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Computers and Concrete Volume 26, Number 4, October 2020 , pages 309-316 DOI: https://doi.org/10.12989/cac.2020.26.4.309 |
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Optimization of cost and mechanical properties of concrete with admixtures using MARS and PSO |
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Reza Sarkhani Benemaran and Mahzad Esmaeili-Falak
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| Abstract | ||
| The application of multi-variable adaptive regression spline (MARS) in predicting he long-term compressive strength of a concrete with various admixtures has been investigated in this study. The compressive strength of concrete specimens, which were made based on 24 different mix designs using various mineral and chemical admixtures in different curing ages have been obtained. First, The values of fly ash (FA), micro-silica (MS), water-reducing admixture (WRA), coarse and fine aggregates, cement, water, age of samples and compressive strength were defined as inputs to the model, and MARS analysis was used to model the compressive strength of concrete and to evaluate the most important parameters affecting the estimation of compressive strength of the concrete. Next, the proposed equation by the MARS method using particle swarm optimization (PSO) algorithm has been optimized to have more efficient equation from the economical point of view. The proposed model in this study predicted the compressive strength of the concrete with various admixtures with a correlation coefficient of R=0.958 rather than the measured compressive strengths within the laboratory. The final model reduced the production cost and provided compressive strength by reducing the WRA and increasing the FA and curing days, simultaneously. It was also found that due to the use of the liquid membrane-forming compounds (LMFC) for its lower cost than water spraying method (SWM) and also for the longer operating time of the LMFC having positive mechanical effects on the final concrete, the final product had lower cost and better mechanical properties. | ||
| Key Words | ||
| high strength concrete, compressive strength prediction, fly ash, micro-silica, MARS, PSO, cost optimization | ||
| Address | ||
| Reza Sarkhani Benemaran: Department of Civil Engineering, Faculty of Geotechnical Engineering, University of Tabriz, Tabriz, Postal code: 5613814931, Iran Mahzad Esmaeili-Falak: Department of Civil Engineering, Tehran North Branch, Islamic Azad University, Tehran, Postal code: 1651153311, Iran | ||