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    Autoclaving of ultra‐high performance concrete (UHPC)

    New search for: von Werder, Julia
    New search for: Simon, Sebastian
    New search for: Lehmann, Christian
    New search for: Selleng, Christian
    New search for: Fontana, Patrick
    New search for: Meng, Birgit

    By the combination of an optimized granulometry, a reduced water–cement ratio and the use of superplasticizers ultra‐high performance concrete achieves a compressive strength of over 150 N/mm2 and a high resistance regarding acids and water‐soluble salts. In different research projects the effect of an autoclavation on the mechanical strength and the phase composition was analyzed. In systematic studies, the concrete mix and the process parameters were varied. The results show that autoclavation leads to an improved pozzolanic and hydraulic reaction and significantly improves the mechanical strength compared to a conventional thermal treatment. If a minimum time‐span for hydration is ensured, the achievable strength level is not dependent on the prestorage time. However, the duration of the autoclaving is significant. After the maximum strength is reached there is only a very slight decrease, even if unrealistically long autoclaving times are applied.

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    Autoclaving of ultra‐high performance concrete (UHPC)

    New search for: von Werder, Julia
    New search for: Simon, Sebastian
    New search for: Lehmann, Christian
    New search for: Selleng, Christian
    New search for: Fontana, Patrick
    New search for: Meng, Birgit

    By the combination of an optimized granulometry, a reduced water–cement ratio and the use of superplasticizers ultra‐high performance concrete achieves a compressive strength of over 150 N/mm2 and a high resistance regarding acids and water‐soluble salts. In different research projects the effect of an autoclavation on the mechanical strength and the phase composition was analyzed. In systematic studies, the concrete mix and the process parameters were varied. The results show that autoclavation leads to an improved pozzolanic and hydraulic reaction and significantly improves the mechanical strength compared to a conventional thermal treatment. If a minimum time‐span for hydration is ensured, the achievable strength level is not dependent on the prestorage time. However, the duration of the autoclaving is significant. After the maximum strength is reached there is only a very slight decrease, even if unrealistically long autoclaving times are applied.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Autoclaving of ultra‐high performance concrete (UHPC)

    New search for: von Werder, Julia
    New search for: Simon, Sebastian
    New search for: Lehmann, Christian
    New search for: Selleng, Christian
    New search for: Fontana, Patrick
    New search for: Meng, Birgit

    By the combination of an optimized granulometry, a reduced water–cement ratio and the use of superplasticizers ultra‐high performance concrete achieves a compressive strength of over 150 N/mm2 and a high resistance regarding acids and water‐soluble salts. In different research projects the effect of an autoclavation on the mechanical strength and the phase composition was analyzed. In systematic studies, the concrete mix and the process parameters were varied. The results show that autoclavation leads to an improved pozzolanic and hydraulic reaction and significantly improves the mechanical strength compared to a conventional thermal treatment. If a minimum time‐span for hydration is ensured, the achievable strength level is not dependent on the prestorage time. However, the duration of the autoclaving is significant. After the maximum strength is reached there is only a very slight decrease, even if unrealistically long autoclaving times are applied.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Title:

    Autoclaving of ultra‐high performance concrete (UHPC)

    Contributors:

    von Werder, Julia (author) / Simon, Sebastian (author) / Lehmann, Christian (author) / Selleng, Christian (author) / Fontana, Patrick (author) / Meng, Birgit (author)

    Published in:

    ce/papers ; 2 ; 131-136

    Publication date:

    2018-09-01

    Size:

    6 pages

    ISSN:

    2509-7075

    DOI:

    https://doi.org/10.1002/cepa.866

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    hydroxylellestadite , tobermorite , ultra‐high performance concrete , heat treatment , zonation

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