pp.277-282
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    • 1991
  • Rheological, colloidal and micromeritical properties were followed to investigate aging mechanisms of hydrous aluminum oxide suspension using Zeta-meter systems, BET adsorption apparatus, Master sizer and electronmicroscope. The results indicate that hydrous aluminum oxide suspension revealed plastic flow with thixotropy. The viscosity, thixotropy and yield value were increased with increasing concentration. During aging process, the viscosity and thixotropic index were increased by an addition of glycerin, however, sorbitol stabilized aging process of the suspension being accompanied with growth of particle size and reduction in specific surface area, pore area and pore volume, and consistency. Diminution of adsorptive power of the particles was also protected by addition of sorbitol to hydrous aluminum oxide suspension. From these results, one of aging mechanism of hydrous aluminum oxide suspension assumed growth and/or crystallization of colloidal particles in aqueous suspension.

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The studies on synthesis of aluminum oxide and boron oxide co-doped zinc oxide(AZOB) powder by spray pyrolysis (분무열분해법(Spray Pyrolysis)에 의한 알루미늄 산화물과 보론 산화물이 함께 도핑된 산화아연(AZOB: $Al_2O_3$ and $B_2O_3$ Co-doped Zinc Oxide)의 분말 제조에 대한 연구)

  • Kim, Sang Hern
    • Journal of the Korean Applied Science and Technology
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    • v.31 no.4
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    • pp.731-739
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    • 2014
  • Aluminum and boron co-doped zinc-oxide(AZOB) powders as transparent conducting oxide(TCO) were prepared by spray pyrolysis at $900^{\circ}C$. The micron-sized AZOB particles were prepared by spray pyrolysis from aqueous precursor solutions for aluminium, boron, and zinc. The micron-sized AZOB particle after the spray pyrloysis underwent post-heat treatment at $700^{\circ}C$ for 2 hours and it was changed fully to nano-sized AZOB particle by ball milling for 24 hours. The size of primary AZOB particle by Debye-Scherrer Equation and surface resistance of AZOB pellet were measured.

Parametric Studies on the Sensitivity of Single Isolated Aluminum Particle Combustion Modeling (알루미늄 입자 연소 지배인자의 민감도 해석)

  • Lee, Sang-Hyup;Ko, Tae-Ho;Yang, Hee-Sung;Yoon, Woong-Sup
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.11a
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    • pp.321-327
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    • 2010
  • A simplified analytical modeling for micro-sized single metal particle combustion in air was conducted in the present study. The metal particle combustion consists of two distinct reaction regimes, ignition and quasi-steady burning, and the thermo-fluidic phenomena in each stage are formulated by virtue of the conservation and transport equations. Reliability of the model is shown by rigorous validation of the method with emphasis laid on the characterizing the commanding parameters. Effects of Initial particle size, initial oxide film thickness, convection, ambient pressure and temperature are examined and addressed with validation.

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A STUDY ON THE BOND STRENGTH OF HEAT-CURING ACRYIC RESIN BONDED TO A SURFACE OF CASTED ALLOY (주조 금속 표면과 열 중합 수지 표면간의 결합 강도에 관한 연구)

  • Lee, Yong-Seok;Chang, Ik-Tae
    • The Journal of Korean Academy of Prosthodontics
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    • v.34 no.3
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    • pp.620-631
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    • 1996
  • Bonding of resin to cast alloy has traditionally been provided by mechanical retention. But, chemical bonding methods such as silicoating, tin plating, heat treatment, application of 4-META adhesives, have been developed to overcome the problems of the mechanical bonding methods. Silicoating has been used availaby in fixed prosthodontics, but is also reported to be used in removable prosthodontics. The aim of this study is to measure the tensile bond strength between resin and metal, and compare the effect of the type of metal and the grain size of the aluminum oxide on the bond strength, after metal surface roughening, coating of the opaque resin, and curing of heat-curing resin were performed. The test groups were divided into 4 groups according to the cast alloys and the aluminum oxide particles used. Group 1 : Type 4 gold alloy(DM66) blasted with $$50{\mu}m\;Al_{2}O_3$$ Group 2 : Type 4 gold alloy(DM66) blasted with $$250{\mu}m\;Al_{2}O_3$$, Group 3 : Co-Cr alloy(Nobilium) blasted with $$50{\mu}m\;Al_{2}O_3$$ Group 4 : Co-Cr alloy(Nobilium) blasted with $$250{\mu}m\;Al_{2}O_3$$ * 10 test specimens were made on each group. The specimens were thermocycled, and Instron Universal testing machine was used to measure the tensile bond strength of the finished specimens. The results were as follows : 1. Bond strengths showed that the group of gold alloy blasted with $250{\mu}m$ aluminum oxide particle had higher bond strength, and the group of gold alloy blasted with $50{\mu}m$ aluminum oxide particles had lower bond strength than any of the other groups. 2. Gold alloy had significantly higher bond strength when blasted with $250{\mu}m$ aluminum oxide particles than $50{\mu}m$, but. Co-Cr alloy showed no statistically significant difference between the two particle sizes. 3. When blasted with $50{mu}m$ aluminum oxide particles, Co-Cr alloy showed significantly higher bond strength than gold alloy. And, when blasted with $250{\mu}m$ aluminum oxide particles, gold alloy had significantly higher bond strength than Co-Cr alloy. 4. On the examination of the fractured sites, only the group of Co-Cr alloy blasted with $50{\mu}m$ aluminum oxide particles showed a part of residual opaque resin, but all the samples of the other groups fractured between the resin and the metal.

