Influence of supplementary cementitious materials in the concrete’s compressive strength through artificial neural network

Influence of supplementary cementitious materials in the concrete’s compressive strength through artificial neural network

Supplementary cementitious materials have been proven to be effective partial cement replacements in concrete to reduce greenhouse gas emissions from the use of ordinary Portland cement. In this study, artificial neural network was used to arrive at a predictive model to assess their effects in the...

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Veröffentlicht in:E3S web of conferences 2022, Vol.347, p.2004
Hauptverfasser: Ongpeng, Jason Maximino, Clemente, Spiro Jensen, Ong, Carl Gavin, Te, Dustin Dominic, Tecson, Jerson Vincent, Roxas, Cheryl Lyne
Format: Artikel
Sprache:eng
Schlagworte:
Artificial neural networks
Blast furnace gas
Blast furnace practice
Blast furnace slags
Cement
Compressive strength
Concrete
Datasets
Emissions
Emissions control
Granulation
Greenhouse effect
Greenhouse gases
Neural networks
Portland cement
Portland cements
Prediction models
Silica
Silica fume
Slag
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Zusammenfassung:Supplementary cementitious materials have been proven to be effective partial cement replacements in concrete to reduce greenhouse gas emissions from the use of ordinary Portland cement. In this study, artificial neural network was used to arrive at a predictive model to assess their effects in the compressive strength of concrete. Collection of 991 datasets from published literatures was done for the development of the best network model with acceptable root mean square error for both training and testing datasets. The supplementary cementitious materials were ranked accordingly using the improved stepwise method and network simulation. From the results, ground granulated blast-furnace slag with 15% cement replacement and silica fume with 30% cement replacement contributed to the highest increase in compressive strength.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/202234702004