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    Mechanism of preventing the alkali–aggregate reaction in alkali activated cement concretes

    New search for: Krivenko, Pavel
    New search for: Drochytka, Rostislav
    New search for: Gelevera, Aleksandr
    New search for: Kavalerova, Elena

    Abstract Processes of structure formation taking place in the interfacial transition zone “cement paste – aggregate” have been studied on a variety of cement model systems. The results of this study suggest that, depending upon the contents of components capable of actively interacting with alkalis in the presence of reactive SiO2 in the cement and aggregate, the processes taking place during an alkali-aggregate reaction could be constructive or destructive in character. So-called “constructive processes” are attributed to binding the corrosion reaction products with the formation of the alkaline aluminosilicate hydrates. The results of this study have been taken as a base in developing a mechanism of preventing the alkali–aggregate reaction in the alkali activated cement concretes through the introduction of additional quantities of Al2O3-containing substances.

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    Mechanism of preventing the alkali–aggregate reaction in alkali activated cement concretes

    New search for: Krivenko, Pavel
    New search for: Drochytka, Rostislav
    New search for: Gelevera, Aleksandr
    New search for: Kavalerova, Elena

    Abstract Processes of structure formation taking place in the interfacial transition zone “cement paste – aggregate” have been studied on a variety of cement model systems. The results of this study suggest that, depending upon the contents of components capable of actively interacting with alkalis in the presence of reactive SiO2 in the cement and aggregate, the processes taking place during an alkali-aggregate reaction could be constructive or destructive in character. So-called “constructive processes” are attributed to binding the corrosion reaction products with the formation of the alkaline aluminosilicate hydrates. The results of this study have been taken as a base in developing a mechanism of preventing the alkali–aggregate reaction in the alkali activated cement concretes through the introduction of additional quantities of Al2O3-containing substances.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Mechanism of preventing the alkali–aggregate reaction in alkali activated cement concretes

    New search for: Krivenko, Pavel
    New search for: Drochytka, Rostislav
    New search for: Gelevera, Aleksandr
    New search for: Kavalerova, Elena

    Abstract Processes of structure formation taking place in the interfacial transition zone “cement paste – aggregate” have been studied on a variety of cement model systems. The results of this study suggest that, depending upon the contents of components capable of actively interacting with alkalis in the presence of reactive SiO2 in the cement and aggregate, the processes taking place during an alkali-aggregate reaction could be constructive or destructive in character. So-called “constructive processes” are attributed to binding the corrosion reaction products with the formation of the alkaline aluminosilicate hydrates. The results of this study have been taken as a base in developing a mechanism of preventing the alkali–aggregate reaction in the alkali activated cement concretes through the introduction of additional quantities of Al2O3-containing substances.

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    Title:

    Mechanism of preventing the alkali–aggregate reaction in alkali activated cement concretes

    Contributors:

    Krivenko, Pavel (author) / Drochytka, Rostislav (author) / Gelevera, Aleksandr (author) / Kavalerova, Elena (author)

    Published in:

    Cement and Concrete Composites ; 45 ; 157-165

    Publication date:

    2013-10-04

    Size:

    9 pages

    ISSN:

    0958-9465

    DOI:

    https://doi.org/10.1016/j.cemconcomp.2013.10.003

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Alkali activated cement , Alkali , Alkali–aggregate reaction , Alkali–silica reaction , Concrete , Expansion , Hydration products , Interfacial transition zone , Petrography , Portland cement , X-ray diffraction

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