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    Burnout rates on shale body

    New search for: Schoenlaub, R.A.
    New search for: Troyer, W.
    New search for: Hoekstra, K.

    Oxidation rates of illitic shale were determined by thermal balance at various temperatures and gas compositions; oxidation rate increased in regular manner from 300 to 870 C; above 870 C, material vitrified and shrank and rate of oxidation became zero at 970 C; during burnout, four reactions occurred, material gained or lost weight respectively, depending on whether oxidation of ferrous oxide or carbon was dominant.

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    Burnout rates on shale body

    New search for: Schoenlaub, R.A.
    New search for: Troyer, W.
    New search for: Hoekstra, K.

    Oxidation rates of illitic shale were determined by thermal balance at various temperatures and gas compositions; oxidation rate increased in regular manner from 300 to 870 C; above 870 C, material vitrified and shrank and rate of oxidation became zero at 970 C; during burnout, four reactions occurred, material gained or lost weight respectively, depending on whether oxidation of ferrous oxide or carbon was dominant.

    Access

    Access via TIB
    Check availability in my library

    Burnout rates on shale body

    New search for: Schoenlaub, R.A.
    New search for: Troyer, W.
    New search for: Hoekstra, K.

    Oxidation rates of illitic shale were determined by thermal balance at various temperatures and gas compositions; oxidation rate increased in regular manner from 300 to 870 C; above 870 C, material vitrified and shrank and rate of oxidation became zero at 970 C; during burnout, four reactions occurred, material gained or lost weight respectively, depending on whether oxidation of ferrous oxide or carbon was dominant.

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    Check availability in my library

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    Title:

    Burnout rates on shale body

    Additional title:

    Am Cer Soc -- Bul

    Contributors:

    Schoenlaub, R.A. (author) / Troyer, W. (author) / Hoekstra, K. (author)

    Published in:

    American Ceramic Society -- Bulletin ; 45

    Publication date:

    1966

    Size:

    3 pages

    Type of media:

    Report

    Type of material:

    Print

    Language:

    English

    Keywords:

    Ceramic materials

    © Metadata Copyright Elsevier B. V. All rights reserved.

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