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    Effect of Magnetized Water on Self-Compacted Fly Ash-Based Geopolymer Concrete

    New search for: Ahmed, H. I.

    Chemical activation of geopolymer concrete is critical for improving its performance. The purpose of this research is to improve the chemical activation of self-compacted fly ash-based geopolymer concrete exposed to chlorides using magnetized water. A multicompound activator containing sodium hydroxide (SH) and sodium silicate (SS) was used to activate fly ash. Various SS/SH ratios (1.0–3.0), various molarities of SH (8–16 M), and MW of 1.2 tesla were considered. Slump flow, L-box, v-funnel, compressive strength, chloride profile, and X-ray diffraction approaches were performed. The results confirmed that the optimal concentration of SH increased from 14 M in nonmagnetized concrete to 16 M in magnetized concrete, indicating that MW has a positive impact on the chemical activation and consequently the geopolymerization reaction. Concrete workability decreased as the SH concentration and SS/SH ratio increased. Using an SS/SH ratio of 3.0 results in superior mechanical behavior and increased chloride penetration resistance.

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    Effect of Magnetized Water on Self-Compacted Fly Ash-Based Geopolymer Concrete

    New search for: Ahmed, H. I.

    Chemical activation of geopolymer concrete is critical for improving its performance. The purpose of this research is to improve the chemical activation of self-compacted fly ash-based geopolymer concrete exposed to chlorides using magnetized water. A multicompound activator containing sodium hydroxide (SH) and sodium silicate (SS) was used to activate fly ash. Various SS/SH ratios (1.0–3.0), various molarities of SH (8–16 M), and MW of 1.2 tesla were considered. Slump flow, L-box, v-funnel, compressive strength, chloride profile, and X-ray diffraction approaches were performed. The results confirmed that the optimal concentration of SH increased from 14 M in nonmagnetized concrete to 16 M in magnetized concrete, indicating that MW has a positive impact on the chemical activation and consequently the geopolymerization reaction. Concrete workability decreased as the SH concentration and SS/SH ratio increased. Using an SS/SH ratio of 3.0 results in superior mechanical behavior and increased chloride penetration resistance.

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    Effect of Magnetized Water on Self-Compacted Fly Ash-Based Geopolymer Concrete

    New search for: Ahmed, H. I.

    Chemical activation of geopolymer concrete is critical for improving its performance. The purpose of this research is to improve the chemical activation of self-compacted fly ash-based geopolymer concrete exposed to chlorides using magnetized water. A multicompound activator containing sodium hydroxide (SH) and sodium silicate (SS) was used to activate fly ash. Various SS/SH ratios (1.0–3.0), various molarities of SH (8–16 M), and MW of 1.2 tesla were considered. Slump flow, L-box, v-funnel, compressive strength, chloride profile, and X-ray diffraction approaches were performed. The results confirmed that the optimal concentration of SH increased from 14 M in nonmagnetized concrete to 16 M in magnetized concrete, indicating that MW has a positive impact on the chemical activation and consequently the geopolymerization reaction. Concrete workability decreased as the SH concentration and SS/SH ratio increased. Using an SS/SH ratio of 3.0 results in superior mechanical behavior and increased chloride penetration resistance.

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    Title:

    Effect of Magnetized Water on Self-Compacted Fly Ash-Based Geopolymer Concrete

    Additional title:

    J. Mater. Civ. Eng.

    Contributors:

    Ahmed, H. I. (author)

    Published in:

    Journal of Materials in Civil Engineering ; 36

    Publication date:

    2024-10-01

    ISSN:

    1943-5533 , 0899-1561

    DOI:

    https://doi.org/10.1061/JMCEE7.MTENG-18286

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Geopolymer , Compressive strength , Sodium hydroxide (SH) , Magnetized water (MW) , Molarity , Sodium silicate (SS)

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