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Cold Compaction Behavior of Nano and Micro Aluminum Powder under High Pressure

  • Kim, Dasom;Park, Kwangjae;Kim, Kyungju;Cho, Seungchan;Hirayama, Yusuke;Takagi, Kenta;Kwon, Hansang
    • Composites Research
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    • v.32 no.3
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    • pp.141-147
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    • 2019
  • In this study, micro-sized and nano-sized pure aluminum (Al) powders were compressed by unidirectional pressure at room temperature. Although neither type of Al bulk was heated, they had a high relative density and improved mechanical properties. The microstructural analysis showed a difference in the process of densification according to particle size, and the mechanical properties were measured by the Vickers hardness test and the nano indentation test. The Vickers hardness of micro Al and nano Al fabricated in this study was five to eight times that of ordinary Al. The grain refinement effect was considered to be one of the strengthening factors, and the Hall-Petch equation was introduced to analyze the improved hardness caused by grain size reduction. In addition, the effect of particle size and dispersion of aluminum oxide in the bulk were additionally considered. Based on these results, the present study facilitates the examination of the effect of particle size on the mechanical properties of compacted bulk fabricated by the powder metallurgy method and suggests the possible way to improve the mechanical properties of nano-crystalline powders.

Aluminum Coating on A12O3 Powders in Fluidized Bed Reactor at Atmospheric Pressure (유동반응관을 이용한 상압에서의 알루미나 분말의 알루미늄 증착)

  • 강창용
    • Journal of Powder Materials
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    • v.1 no.1
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    • pp.21-26
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    • 1994
  • Aluminum was deposited on aluminum oxide powders using a fluidized bed reactor at atmospheric pressure. The aluminum oxide powders were irregular flakes with acute angles and the average particle size was 26 $\mu\textrm{m}$. The fluidized bed was formed by flowing argon gas at the velocity of 60 cm/sec. The optimal fluidization condition was obtained with the reactor designed to be tapered so that the fluid velocity decreases as the fluidizing gas goes up along the reactor. Aluminum was deposited by flowing TiBA(Triisobutylaluminum) evaporated at$250^{\circ}C$ through the fluidized bed reactor heated to 350~$450^{\circ}C$. The result from the analysis by XRD and EDAX confirmed the coating of aluminum and an SEM micrograph showed the conformality.

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진공 공정장비부품의 평가 연구

  • Song, Je-Beom;Sin, Jae-Su;Gang, Sang-U;Kim, Jin-Tae;Sin, Yong-Hyeon;Yun, Ju-Yeong
    • Proceedings of the Korean Vacuum Society Conference
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    • 2011.02a
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    • pp.33-33
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    • 2011
  • 반도체 산업기술이 발달함에 따라 고청정 공정 환경이 요구되고 있으며, 반도체 공정용 장비에 이용되는 부품 중 양극산화피막법(Anodizing)으로 피막을 성장시킨 anodic aluminum oxide (AAO)부품은 플라즈마에 의해 화학적, 물리적 침식이 발생하여 코팅막과 모재에 손상을 일으키며 코팅막이 깨지거나 박리되면서 다량의 Particle이 생성됨으로써 공정상의 여러 가지 문제를 야기 시킨다고 알려져 있다. 하지만 코팅막을 평가하는 방법은 거의 전무하며 기본물성 측정방법인 피막두께, 내전압, 임피던스, 내식성 측정방법을 통하여 여러 기본물성측정방법으로 부품의 평가기술을 연구하였다. 본 연구에서는 이러한 진공 부품의 하나인 anodic aluminum oxide (AAO)부품샘플을 누설전류 및 내전압 측정하여 샘플의 전기적 특성을 측정하였고, 표면 미세구조의 변화를 관찰하였다. 부식실험으로는 HCl 가스를 발생시켜 부식정도를 알아봤으며, 부식처리와 플라즈마 처리 모두 코팅 막의 손상과 전기적 특성의 감소를 보였다. 진공장비 전극 부품평가의 유익한 평가 항목으로서 플라즈마 데미지를 주는 도중에 실시간으로 부품평가에 따른 Particle을 측정함으로써 ISPM 장비를 이용하여 진공 장비용 코팅부품이 플라즈마공정에서 발생하는 오염입자를 측정할 수 있는 방법을 연구하였다. 이러한 결과를 이용하여 진공공정에서 사용되는 코팅부품이 플라즈마에 의한 손상정도를 정량화 하고 평가방법을 개발하여 진공장비용 공정 중 실시간으로 부품의 성능평가가 가능하고 코팅부품 신뢰성 향상이 가능할 것으로 본다.

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