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    Self-healing potential of supplementary cementitious materials in cement mortars: Sorptivity and pore structure

    New search for: Riccardo Maddalena
    New search for: Hussameldin Taha
    New search for: Diane Gardner

    This paper presents the autogenic self-healing potential of Portland cement (PC) blends made with conventional supplementary cementitious materials (SCMs), to improve the water-tightness by reducing the overall pore size. Mortar samples were prepared by mixing PC, sand and water, and partially replacing PC by either silica fume (SF), pulverised fuel ash (PFA), or ground granulated blast-furnace slag (GGBS). Damaged samples were subjected to a water bath to heal microcracks and recover the water-tightness, by further hydration of the starting minerals. Water absorption and density measurements in undamaged, damaged and healed conditions were used to determine the autogenous healing potential of SCMs mixes, showing a post-healing absorption recovery of up to 68% compared to the mix with PC only. Thermal analysis, XRD and MIP measurements confirmed the capability of SCMs to promote the formation of hydrated phases, and reduce the overall pore size by more than 88% compared to PC mixes.

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    Self-healing potential of supplementary cementitious materials in cement mortars: Sorptivity and pore structure

    New search for: Riccardo Maddalena
    New search for: Hussameldin Taha
    New search for: Diane Gardner

    This paper presents the autogenic self-healing potential of Portland cement (PC) blends made with conventional supplementary cementitious materials (SCMs), to improve the water-tightness by reducing the overall pore size. Mortar samples were prepared by mixing PC, sand and water, and partially replacing PC by either silica fume (SF), pulverised fuel ash (PFA), or ground granulated blast-furnace slag (GGBS). Damaged samples were subjected to a water bath to heal microcracks and recover the water-tightness, by further hydration of the starting minerals. Water absorption and density measurements in undamaged, damaged and healed conditions were used to determine the autogenous healing potential of SCMs mixes, showing a post-healing absorption recovery of up to 68% compared to the mix with PC only. Thermal analysis, XRD and MIP measurements confirmed the capability of SCMs to promote the formation of hydrated phases, and reduce the overall pore size by more than 88% compared to PC mixes.

    Access

    Download

    Self-healing potential of supplementary cementitious materials in cement mortars: Sorptivity and pore structure

    New search for: Riccardo Maddalena
    New search for: Hussameldin Taha
    New search for: Diane Gardner

    This paper presents the autogenic self-healing potential of Portland cement (PC) blends made with conventional supplementary cementitious materials (SCMs), to improve the water-tightness by reducing the overall pore size. Mortar samples were prepared by mixing PC, sand and water, and partially replacing PC by either silica fume (SF), pulverised fuel ash (PFA), or ground granulated blast-furnace slag (GGBS). Damaged samples were subjected to a water bath to heal microcracks and recover the water-tightness, by further hydration of the starting minerals. Water absorption and density measurements in undamaged, damaged and healed conditions were used to determine the autogenous healing potential of SCMs mixes, showing a post-healing absorption recovery of up to 68% compared to the mix with PC only. Thermal analysis, XRD and MIP measurements confirmed the capability of SCMs to promote the formation of hydrated phases, and reduce the overall pore size by more than 88% compared to PC mixes.

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    Title:

    Self-healing potential of supplementary cementitious materials in cement mortars: Sorptivity and pore structure

    Contributors:

    Riccardo Maddalena (author) / Hussameldin Taha (author) / Diane Gardner (author)

    Published in:

    Developments in the Built Environment, Vol 6, Iss , Pp 100044- (2021)

    Publication date:

    2021

    ISSN:

    2666-1659

    DOI:

    https://doi.org/10.1016/j.dibe.2021.100044

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Autogenous healing , Mortar , Sorptivity , Cement replacement , Engineering (General). Civil engineering (General) , TA1-2040 , Building construction , TH1-9745

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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