• Title/Summary/Keyword: SiC substrate

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Estimation on Elastic Properties of SiC Ceramic Honeycomb Substrate (SiC 세라믹 하니컴 담체의 탄성 물성치 평가)

  • Cho, Seok-Swoo
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.14 no.12
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    • pp.6106-6113
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    • 2013
  • Automotive three-way catalyst substrate has a cordierite ceramic honeycomb structure. The substrate in the high engine speed range doesn't satisfy the design fatigue life due to the low mechanical properties of cordierite ceramic. SiC ceramic has higher mechanical properties than cordierite ceramic. If the automotive three-way catalyst substrate is made from the SiC ceramic honeycomb structure, the substrate can be prevented from premature failure. In this study, the mechanical properties of SiC ceramic honeycomb substrate were estimated by FEA. The FEA results indicated that the MOR and elastic modulus for the SiC ceramic honeycomb substrate was much higher than those for the cordierite ceramic honeycomb substrate.

Fabrication of SiC Converted Graphite by Chemical Vapor Reaction Method (화학적 기상 반응법에 의한 탄화규소 피복 흑연의 제조 (I))

  • 윤영훈;최성철
    • Journal of the Korean Ceramic Society
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    • v.34 no.12
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    • pp.1199-1204
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    • 1997
  • SiC conversion layer was fabricated by the chemical vapor reaction between graphite substrate and silica powder. The CVR process was carried out in nitrogen atmosphere at 175$0^{\circ}C$ and 185$0^{\circ}C$. From the reduction of silica powder with graphite substrate, the SiO vapor was created, infiltrated into the graphite substrate, then, the SiC conversion layer was formed from the vapor-solid reaction of SiO and graphite. In the XRD pattern of conversion layer, it was confirmed that 3C $\beta$-SiC phase was created at 175$0^{\circ}C$ and 185$0^{\circ}C$. Also, in the back scattered image of cross-sectional conversion layer, it was found that the conversion layer was easily formed at 185$0^{\circ}C$, the interface of graphite substrate and SiC layer was observed. It was though that the coke particle size and density of graphite substrate mainly affect the XRD pattern and microstructure of SiC conversion layer. In the oxidation test of 100$0^{\circ}C$, the SiC converted graphites exhibited good oxidation resistance compared with the unconverted graphites.

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Selective chemical vapor deposition of $\beta$-SiC on Si substrate using hexamethyldisilane/HCl/$H_{2}$ gas system (Hexamethyldisilane/HCl/$H_{2}$ gas system을 이용한 Si 기판에서 $\beta$-SiC의 선택적 화학기상증착)

  • 양원재;김성진;정용선;오근호
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.9 no.1
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    • pp.14-19
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    • 1999
  • Using a single precursor of hexamethyldisilane $(Si_{2}(CH_{3})_{6})$, $\beta$-SiC film was successfully deposited on a Si substrate at $1100^{\circ}C$ by a chemical vapor deposition method. Selectivity of SiC deposition on a Si substrate partially covered with a masking material was investigated by introducing HCl gas into hexamethyldisilane/$H_{2}$ gas system during the deposition. The schedule of the precursor and HCl gas flows was modified so that the selectivity of SiC deposition between a Si substrate and a mask material should be improved. It was confirmed that the selectivity of SiC deposition was improved by introducing HCl gas. Also, the pulse gas flow technique was effective to enhance the selectivity.

