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    Preparation of low-cost reactive powder concrete using waste steel fibres recycled from scrap tires

    New search for: Xu, Xun
    New search for: Chen, Qianwa
    New search for: Yu, Bo
    New search for: Liu, Qian
    New search for: Zhang, Ronghua
    New search for: Liu, Yinghu

    The application of reactive powder concrete (RPC) was not wide. One of the main problems was that copper-coated steel fibres (CSF) were expensive. In order to prepare low-cost RPC and resource utilisation of waste steel fibres recycled from scrap tires (WSF), this paper investigated the fluidity and strength of RPC containing WSF. The results indicated that the fluidity of RPC containing WSF was worse than that of RPC containing CSF. But there was not much difference in the strength of two kinds of RPC. In order to optimise performance of RPC containing WSF, the influence of mineral admixtures on the fluidity and strength of RPC was discussed. The results indicated that the optimum silica fume dosage was 20%, and the optimum fly ash and limestone powder dosages were 5%, respectively. Through this study, it was completely feasible to prepare RPC containing WSF. The use of WSF can reduce the cost of RPC.

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    Preparation of low-cost reactive powder concrete using waste steel fibres recycled from scrap tires

    New search for: Xu, Xun
    New search for: Chen, Qianwa
    New search for: Yu, Bo
    New search for: Liu, Qian
    New search for: Zhang, Ronghua
    New search for: Liu, Yinghu

    The application of reactive powder concrete (RPC) was not wide. One of the main problems was that copper-coated steel fibres (CSF) were expensive. In order to prepare low-cost RPC and resource utilisation of waste steel fibres recycled from scrap tires (WSF), this paper investigated the fluidity and strength of RPC containing WSF. The results indicated that the fluidity of RPC containing WSF was worse than that of RPC containing CSF. But there was not much difference in the strength of two kinds of RPC. In order to optimise performance of RPC containing WSF, the influence of mineral admixtures on the fluidity and strength of RPC was discussed. The results indicated that the optimum silica fume dosage was 20%, and the optimum fly ash and limestone powder dosages were 5%, respectively. Through this study, it was completely feasible to prepare RPC containing WSF. The use of WSF can reduce the cost of RPC.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Preparation of low-cost reactive powder concrete using waste steel fibres recycled from scrap tires

    New search for: Xu, Xun
    New search for: Chen, Qianwa
    New search for: Yu, Bo
    New search for: Liu, Qian
    New search for: Zhang, Ronghua
    New search for: Liu, Yinghu

    The application of reactive powder concrete (RPC) was not wide. One of the main problems was that copper-coated steel fibres (CSF) were expensive. In order to prepare low-cost RPC and resource utilisation of waste steel fibres recycled from scrap tires (WSF), this paper investigated the fluidity and strength of RPC containing WSF. The results indicated that the fluidity of RPC containing WSF was worse than that of RPC containing CSF. But there was not much difference in the strength of two kinds of RPC. In order to optimise performance of RPC containing WSF, the influence of mineral admixtures on the fluidity and strength of RPC was discussed. The results indicated that the optimum silica fume dosage was 20%, and the optimum fly ash and limestone powder dosages were 5%, respectively. Through this study, it was completely feasible to prepare RPC containing WSF. The use of WSF can reduce the cost of RPC.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Document information
    Title:

    Preparation of low-cost reactive powder concrete using waste steel fibres recycled from scrap tires

    Contributors:

    Xu, Xun (author) / Chen, Qianwa (author) / Yu, Bo (author) / Liu, Qian (author) / Zhang, Ronghua (author) / Liu, Yinghu (author)

    Published in:

    Road Materials and Pavement Design ; 24 ; 1254-1272

    Publication date:

    2023-05-04

    Size:

    19 pages

    ISSN:

    1468-0629 , 2164-7402

    DOI:

    https://doi.org/10.1080/14680629.2022.2067073

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Reactive powder concrete , waste steel fibres , fluidity , strength , low cost

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