• Title/Summary/Keyword: AETB (Alumina Enhanced Thermal Barrier)

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Thermal conductivity of high temperature porous insulation (다공성 고온 절연체의 열전도도 특성)

  • 조장호;김영채;이성철
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.7 no.3
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    • pp.504-513
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    • 1997
  • Ideal candidates for the thermal-protection system of advanced spacecraft like Space Shuttle, are FRCI(Fibrous Refractory Composite Insulation) and AETB(Alumina-Enhanced Thermal Barrier). In the present work, we carried out the mathematical modeling and computer simulation of the thermal response of FRCI to heat, pulse, comparing with that of silica. Also, we calculated the conductivity of FRCI as various variables at the temperature range of 100~2000 K.

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Fabrication of Light-weight Ceramic Insulation Materials by Using Oxide Ceramic Fibers for Reusable Thermal Protection Systems (산화물 세라믹섬유를 이용한 재사용 열보호시스템용 경량 세라믹 단열소재의 제조)

  • Seongwon, Kim;Min-Soo, Nam;Yoon-Suk, Oh;Sahn, Nahm;Jaesung, Shin;Hyeonjun, Kim;Bum-Seok, Oh
    • Journal of Powder Materials
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    • v.29 no.6
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    • pp.477-484
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    • 2022
  • Thermal protection systems (TPS) are a group of materials that are indispensable for protecting spacecraft from the aerodynamic heating occurring during entry into an atmosphere. Among candidate materials for TPS, ceramic insulation materials are usually considered for reusable TPS. In this study, ceramic insulation materials, such as alumina enhanced thermal barrier (AETB), are fabricated via typical ceramic processing from ceramic fiber and additives. Mixtures of silica and alumina fibers are used as raw materials, with the addition of B4C to bind fibers together. Reaction-cured glass is also added on top of AETB to induce water-proof functionality or high emissivity. Some issues, such as the elimination of clumps in the AETB, and processing difficulties in the production of reusable surface insulation are reported as well.