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    Dense ceramic bodies of low firing shrinkage

    New search for: Eichbaum, B.R.
    New search for: Smoke, E.J.

    Investigation relative to producing technical ware to close dimensional tolerances utilizing h-f dielectric insulation; firing shrinkage determined for 100% spodumene and with addition of lead bisilicate or lead borate; specific gravity, moisture absorption and firing shrinkage determined for spodumene with lead bisilicate with and without addition of clay; body of 60% spodumene shows most promise with respect to zero firing shrinkage.

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    Dense ceramic bodies of low firing shrinkage

    New search for: Eichbaum, B.R.
    New search for: Smoke, E.J.

    Investigation relative to producing technical ware to close dimensional tolerances utilizing h-f dielectric insulation; firing shrinkage determined for 100% spodumene and with addition of lead bisilicate or lead borate; specific gravity, moisture absorption and firing shrinkage determined for spodumene with lead bisilicate with and without addition of clay; body of 60% spodumene shows most promise with respect to zero firing shrinkage.

    Access

    Access via TIB
    Check availability in my library

    Dense ceramic bodies of low firing shrinkage

    New search for: Eichbaum, B.R.
    New search for: Smoke, E.J.

    Investigation relative to producing technical ware to close dimensional tolerances utilizing h-f dielectric insulation; firing shrinkage determined for 100% spodumene and with addition of lead bisilicate or lead borate; specific gravity, moisture absorption and firing shrinkage determined for spodumene with lead bisilicate with and without addition of clay; body of 60% spodumene shows most promise with respect to zero firing shrinkage.

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    Check availability in my library

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    Document information
    Title:

    Dense ceramic bodies of low firing shrinkage

    Additional title:

    Cer Age

    Contributors:

    Eichbaum, B.R. (author) / Smoke, E.J. (author)

    Published in:

    Ceramic Age ; 69

    Publication date:

    1957

    Size:

    6 pages

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Electric insulating materials

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

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