Artificial Neural Network Modelling for Asphalt Concrete Samples with Boron Waste Modification

Abstract

Civil engineering science has evolved into the 21st century with concepts of recycling and sustainability. It is one of the most important goals of this century to create sustainable habitats by evaluating waste materials in building materials. This study aims to eliminate the boron waste dunes that have occurred and continue to occur in our country which has the world's largest boron reserves by using in road materials. Solid boron wastes obtained from the field were crushed and added to asphalt samples in certain ratios and the effect of Crushed Boron Waste (CBW) on asphalt samples were investigated. As a result of Marshall Design Method, it has been proved that boron wastes can be used in asphalt concrete within the specification limits. Besides, an artificial neural network (ANN) model was created for the evaluation of obtained data. As a result of Marshall Design Method, it has been proved that boron wastes can be used in asphalt concrete within the specification limits. Furthermore, examination of modelling and statistical analysis, mechanical performance of asphalt concrete samples with and without CBW addition has been predicted in noticeable manner. As a result of regression analysis, training and test sets r2 values are reached 0.95-0.91 for stability and 0.91-0.87 for flow values. Finally, a simulation was prepared with the created model and the effect of boron wastes on asphalt samples were examined in more detail.