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    Comparison of the Oxidation Protection of HfB2 Based Ultra‐High Temperature Ceramics by the Addition of SiC or MoSi2.

    New search for: Kriven, Waltraud M.
    New search for: Zhu, Dongming
    New search for: Moon, Kyoung II
    New search for: Hwang, Taejin
    New search for: Wang, Jingyang
    New search for: Lewinsohn, Charles
    New search for: Zhou, Yanchun
    New search for: Carney, C.M.
    New search for: Key, T.S.

    Oxidation resistance tests were conducted on HfB2‐SiC and HfB2‐MoSi2 samples using direct electrical resistance heating at 1750, 1950 and 2490°C. Analysis of the formed oxide scales showed a distinct difference between the two silicon bearing additives to HfB2. SiC formed a layered oxide scale of HfO2 and SiO2, offering oxidation protection at 1750°C and a nonadherent scale at 1950°C. MoSi2 promotes a mixed scale of SiO2, HfO2, and molybdenum oxides and borides at all temperatures that remained adherent to the bulk up to 2490°C. Comparison and evaluation of oxide scales showed the improved adherence performance of HfB2‐MoSi2 when compared to HfB2‐SiC.

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    Comparison of the Oxidation Protection of HfB2 Based Ultra‐High Temperature Ceramics by the Addition of SiC or MoSi2.

    New search for: Kriven, Waltraud M.
    New search for: Zhu, Dongming
    New search for: Moon, Kyoung II
    New search for: Hwang, Taejin
    New search for: Wang, Jingyang
    New search for: Lewinsohn, Charles
    New search for: Zhou, Yanchun
    New search for: Carney, C.M.
    New search for: Key, T.S.

    Oxidation resistance tests were conducted on HfB2‐SiC and HfB2‐MoSi2 samples using direct electrical resistance heating at 1750, 1950 and 2490°C. Analysis of the formed oxide scales showed a distinct difference between the two silicon bearing additives to HfB2. SiC formed a layered oxide scale of HfO2 and SiO2, offering oxidation protection at 1750°C and a nonadherent scale at 1950°C. MoSi2 promotes a mixed scale of SiO2, HfO2, and molybdenum oxides and borides at all temperatures that remained adherent to the bulk up to 2490°C. Comparison and evaluation of oxide scales showed the improved adherence performance of HfB2‐MoSi2 when compared to HfB2‐SiC.

    Access

    Check access
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    Order at Subito €

    Comparison of the Oxidation Protection of HfB2 Based Ultra‐High Temperature Ceramics by the Addition of SiC or MoSi2.

    New search for: Kriven, Waltraud M.
    New search for: Zhu, Dongming
    New search for: Moon, Kyoung II
    New search for: Hwang, Taejin
    New search for: Wang, Jingyang
    New search for: Lewinsohn, Charles
    New search for: Zhou, Yanchun
    New search for: Carney, C.M.
    New search for: Key, T.S.

    Oxidation resistance tests were conducted on HfB2‐SiC and HfB2‐MoSi2 samples using direct electrical resistance heating at 1750, 1950 and 2490°C. Analysis of the formed oxide scales showed a distinct difference between the two silicon bearing additives to HfB2. SiC formed a layered oxide scale of HfO2 and SiO2, offering oxidation protection at 1750°C and a nonadherent scale at 1950°C. MoSi2 promotes a mixed scale of SiO2, HfO2, and molybdenum oxides and borides at all temperatures that remained adherent to the bulk up to 2490°C. Comparison and evaluation of oxide scales showed the improved adherence performance of HfB2‐MoSi2 when compared to HfB2‐SiC.

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    Title:

    Comparison of the Oxidation Protection of HfB2 Based Ultra‐High Temperature Ceramics by the Addition of SiC or MoSi2.

    Contributors:

    Kriven, Waltraud M. (editor) / Zhu, Dongming (editor) / Moon, Kyoung II (editor) / Hwang, Taejin (editor) / Wang, Jingyang (editor) / Lewinsohn, Charles (editor) / Zhou, Yanchun (editor) / Carney, C.M. (author) / Key, T.S. (author)

    Published in:

    Developments in Strategic Materials and Computational Design V ; 259-273

    Ceramic Engineering and Science Proceedings ; 35

    Publication date:

    2014-12-19

    Size:

    15 pages

    ISBN:

    9781119040293 , 9781119040286

    ISSN:

    1940-6339

    DOI:

    https://doi.org/10.1002/9781119040293.ch23

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Silicon bearing additive , Oxidation resistance , Ultra‐high temperature ceramics , Nonadherent scale , Oxide scale , Adherence performance

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