| Popis: |
Due to an increase in global warming, the construction industry, like the rest of the world is turning towards sustainable solutions. The construction industry is the major contributor to global warming primarily due to the use of cement. Geopolymer is an eco-friendly construction material that utilizes zero cement for its production. However, the major issue that limits its commercial implementation is its complex mix design, which is not as straightforward as conventional concrete. As geopolymer contains more elements than conventional concrete, its mix design process is more challenging. Alongside there are no defined guidelines for material designing of geopolymer concrete, which makes the task of designing it quite time-consuming, uneconomical, and iterative. The objective of this research is to develop a machine learning model that can predict the mechanical and rheological properties of geopolymer concrete. An Artificial Neural Network-based model was developed, which takes the input of the mix's constituents and predicts both mechanical and rheological properties as a result. MAE (Mean square error) for compressive strength, elastic modulus, flexural strength, and slump value for a training set were 2.53, 0.72, 0.121, and 8.9, respectively, while MAE for the testing set was 4.32, 1.5, 0.65, and 19.7. These performance results of MAE seem excellent to be used for prediction. This paper will help in the effective design of geopolymer concrete with limited experimentation. |
