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    Durability performance of concrete incorporating spent fluid cracking catalyst

    New search for: Neves, R.
    New search for: Vicente, C.
    New search for: Castela, A.
    New search for: Montemor, M.F.

    Abstract The petrochemical industry uses, in its fluid catalytic cracking units, zeolites as catalysts. After several cycles of use and regeneration, the fluid cracking catalyst becomes spent (SFCC). Given its chemical composition (aluminosilicates), SFCC may be used as admixtures in mortar and concrete production. The aim of this study was to investigate the influence of SFCC in durability related properties of concrete, namely in air permeability, capillary suction, carbonation and chloride resistance, considering also its simultaneous use with corrosion inhibitors. An experimental program was developed comprising four concrete mixes, sampled in two batches. The water-binder (cement+SFCC) ratio and the plasticizer dosage were kept constant. Statistical analyses of results were performed. Although no synergic effect of the combined use of SFCC and corrosion inhibitor was found, SFCC revealed to be an interesting supplementary cementing material for concrete regarding its durability and the associated positive environmental impacts.

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    Durability performance of concrete incorporating spent fluid cracking catalyst

    New search for: Neves, R.
    New search for: Vicente, C.
    New search for: Castela, A.
    New search for: Montemor, M.F.

    Abstract The petrochemical industry uses, in its fluid catalytic cracking units, zeolites as catalysts. After several cycles of use and regeneration, the fluid cracking catalyst becomes spent (SFCC). Given its chemical composition (aluminosilicates), SFCC may be used as admixtures in mortar and concrete production. The aim of this study was to investigate the influence of SFCC in durability related properties of concrete, namely in air permeability, capillary suction, carbonation and chloride resistance, considering also its simultaneous use with corrosion inhibitors. An experimental program was developed comprising four concrete mixes, sampled in two batches. The water-binder (cement+SFCC) ratio and the plasticizer dosage were kept constant. Statistical analyses of results were performed. Although no synergic effect of the combined use of SFCC and corrosion inhibitor was found, SFCC revealed to be an interesting supplementary cementing material for concrete regarding its durability and the associated positive environmental impacts.

    Access

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    Check availability in my library
    Order at Subito €

    Durability performance of concrete incorporating spent fluid cracking catalyst

    New search for: Neves, R.
    New search for: Vicente, C.
    New search for: Castela, A.
    New search for: Montemor, M.F.

    Abstract The petrochemical industry uses, in its fluid catalytic cracking units, zeolites as catalysts. After several cycles of use and regeneration, the fluid cracking catalyst becomes spent (SFCC). Given its chemical composition (aluminosilicates), SFCC may be used as admixtures in mortar and concrete production. The aim of this study was to investigate the influence of SFCC in durability related properties of concrete, namely in air permeability, capillary suction, carbonation and chloride resistance, considering also its simultaneous use with corrosion inhibitors. An experimental program was developed comprising four concrete mixes, sampled in two batches. The water-binder (cement+SFCC) ratio and the plasticizer dosage were kept constant. Statistical analyses of results were performed. Although no synergic effect of the combined use of SFCC and corrosion inhibitor was found, SFCC revealed to be an interesting supplementary cementing material for concrete regarding its durability and the associated positive environmental impacts.

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    Title:

    Durability performance of concrete incorporating spent fluid cracking catalyst

    Contributors:

    Neves, R. (author) / Vicente, C. (author) / Castela, A. (author) / Montemor, M.F. (author)

    Published in:

    Cement and Concrete Composites ; 55 ; 308-314

    Publication date:

    2014-09-28

    Size:

    7 pages

    ISSN:

    0958-9465

    DOI:

    https://doi.org/10.1016/j.cemconcomp.2014.09.018

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Concrete , Zeolites , Corrosion inhibitor , Permeability , Carbonation resistance , Chloride resistance

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