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    Journals >Journal of Inorganic Materials >Volume 35 >Issue 4 >Page 399 > Article
    • Journal of Inorganic Materials
    • Vol. 35, Issue 4, 399 (2020)
    Development and Prospects of High Strength Pre-stressed Ceramics
    Yiwang BAO1,2, Yi SUN2, Fenghua KUANG1, Yueming LI2, and Detian WAN1,2
    Author Affiliations
  • 1State Key Laboratory of Green Building Materials, China Building Materials Academy, Beijing 100024, China
  • 2School of Materials Science and Engineering, Jingdezhen Ceramic Institute, Jingdezhen 333403, China
    • show less
    DOI: 10.15541/jim20190360 Cite this Article
    Yiwang BAO, Yi SUN, Fenghua KUANG, Yueming LI, Detian WAN. Development and Prospects of High Strength Pre-stressed Ceramics[J]. Journal of Inorganic Materials, 2020, 35(4): 399 Copy Citation Text show less
    Microstructures of A (a), M (b) and N (c) compacts, and mechanical properties of SiC compacts (d)[25]
    1. Microstructures of A (a), M (b) and N (c) compacts, and mechanical properties of SiC compacts (d)[25]
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    SEM photomicrographs of different compositions (a-d) and formation process of the mullite whisker network (e)[37]
    2. SEM photomicrographs of different compositions (a-d) and formation process of the mullite whisker network (e)[37]
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    Application of prestressing technology (a-c) and stress distribution diagrams in glass (d)
    3. Application of prestressing technology (a-c) and stress distribution diagrams in glass (d)
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    Schematic diagram of the laminated composites (a), microstructures of different structural composites (b-g) and mechanical properties of different laminate samples (h)[47]
    4. Schematic diagram of the laminated composites (a), microstructures of different structural composites (b-g) and mechanical properties of different laminate samples (h)[47]
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    Comparisons of impact resistance and armor piercing resistance between pre-stressed and unpre-stressed ceramics[50]
    5. Comparisons of impact resistance and armor piercing resistance between pre-stressed and unpre-stressed ceramics[50]
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    Schematic of pre-stressing distribution in the ceramic composites
    6. Schematic of pre-stressing distribution in the ceramic composites
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    Pre-stressed ceramics samples(a, c), SEM images(b, d)[51] and Ashby diagram(e)[52]
    7. Pre-stressed ceramics samples(a, c), SEM images(b, d)[51] and Ashby diagram(e)[52]
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    Content of fiber28vol%32vol%43vol%55vol%
    Density /(g·cm-3)(2.69±0.01)(2.55±0.02)(2.44±0.04)(2.27±0.03)
    Open porosity/ %(2.47±0.09)(2.95±0.01)(4.31±0.04)(4.85±0.03)
    Bending stress/MPa(198±37)(259±43)(325±35)(500±11)
    Table 1. Mechanical properties of composites with different fiber contents[36]
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    Abstract
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    References (47)
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    Yiwang BAO, Yi SUN, Fenghua KUANG, Yueming LI, Detian WAN. Development and Prospects of High Strength Pre-stressed Ceramics[J]. Journal of Inorganic Materials, 2020, 35(4): 399
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