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Effects of the Surface Roughness of a Graphite Substrate on the Interlayer Surface Roughness of Deposited SiC Layer (SiC 증착층 계면의 표면조도에 미치는 흑연 기판의 표면조도 영향)

  • Park, Ji Yeon;Jeong, Myung Hoon;Kim, Daejong;Kim, Weon-Ju
    • Journal of the Korean Ceramic Society
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    • v.50 no.2
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    • pp.122-126
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    • 2013
  • The surface roughness of the inner and outer surfaces of a tube is an important requirement for nuclear fuel cladding. When an inner SiC clad tube, which is considered as an advanced Pressurized Water Cooled Reactor (PWR) clad with a three-layered structure, is fabricated by Chemical Vapor Deposition (CVD), the surface roughness of the substrate, graphite, is an important process parameter. The surface character of the graphite substrate could directly affect the roughness of the inner surface of SiC deposits, which is in contact with a substrate. To evaluate the effects of the surface roughness changes of a substrate, SiC deposits were fabricated using different types of graphite substrates prepared by the following four polishing paths and heat-treatment for purification: (1) polishing with #220 abrasive paper (PP) without heat treatment (HT), (2) polishing with #220 PP with HT, (3) #2400 PP without HT, (4) polishing with #2400 PP with HT. The average surface roughnesses (Ra) of each deposited SiC layer are 4.273, 6.599, 3.069, and $6.401{\mu}m$, respectively. In the low pressure SiC CVD process with a graphite substrate, the removal of graphite particles on the graphite surface during the purification and the temperature increasing process for CVD seemed to affect the surface roughness of SiC deposits. For the lower surface roughness of the as-deposited interlayer of SiC on the graphite substrate, the fine controlled processing with the completed removal of rough scratches and cleaning at each polishing and heat treating step was important.

Growth of Transferable Polycrystalline Si Film on Mica Substrate (운모기판을 이용한 다결정 Si 전이막 성장 연구)

  • Park Jin Woo;Eom Ji Hye;Ahn Byung Tae;Jun Young Kwon
    • Korean Journal of Materials Research
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    • v.14 no.5
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    • pp.343-347
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    • 2004
  • We investigated the growth feasibility of polycrystalline Si film on mica substrate for the transfer of the layer to a plastic substrate. The annealing temperature was limited up to $600^{\circ}C$ because of crack development in the mica substrate. Amorphous Si film was deposited on mica substrate by PECVD and was crystallized by furnace annealing. During the annealing, bubbles were formed at the Si/mica interface. The bubble formation was avoided by the Ar-plasma treatment before amorphous Si deposition. A uniform and clean polycrystalline Si film was obtained by coating $NiCl_2$ on the amorphous Si film and annealing at $500^{\circ}C$ for 10 h. The conventional Si lithography was possible on the mica substrate and the devices fabricated on the substrate could be transferred to a plastic substrate.

Epitaxial Growth of $\beta$-SiC Thin Films on Si(100) Substrate without a Carburized Buffer Layer

  • Wook Bahng;Kim, Hyeong-Joon
    • The Korean Journal of Ceramics
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    • v.3 no.3
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    • pp.163-168
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    • 1997
  • Most of heteroepitaxial $\beta$-SiC thin films have been successfully grown on Si(100) adapting a carburizing process, by which a few atomic layers of substrate surface is chemically converted to very thin SiC layer using hydrocarbon gas sources. Using an organo-silicon precursor, bis-trimethylsilymethane (BTMSM, [$C_7H_{20}Si_2$]), heteropitaxial $\beta$-SiC thin films were successfully grown directy on Si substrate without a carburized buffer layer. The defect density of the $\beta$-SiC thin films deposited without a carburized layer was as low as that of $\beta$-SiC films deposited on carburized buffer layer. In addition, void density was also reduced by the formation of self-buffer layer using BTMSM instead of carburized buffer layer. It seems to be mainly due to the characteristic bonding structure of BTMSM, in which Si-C was bonded alternately and tetrahedrally (SiC$_4$).

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Selectivity and Characteristics of $\beta$-SiC Thin Film Deposited on the Masked Substrate (기판-Mask 재료에 따른 $\beta$-SiC 박막 증착의 선택성과 특성 평가)

  • 양원재;김성진;정용선;최덕균;전형탁;오근호
    • Journal of the Korean Ceramic Society
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    • v.36 no.1
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    • pp.55-60
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    • 1999
  • ${\beta}$-SiC thin film was deposited on a Si substrate without buffer layer using a single precursor of Hexamethyldisilane (Si2(CH3)6) by chemical vapor deposition method. HCI gas was introduced into hexamethyldisilane /H2 gas mixture, and the feeding schedule of HCI and precursor gases was modified in order to enhance the selectivity of SiC deposition between a Si substrate and a SiO2 mask. The effect of HCI gas on the surface roughness of the SiC film was investigated and typical electrical properties of the SiC film were also investigated by Hall measurement.

