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    The role of aluminium in alkali-activated bentonites

    New search for: García-Lodeiro, I.
    New search for: Cherfa, N.
    New search for: Zibouche, F.
    New search for: Fernández-Jimenez, A.
    New search for: Palomo, A.

    Abstract In the pursuit of new sources of aluminosilicates for alkaline cement manufacture, the present paper reports on the compositional and mineralogical assessment of the reactive potential of several types of bentonites. A number of factors affect strength development in these materials, in particular their potentially reactive silica and aluminium content. While bentonites normally have a high SiO2 content, the amount of reactive Al2O3 present is not always sufficient for the purpose at hand. The present study consequently also explored the effect of adding aluminium correctors (commercial sodium aluminate and bauxite) to the mix. The findings showed that de-hydroxylated bentonite reacted with an alkaline activator, yielding materials with cementitious properties. The addition of 10 % sodium aluminate raised mechanical strength, which was unaffected by the inclusion of bauxite. The primary reaction product was consistently found to be a (N,C)–A–S–H gel, with zeolites as the secondary products.

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    The role of aluminium in alkali-activated bentonites

    New search for: García-Lodeiro, I.
    New search for: Cherfa, N.
    New search for: Zibouche, F.
    New search for: Fernández-Jimenez, A.
    New search for: Palomo, A.

    Abstract In the pursuit of new sources of aluminosilicates for alkaline cement manufacture, the present paper reports on the compositional and mineralogical assessment of the reactive potential of several types of bentonites. A number of factors affect strength development in these materials, in particular their potentially reactive silica and aluminium content. While bentonites normally have a high SiO2 content, the amount of reactive Al2O3 present is not always sufficient for the purpose at hand. The present study consequently also explored the effect of adding aluminium correctors (commercial sodium aluminate and bauxite) to the mix. The findings showed that de-hydroxylated bentonite reacted with an alkaline activator, yielding materials with cementitious properties. The addition of 10 % sodium aluminate raised mechanical strength, which was unaffected by the inclusion of bauxite. The primary reaction product was consistently found to be a (N,C)–A–S–H gel, with zeolites as the secondary products.

    Access

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    The role of aluminium in alkali-activated bentonites

    New search for: García-Lodeiro, I.
    New search for: Cherfa, N.
    New search for: Zibouche, F.
    New search for: Fernández-Jimenez, A.
    New search for: Palomo, A.

    Abstract In the pursuit of new sources of aluminosilicates for alkaline cement manufacture, the present paper reports on the compositional and mineralogical assessment of the reactive potential of several types of bentonites. A number of factors affect strength development in these materials, in particular their potentially reactive silica and aluminium content. While bentonites normally have a high SiO2 content, the amount of reactive Al2O3 present is not always sufficient for the purpose at hand. The present study consequently also explored the effect of adding aluminium correctors (commercial sodium aluminate and bauxite) to the mix. The findings showed that de-hydroxylated bentonite reacted with an alkaline activator, yielding materials with cementitious properties. The addition of 10 % sodium aluminate raised mechanical strength, which was unaffected by the inclusion of bauxite. The primary reaction product was consistently found to be a (N,C)–A–S–H gel, with zeolites as the secondary products.

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    Title:

    The role of aluminium in alkali-activated bentonites

    Contributors:

    García-Lodeiro, I. (author) / Cherfa, N. (author) / Zibouche, F. (author) / Fernández-Jimenez, A. (author) / Palomo, A. (author)

    Published in:

    Materials and Structures ; 48 ; 585-597

    Publication date:

    2014-10-10

    Size:

    13 pages

    ISSN:

    1871-6873 , 1359-5997

    DOI:

    https://doi.org/10.1617/s11527-014-0447-8

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Geopolymer , Bentonites , Alkali activation , Bauxite , (SiO2/Al2O3)reactive Engineering , Structural Mechanics , Materials Science, general , Theoretical and Applied Mechanics , Operating Procedures, Materials Treatment , Civil Engineering , Building Materials

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