Abstract
Using recycled aggregate in concrete is one of the best ways to reduce construction pollution and prevent the exploitation of natural resources to provide the needed aggregate. However, recycled aggregates affect the mechanical properties of concrete, but the existing information on the subject is less than what the industry needs. Compressive strength, on the other hand, is the most important mechanical property of concrete. Therefore, having predictive models to provide the required information can be helpful to convince the industry to increase the use of recycled aggregate in concrete. In this research, three different optimization algorithms including genetic algorithm (GA), salp swarm algorithm (SSA), and grasshopper optimization algorithm (GOA) are employed to be hybridized with artificial neural network (ANN) separately to predict the compressive strength of concrete containing recycled aggregate, and a M5P tree model is used to test the efficiency of the ANNs. The results of this study show the superior efficiency of the modified ANN with SSA when compared to other models. However, the statistical indicators of the hybrid ANNs with SSA, GA, and GOA are so close to each other.
Highlights
Every year, a massive proportion of construction and demolished waste (C&DW) is produced all around the world
In the ith run, the ith fold is served as validation and testing dataset, and other folds are served for training
mean absolute bias error (MBE) indicates that the ANN with SSA (ANNSSA), the ANNGOA, and the M5P tree overestimate the compressive strength while the ANN with GA (ANNGA) underestimates that
Summary
A massive proportion of construction and demolished waste (C&DW) is produced all around the world. In most of the cases, a poor mechanical performance results after using recycled aggregate in concrete and that is the major reason behind the lack of tendency from the consumer’s perspective in using more of this environmental alternative [4,5,6,7]. Behnood and Golafshani [37], has used M5P three model to estimate mechanical properties of concrete containing used foundry sand. Their results show that the M5P three model has an acceptable performance to predict the properties of concrete. The results are analyzed and compared with each other
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