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    Effect of Interfacial Transition Zone on the Carbonation of Cement-Based Materials

    New search for: Shen, Qizhen
    New search for: Pan, Ganghua
    New search for: Zhan, Huagang

    This study dealt with an analysis of the effects of the interfacial transition zone (ITZ) on the carbonation of cement-based material. To this end, a series of experiments dealing with paste and the mortar-gallet interface carbonation were designed and conducted. Experimental results showed that the carbonation depth in the ITZ was several times greater than that in the cement matrix resulting in the emergence of an interfacial effect zone (IEZ). Backscattered electron (BSE) analysis and nanoindentation tests were also conducted on the material to examine the microstructure of the ITZ before and after carbonation and to explore the mechanisms of the ITZ effects. After carbonation, the thickness of the ITZ decreased from 50–60 μm to 20–30 μm, but its porosity was still greater than the porosity of the cement matrix. Therefore, after carbonation, the ITZ was still a weak zone so that the diffusion rate of CO 2 in the ITZ was higher than in the cement matrix.

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    Effect of Interfacial Transition Zone on the Carbonation of Cement-Based Materials

    New search for: Shen, Qizhen
    New search for: Pan, Ganghua
    New search for: Zhan, Huagang

    This study dealt with an analysis of the effects of the interfacial transition zone (ITZ) on the carbonation of cement-based material. To this end, a series of experiments dealing with paste and the mortar-gallet interface carbonation were designed and conducted. Experimental results showed that the carbonation depth in the ITZ was several times greater than that in the cement matrix resulting in the emergence of an interfacial effect zone (IEZ). Backscattered electron (BSE) analysis and nanoindentation tests were also conducted on the material to examine the microstructure of the ITZ before and after carbonation and to explore the mechanisms of the ITZ effects. After carbonation, the thickness of the ITZ decreased from 50–60 μm to 20–30 μm, but its porosity was still greater than the porosity of the cement matrix. Therefore, after carbonation, the ITZ was still a weak zone so that the diffusion rate of CO 2 in the ITZ was higher than in the cement matrix.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Effect of Interfacial Transition Zone on the Carbonation of Cement-Based Materials

    New search for: Shen, Qizhen
    New search for: Pan, Ganghua
    New search for: Zhan, Huagang

    This study dealt with an analysis of the effects of the interfacial transition zone (ITZ) on the carbonation of cement-based material. To this end, a series of experiments dealing with paste and the mortar-gallet interface carbonation were designed and conducted. Experimental results showed that the carbonation depth in the ITZ was several times greater than that in the cement matrix resulting in the emergence of an interfacial effect zone (IEZ). Backscattered electron (BSE) analysis and nanoindentation tests were also conducted on the material to examine the microstructure of the ITZ before and after carbonation and to explore the mechanisms of the ITZ effects. After carbonation, the thickness of the ITZ decreased from 50–60 μm to 20–30 μm, but its porosity was still greater than the porosity of the cement matrix. Therefore, after carbonation, the ITZ was still a weak zone so that the diffusion rate of CO 2 in the ITZ was higher than in the cement matrix.

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    Title:

    Effect of Interfacial Transition Zone on the Carbonation of Cement-Based Materials

    Contributors:

    Shen, Qizhen (author) / Pan, Ganghua (author) / Zhan, Huagang (author)

    Published in:

    Journal of Materials in Civil Engineering ; 29

    Publication date:

    2017-03-02

    ISSN:

    0899-1561 , 1943-5533

    DOI:

    https://doi.org/10.1061/(ASCE)MT.1943-5533.0001860

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

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