S. Boudali scite author profile

This paper aims to investigate the effect of fine recycled concrete powder (FRCP) on the strength of self-compacting concrete (SCC). For this purpose, a numerical artificial neural network (ANN) model was developed for strength prediction of SCC incorporating FRCP. At first, 240 experimental data sets were selected from the literature to develop the model. Approximately 60% of the database was used for training, 20% for testing, and the remaining 20% for the validation step. Model inputs included binder content, water/binder ratio, recycled concrete aggregates’ (RCA) content, percentage of supplementary cementitious materials (fly ash), amount of FRCP, and curing time. The model provided reliable results with mean square error (MSE) and regression values of 0.01 and 0.97, respectively. Additionally, to further validate the model, four experimental recycled self-compacting concrete (RSCC) samples were tested experimentally, and their properties were used as unseen data to the model. The results showed that the developed model can predict the compressive strength of RSCC with high accuracy.

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Microstructural Properties Of The Interfacial Transition Zone And Strength Development Of Concrete Incorporating Recycled Concrete Aggregate

Boudali¹,

Soliman²,

Abdulsalam³

et al. 2017

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S. Boudali

Performance of self-compacting concrete incorporating recycled concrete fines and aggregate exposed to sulphate attack

Influence of Fine Recycled Concrete Powder on the Compressive Strength of Self-Compacting Concrete (SCC) Using Artificial Neural Network

Microstructural Properties Of The Interfacial Transition Zone And Strength Development Of Concrete Incorporating Recycled Concrete Aggregate

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