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    Effect of Fiber Length on Impact Resistance of Fiber Cement-Based Composites Containing Silica Fume

    New search for: Lin, Wei-Ting
    New search for: Han, Ta-Yuan
    New search for: Wu, Yuan-Cheih
    New search for: Huang, Chin-Cheng

    This study is aimed to evaluate the impact performance of cement-based composites which comprise steel fibers and silica fume in the mixes. Material variables include water-cementitious ratio, dosage of silica fume, steel fiber length and dosage. Test results indicate that the impact resistance increase with increasing fiber content and water-cementitious ratio, and with decreasing silica fume content. For a given volume fraction, short fiber performs better than its long counterpart in improving the impact performance. In addition, the combination of silica fume and fibers enhances better impact behavior than individual constituents of silica fume, due to reduced the crack formation and offer the toughness of cement-based composites under impact loadings.

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    Effect of Fiber Length on Impact Resistance of Fiber Cement-Based Composites Containing Silica Fume

    New search for: Lin, Wei-Ting
    New search for: Han, Ta-Yuan
    New search for: Wu, Yuan-Cheih
    New search for: Huang, Chin-Cheng

    This study is aimed to evaluate the impact performance of cement-based composites which comprise steel fibers and silica fume in the mixes. Material variables include water-cementitious ratio, dosage of silica fume, steel fiber length and dosage. Test results indicate that the impact resistance increase with increasing fiber content and water-cementitious ratio, and with decreasing silica fume content. For a given volume fraction, short fiber performs better than its long counterpart in improving the impact performance. In addition, the combination of silica fume and fibers enhances better impact behavior than individual constituents of silica fume, due to reduced the crack formation and offer the toughness of cement-based composites under impact loadings.

    Access

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

    Effect of Fiber Length on Impact Resistance of Fiber Cement-Based Composites Containing Silica Fume

    New search for: Lin, Wei-Ting
    New search for: Han, Ta-Yuan
    New search for: Wu, Yuan-Cheih
    New search for: Huang, Chin-Cheng

    This study is aimed to evaluate the impact performance of cement-based composites which comprise steel fibers and silica fume in the mixes. Material variables include water-cementitious ratio, dosage of silica fume, steel fiber length and dosage. Test results indicate that the impact resistance increase with increasing fiber content and water-cementitious ratio, and with decreasing silica fume content. For a given volume fraction, short fiber performs better than its long counterpart in improving the impact performance. In addition, the combination of silica fume and fibers enhances better impact behavior than individual constituents of silica fume, due to reduced the crack formation and offer the toughness of cement-based composites under impact loadings.

    Access

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

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    Title:

    Effect of Fiber Length on Impact Resistance of Fiber Cement-Based Composites Containing Silica Fume

    Contributors:

    Lin, Wei-Ting (author) / Han, Ta-Yuan (author) / Wu, Yuan-Cheih (author) / Huang, Chin-Cheng (author)

    Published in:

    Advanced Materials and Information Technology Processing II, AMITP, International Conference on Advanced Materials and Information Technology Processing, 2 ; 117-120

    Advanced Materials Research ; 586

    Publication date:

    2012

    Size:

    4 Seiten

    ISSN:

    1022-6680

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMR.586.117

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Pellini-Versuch , Silicafeinststaub , Stahlfaser , Kurzfaser , Faserzement , Komposit , Faserlänge , Zähfestigkeit , Volumenfraktion , Rissausbildung , Schlagfestigkeit , Fasergehalt , Stoßbelastung

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