Abstract
The recycled aggregate is an alternative with great potential to replace the conventional concrete alongside with other benefits such as minimising the usage of natural resources in exploitation to produce new conventional concrete. Eventually, this will lead to reducing the construction waste, carbon footprints and energy consumption. This paper aims to study the recycled aggregate concrete compressive strength using Artificial Neural Network (ANN) which has been proven to be a powerful tool for use in predicting the mechanical properties of concrete. Three different ANN models where 1 hidden layer with 50 number of neurons, 2 hidden layers with (50 10) number of neurons and 2 hidden layers (modified activation function) with (60 3) number of neurons are constructed with the aid of Levenberg-Marquardt (LM) algorithm, trained and tested using 1030 datasets collected from related literature. The 8 input parameters such as cement, blast furnace slag, fly ash, water, superplasticizer, coarse aggregate, fine aggregate, and age are used in training the ANN models. The number of hidden layers, number of neurons and type of algorithm affect the prediction accuracy. The predicted recycled aggregates compressive strength shows the compositions of the admixtures such as binders, water–cement ratio and blast furnace–fly ash ratio greatly affect the recycled aggregates mechanical properties. The results show that the compressive strength prediction of the recycled aggregate concrete is predictable with a very high accuracy using the proposed ANN-based model. The proposed ANN-based model can be used further for optimising the proportion of waste material and other ingredients for different targets of concrete compressive strength.
Highlights
With the widespread popularisation and application of new modern technologies, the development of industrialisation worldwide is accelerating, and resources consumption and environmental damages are becoming extremely worrying
More construction waste has been accumulated from time to time
This study considers 8 inputs parameters: water, cement, fine aggregate, coarse aggregate, blast furnace slug, fly ash, superconcreted are used to develop concrete compressive strength prediction models by plasticizer and day
Summary
With the widespread popularisation and application of new modern technologies, the development of industrialisation worldwide is accelerating, and resources consumption and environmental damages are becoming extremely worrying. Throughout the development process of human civilisation construction, concrete materials began to be produced and used as early as the early 19th century [2]. At present, it is one of the most widely used as the building materials in the construction industry [3,4,5]. With the rapid economic development and the acceleration of urbanisation, the per capita consumption of concrete materials is increasing day by day
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