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    Fibre reinforcement and fracture response in geopolymeric mortars

    New search for: Thaumaturgo, C.
    New search for: Silva, F.J.

    The inorganic polymeric cement called geopolymer or PSS, has been studied in recent years as a binder for mortar and concrete. The present work reports the fracture toughness studies in mortars made of PSS cement matrix reinforced by wollastonite microfibers (Ca(SiO 3)). KI-curves for PSS cement composites were determined according to the superposidon asymptotic assumption and compared with reference Portland cement (PC) composites. The maximum toughness gain occurs in both composite systems with Vf= 2%. For higher fibre volumes (3 and 5%), KI values decrease, due to an increase in porosity. Microstructural analyses showed that toughening mechanisms, as debonding and pullout of the fibers, are more common in PSS cement composites than in the reference PC composites. The difference of toughness between PSS and PC cement (0% of fibers) is about 80%. This demonstrates the high performance of these geopolymeric materials.

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    Fibre reinforcement and fracture response in geopolymeric mortars

    New search for: Thaumaturgo, C.
    New search for: Silva, F.J.

    The inorganic polymeric cement called geopolymer or PSS, has been studied in recent years as a binder for mortar and concrete. The present work reports the fracture toughness studies in mortars made of PSS cement matrix reinforced by wollastonite microfibers (Ca(SiO 3)). KI-curves for PSS cement composites were determined according to the superposidon asymptotic assumption and compared with reference Portland cement (PC) composites. The maximum toughness gain occurs in both composite systems with Vf= 2%. For higher fibre volumes (3 and 5%), KI values decrease, due to an increase in porosity. Microstructural analyses showed that toughening mechanisms, as debonding and pullout of the fibers, are more common in PSS cement composites than in the reference PC composites. The difference of toughness between PSS and PC cement (0% of fibers) is about 80%. This demonstrates the high performance of these geopolymeric materials.

    Access

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

    Fibre reinforcement and fracture response in geopolymeric mortars

    New search for: Thaumaturgo, C.
    New search for: Silva, F.J.

    The inorganic polymeric cement called geopolymer or PSS, has been studied in recent years as a binder for mortar and concrete. The present work reports the fracture toughness studies in mortars made of PSS cement matrix reinforced by wollastonite microfibers (Ca(SiO 3)). KI-curves for PSS cement composites were determined according to the superposidon asymptotic assumption and compared with reference Portland cement (PC) composites. The maximum toughness gain occurs in both composite systems with Vf= 2%. For higher fibre volumes (3 and 5%), KI values decrease, due to an increase in porosity. Microstructural analyses showed that toughening mechanisms, as debonding and pullout of the fibers, are more common in PSS cement composites than in the reference PC composites. The difference of toughness between PSS and PC cement (0% of fibers) is about 80%. This demonstrates the high performance of these geopolymeric materials.

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    Title:

    Fibre reinforcement and fracture response in geopolymeric mortars

    Contributors:

    Thaumaturgo, C. (author) / Silva, F.J. (author)

    Published in:

    Fatigue and Fracture of Engineering Materials and Structures ; 26 ; 167-172

    Publication date:

    2003

    Size:

    6 Seiten, 12 Quellen

    ISSN:

    8756-758X

    DOI:

    https://doi.org/10.1046/j.1460-2695.2003.00625.x

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Bruchzähigkeit , Portlandzement , Bindemittel , Beton , Porosität , Mikrostruktur , hydraulischer Zement , faserverstärkter Zement , Wollastonit , keramische Faser , Calciumsilicat , KI-Faktor , Polymermischung , Geopolymer , Zementmörtel

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