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    Journals >Bulletin of the Chinese Ceramic Society >Volume 41 >Issue 5 >Page 1813 > Article
    • Bulletin of the Chinese Ceramic Society
    • Vol. 41, Issue 5, 1813 (2022)
    High Temperature Hydrophobic Modification and Failure Mechanism of Silica Aerogel Thermal Insulation Composites
    HE Hui1、2, JIANG Yonggang2, ZHANG Zhongming1, FENG Junzong2, LI Liangjun2, and FENG Jian2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: Cite this Article
    HE Hui, JIANG Yonggang, ZHANG Zhongming, FENG Junzong, LI Liangjun, FENG Jian. High Temperature Hydrophobic Modification and Failure Mechanism of Silica Aerogel Thermal Insulation Composites[J]. Bulletin of the Chinese Ceramic Society, 2022, 41(5): 1813 Copy Citation Text show less
    References

    [1] LU X, ARDUINI-SCHUSTER M C, KUHN J, et al. Thermal conductivity of monolithic organic aerogels[J]. Science, 1992, 255(5047): 971-972.

    [2] RAO A P, RAO A V, PAJONK G M. Hydrophobic and physical properties of the ambient pressure dried silica aerogels with sodium silicate precursor using various surface modification agents[J]. Applied Surface Science, 2007, 253(14): 6032-6040.

    [3] HRUBESH L W. Aerogel applications[J]. Journal of Non-Crystalline Solids, 1998, 225: 335-342.

    [4] HOU Y H, ZHONG X, DING Y Y, et al. Alginate-based aerogels with double catalytic activity sites and high mechanical strength[J]. Carbohydrate Polymers, 2020, 245: 116490.

    [5] CHENG Y, ZHAO H Q, LV H L, et al. Lightweight and flexible cotton aerogel composites for electromagnetic absorption and shielding applications[J]. Advanced Electronic Materials, 2020, 6(1): 1900796.

    [6] CAI H F, JIANG Y G, FENG J, et al. Preparation of silica aerogels with high temperature resistance and low thermal conductivity by monodispersed silica sol[J]. Materials & Design, 2020, 191: 108640.

    [12] BHAGAT S D, KIM Y H, MOON M J, et al. A cost-effective and fast synthesis of nanoporous SiO2 aerogel powders using water-glass via ambient pressure drying route[J]. Solid State Sciences, 2007, 9(7): 628-635.

    [13] RAO A V, KIM S Y, YOO K P. Low-density, hydrophobic aerogels[J]. Journal of Non-Crystalline Solids, 1995, 186: 18-22.

    [16] LEE C J, KIM G S, HYUN S H. Synthesis of silica aerogels from waterglass via new modified ambient drying[J]. Journal of Materials Science, 2002, 37(11): 2237-2241.

    [21] XIAO L J, DENG M, ZENG W G, et al. Novel robust superhydrophobic coating with self-cleaning properties in air and oil based on rare earth metal oxide[J]. Industrial & Engineering Chemistry Research, 2017, 56(43): 12354-12361.

    [26] HU L Y, SONG X F, JIN D L, et al. A robust quasi-superhydrophobic ceria coating prepared using air-plasma spraying[J]. Journal of the American Ceramic Society, 2019, 102(3): 1386-1393.

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    HE Hui, JIANG Yonggang, ZHANG Zhongming, FENG Junzong, LI Liangjun, FENG Jian. High Temperature Hydrophobic Modification and Failure Mechanism of Silica Aerogel Thermal Insulation Composites[J]. Bulletin of the Chinese Ceramic Society, 2022, 41(5): 1813
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