Abstract
Concrete is the most widely used building material, but it is also a recognized pollutant, causing significant issues for sustainability in terms of resource depletion, energy use, and greenhouse gas emissions. As a result, efforts should be concentrated on reducing concrete’s environmental consequences in order to increase its long-term viability. In order to design environmentally friendly concrete mixtures, this research intended to create a prediction model for the compressive strength of those mixtures. The concrete mixtures that were used in this study to build our proposed prediction model are concrete mixtures that contain both recycled aggregate concrete (RAC) and ground granulated blast-furnace slag (GGBFS). A white-box machine learning model known as multivariate polynomial regression (MPR) was developed to predict the compressive strength of eco-friendly concrete. The model was compared with the other two machine learning models, where one is also a white-box machine learning model, namely linear regression (LR), and the other is the black-box machine learning model, which is a support vector machine (SVM). The newly suggested model shows robust estimation capabilities and outperforms the other two models in terms of R2 (coefficient of determination) and RMSE (root mean absolute error) measurements.
Highlights
Introduction iationsMost emerging nations have experienced a tremendous expansion in industrialization and urbanization in recent decades, resulting in a large increase in demand for natural raw resources
Because the RMSE has similar values as the output variables, it was applied to measure the accuracy of the compressive strength values forecasted by each model
This study focused on the idea of using a white-box machine learning method, such as multivariate polynomial regression (MPR), to build prediction equations for the compressive strength of eco-friendly concrete
Summary
Most of the above-mentioned studies performed machine learning and artificial intelligence models to forecast the compressive strength of eco-friendly concrete. Despite their excellent performance in the process of predicting the mechanical properties of concrete, they work as a complex system that is hard to implement and interpret. Previous researchers built a prediction model for compressive strength for eco-friendly concrete that contains either RCA as a replacement material for natural aggregate or GGBFS as a replacement material for ordinary cement, but not both. In this study a prediction model for the compressive strength of concrete that contains both.
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