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    Electric polarization and depolarization in cement-based materials, studied by apparent electrical resistance measurement

    New search for: Cao, Jingyao
    New search for: Chung, D.D.L.

    Electric polarization in cement-based materials (without conductive admixture) under an applied DC electric field was found by apparent electrical resistance measurement to be faster than subsequent depolarization under a reverse field by a factor ranging from 5 to 8. The slow depolarization suggested a degree of ionic trapping. In contrast, depolarization was even faster than polarization in carbon fiber cement, due to the fast hole response. Sand addition slowed down polarization saturation, but enhanced the polarization. Silica fume addition did not slow down polarization saturation, but diminished the polarization slightly. An increase in temperature enhanced the polarization due to increase in ionic mobility.

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    Electric polarization and depolarization in cement-based materials, studied by apparent electrical resistance measurement

    New search for: Cao, Jingyao
    New search for: Chung, D.D.L.

    Electric polarization in cement-based materials (without conductive admixture) under an applied DC electric field was found by apparent electrical resistance measurement to be faster than subsequent depolarization under a reverse field by a factor ranging from 5 to 8. The slow depolarization suggested a degree of ionic trapping. In contrast, depolarization was even faster than polarization in carbon fiber cement, due to the fast hole response. Sand addition slowed down polarization saturation, but enhanced the polarization. Silica fume addition did not slow down polarization saturation, but diminished the polarization slightly. An increase in temperature enhanced the polarization due to increase in ionic mobility.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Electric polarization and depolarization in cement-based materials, studied by apparent electrical resistance measurement

    New search for: Cao, Jingyao
    New search for: Chung, D.D.L.

    Electric polarization in cement-based materials (without conductive admixture) under an applied DC electric field was found by apparent electrical resistance measurement to be faster than subsequent depolarization under a reverse field by a factor ranging from 5 to 8. The slow depolarization suggested a degree of ionic trapping. In contrast, depolarization was even faster than polarization in carbon fiber cement, due to the fast hole response. Sand addition slowed down polarization saturation, but enhanced the polarization. Silica fume addition did not slow down polarization saturation, but diminished the polarization slightly. An increase in temperature enhanced the polarization due to increase in ionic mobility.

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    Title:

    Electric polarization and depolarization in cement-based materials, studied by apparent electrical resistance measurement

    Contributors:

    Cao, Jingyao (author) / Chung, D.D.L. (author)

    Published in:

    Cement and Concrete Research ; 34 ; 481-485

    Publication date:

    2004

    Size:

    5 Seiten, 23 Quellen

    ISSN:

    0008-8846

    DOI:

    https://doi.org/10.1016/j.cemconres.2003.09.003

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Widerstand (elektrische Größe) , Feldeffekt , Carbonfaser , Kieselerde , Mörtel , physikalische Eigenschaft , elektrischer Kontakt , elektrische Polarisation , hydraulischer Zement , Wirkung elektrischer Felder

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