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High Temperature Crystallized Poly-Si on the Molybdenum Substrate for Thin Film Transistor Applications (몰리브덴 기판 위에 고온 결정화된 다결정 실리콘 박막 트랜지스터 특성에 관한 연구)

  • 박중현;김도영;고재경;이준신
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2002.07a
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    • pp.202-205
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    • 2002
  • Polycrystalline silicon thin film transistors (poly-Si TFTs) are used in a wide variety of applications, and will figure prominently future high-resolution, high-performance flat panel display technology However, it was very difficult to fabricate high performance poly-Si TFTs at a temperature lower than 300$^{\circ}C$ for glass substrate. Conventional process on a glass substrate were limited temperature less than 600$^{\circ}C$ This paper proposes a high temperature process above 750$^{\circ}C$ using a flexible molybdenum substrate deposited hydrogenated amorphous silicon (a-Si:H) and than crystallized a rapid thermal processor (RTP) at the various temperatures from 750$^{\circ}C$ to 1050$^{\circ}C$. The high temperature annealed poly-Si film illustrated field effect mobility higher than 30 $\textrm{cm}^2$/Vs, achieved I$\sub$on//I$\sub$off/ current ratio of 10$^4$ and crystall volume fraction of 92%. In this paper, we introduce the new TFTs Process as flexible substrate very promising roll-to-roll process, and exhibit the properties of high temperature crystallized poly-Si Tn on molybdenum substrate.

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Athermalized Polymeric Arrayed-Waveguide Grating by Partial Detachment from a Si Substrate

  • Lee, Jong-Moo;Ahn, Joon-Tae;Park, Sun-Tak;Lee, Myung-Hyun
    • ETRI Journal
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    • v.26 no.3
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    • pp.281-284
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    • 2004
  • We demonstrate a new fabrication method for adjusting the temperature dependence of a polymeric arrayed-waveguide grating (AWG) on a Si substrate. A temperature-dependent wavelength shift of-0.1nm/$^{\circ}C$ in a polymeric AWG on a Si substrate is reduced of+0.1nm/$^{\circ}C$ by detaching part of the polymer film, including the grating channel region of the AWG, from the Si substrate while the other parts remain fixed on the substrate.

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CO Gas Sensing Characteristic of ZnO Thin Film/Nanowire Based on p-type 4H-SiC Substrate at 300℃ (P형 4H-SiC 기판에 형성된 ZnO 박막/나노선 가스 센서의 300℃에서 CO 가스 감지 특성)

  • Kim, Ik-Ju;Oh, Byung-Hoon;Lee, Jung-Ho;Koo, Sang-Mo
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.25 no.2
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    • pp.91-95
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    • 2012
  • ZnO thin films were deposited on p-type 4H-SiC substrate by pulsed laser deposition. ZnO nanowires were formed on p-type 4H-SiC substrate by furnace. Ti/Au electrodes were deposited on ZnO thin film/SiC and ZnO nanowire/SiC structures, respectively. Structural and crystallographical properties of the fabricated ZnO thin film/SiC and ZnO nanowire/SiC structures were investigated by field emission scanning electron microscope and X-ray diffraction. In this work, resistance and sensitivity of ZnO thin film/SiC gas sensor and ZnO nanowire/SiC gas sensor were measured at $300^{\circ}C$ with various CO gas concentrations (0%, 90%, 70%, and 50%). Resistance of gas sensor decreases at CO gas atmosphere. Sensitivity of ZnO nanowire/SiC gas sensor is twice as big as sensitivity of ZnO thin film/SiC gas sensor.