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    Experimental Study on Resistance of Hybrid Fiber Reinforced Concrete to Freezing and Thawing

    New search for: Huo, Hong-Yuan
    New search for: Zhang, Liang
    New search for: Xing, Tong

    Experiments were conducted to study the resistance of steel-polypropylene hybrid fiber reinforced concrete (HFRC) to freezing and tharwing. The mix proportions of concrete in strength grade CF40 were designed according to the superposition mix design method, where five mass contents of polypropylene fiber changing in range of 0.3∼1.5 kg/m3 with 0.3 kg/m3 increment while the fraction of steel fiber by volume was constant as 1.0%, and four fractions of steel fiber by volume changing in range of 0.5∼2.0% with 0.5% increment while the mass content of polypropylene fiber was kept as 0.9 kg/m3. The results show that the steel-polypropylene hybrid fiber can significantly increase the resistance of HFRC to freezing and thawing, the losses of dynamic elasticity modulus and flexural strength of HFRC decrease with the increasing mass content of polypropylene fiber and fraction of steel fiber by volume, there is the coupling effect of enhancing on resistance of HFRC to freezing and thawing by hybrid fibers.

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    Experimental Study on Resistance of Hybrid Fiber Reinforced Concrete to Freezing and Thawing

    New search for: Huo, Hong-Yuan
    New search for: Zhang, Liang
    New search for: Xing, Tong

    Experiments were conducted to study the resistance of steel-polypropylene hybrid fiber reinforced concrete (HFRC) to freezing and tharwing. The mix proportions of concrete in strength grade CF40 were designed according to the superposition mix design method, where five mass contents of polypropylene fiber changing in range of 0.3∼1.5 kg/m3 with 0.3 kg/m3 increment while the fraction of steel fiber by volume was constant as 1.0%, and four fractions of steel fiber by volume changing in range of 0.5∼2.0% with 0.5% increment while the mass content of polypropylene fiber was kept as 0.9 kg/m3. The results show that the steel-polypropylene hybrid fiber can significantly increase the resistance of HFRC to freezing and thawing, the losses of dynamic elasticity modulus and flexural strength of HFRC decrease with the increasing mass content of polypropylene fiber and fraction of steel fiber by volume, there is the coupling effect of enhancing on resistance of HFRC to freezing and thawing by hybrid fibers.

    Access

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

    Experimental Study on Resistance of Hybrid Fiber Reinforced Concrete to Freezing and Thawing

    New search for: Huo, Hong-Yuan
    New search for: Zhang, Liang
    New search for: Xing, Tong

    Experiments were conducted to study the resistance of steel-polypropylene hybrid fiber reinforced concrete (HFRC) to freezing and tharwing. The mix proportions of concrete in strength grade CF40 were designed according to the superposition mix design method, where five mass contents of polypropylene fiber changing in range of 0.3∼1.5 kg/m3 with 0.3 kg/m3 increment while the fraction of steel fiber by volume was constant as 1.0%, and four fractions of steel fiber by volume changing in range of 0.5∼2.0% with 0.5% increment while the mass content of polypropylene fiber was kept as 0.9 kg/m3. The results show that the steel-polypropylene hybrid fiber can significantly increase the resistance of HFRC to freezing and thawing, the losses of dynamic elasticity modulus and flexural strength of HFRC decrease with the increasing mass content of polypropylene fiber and fraction of steel fiber by volume, there is the coupling effect of enhancing on resistance of HFRC to freezing and thawing by hybrid fibers.

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    Title:

    Experimental Study on Resistance of Hybrid Fiber Reinforced Concrete to Freezing and Thawing

    Contributors:

    Huo, Hong-Yuan (author) / Zhang, Liang (author) / Xing, Tong (author)

    Published in:

    Civil Engineering, Architecture and Sustainable Infrastructure II, ICCEASI, International Conference on Civil Engineering, Architecture and Sustainable Infrastructure, 2013 ; 309-313

    Applied Mechanics and Materials ; 438-439

    Publication date:

    2013

    Size:

    5 Seiten

    ISSN:

    1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.438-439.309

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Biegefestigkeit , Auftauen , Stahlfaser , Polypropylenfaser , Hybridfaser , bewehrter Beton , Stahl , Experimentalstudie , Elastizitätsmodul , Entwurfstechnik

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