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    ANN models for nano silica/ silica fume concrete strength prediction

    New search for: Osama A. Hodhod
    New search for: Mohamed S. Khalafalla
    New search for: Mohamed S.M. Osman

    ABSTRACTArtificial Neural Network (ANN) modelswere built to expect the compression strength of various types of concrete incorporatingnano silica (NS) and silica fume (SF) as partial cement replacement. The mixtures data used in the networks model,which was collected from previous researchers, studied the effect of NS and SF on concrete. The previous researchers experimentally tested the specimens containing up to 10% of NS and up to 20% of SF as a partial cement replacement at age 7 and 28 days. A total of 488 experiments were used as data sets to train and test the network. The input parameters, like cement content, nano silica, water to cement ratio, and aggregate type and proportion, were varied for each experiment. Three sets of data were modeled using ANNs for both ages 7 and 28 days to predict the strength. The maximum average error of the three models did not exceed 10% of the exact result.

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    ANN models for nano silica/ silica fume concrete strength prediction

    New search for: Osama A. Hodhod
    New search for: Mohamed S. Khalafalla
    New search for: Mohamed S.M. Osman

    ABSTRACTArtificial Neural Network (ANN) modelswere built to expect the compression strength of various types of concrete incorporatingnano silica (NS) and silica fume (SF) as partial cement replacement. The mixtures data used in the networks model,which was collected from previous researchers, studied the effect of NS and SF on concrete. The previous researchers experimentally tested the specimens containing up to 10% of NS and up to 20% of SF as a partial cement replacement at age 7 and 28 days. A total of 488 experiments were used as data sets to train and test the network. The input parameters, like cement content, nano silica, water to cement ratio, and aggregate type and proportion, were varied for each experiment. Three sets of data were modeled using ANNs for both ages 7 and 28 days to predict the strength. The maximum average error of the three models did not exceed 10% of the exact result.

    Access

    Download

    ANN models for nano silica/ silica fume concrete strength prediction

    New search for: Osama A. Hodhod
    New search for: Mohamed S. Khalafalla
    New search for: Mohamed S.M. Osman

    ABSTRACTArtificial Neural Network (ANN) modelswere built to expect the compression strength of various types of concrete incorporatingnano silica (NS) and silica fume (SF) as partial cement replacement. The mixtures data used in the networks model,which was collected from previous researchers, studied the effect of NS and SF on concrete. The previous researchers experimentally tested the specimens containing up to 10% of NS and up to 20% of SF as a partial cement replacement at age 7 and 28 days. A total of 488 experiments were used as data sets to train and test the network. The input parameters, like cement content, nano silica, water to cement ratio, and aggregate type and proportion, were varied for each experiment. Three sets of data were modeled using ANNs for both ages 7 and 28 days to predict the strength. The maximum average error of the three models did not exceed 10% of the exact result.

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    Title:

    ANN models for nano silica/ silica fume concrete strength prediction

    Contributors:

    Osama A. Hodhod (author) / Mohamed S. Khalafalla (author) / Mohamed S.M. Osman (author)

    Published in:

    Water Science, Vol 33, Iss 1, Pp 118-127 (2019)

    Publication date:

    2019

    ISSN:

    2357-0008

    DOI:

    https://doi.org/10.1080/11104929.2019.1669005

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Concrete mixing proportions , nano silica , silica fume , compressive strength , artificial neural network , Hydraulic engineering , TC1-978 , Environmental technology. Sanitary engineering , TD1-1066

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

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    ANN models for nano silica/ silica fume concrete strength prediction

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    Strength performance of silica fume concrete

    Ghugal, Y.M. / Waghe, U.P. / Asian Institute of Technology | British Library Conference Proceedings | 2006

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    Apparent Strength Retrogression of Silica-Fume Concrete

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