Optimization of Concrete Mix Design Using Fractional Factorial Design and Response Surface Methodology
Dauran, N.S. *
Department of Statistics, Usmanu Danfodiyo University, Sokoto State, Nigeria.
Musa, R.H.
Department of Statistics, Usmanu Danfodiyo University, Sokoto State, Nigeria.
*Author to whom correspondence should be addressed.
Abstract
The study addresses the critical issue of optimizing construction materials to enhance structural integrity, minimize cracks, and prevent building collapses in Nigeria. It utilizes fractional factorial design and response surface methodology (RSM) to systematically determine the optimal parameters for concrete mix design to achieve maximum compressive strength. The key factors studied included standard sand size, curing time, water-cement ratio, type of cement, and stone gravel size. Minitab software was employed for its powerful statistical analysis capabilities, enabling efficient execution of fractional factorial design and response surface methods to analyse the data. The analysis revealed that the type of cement, water-cement ratio, and standard sand size significantly influenced compressive strength. The optimal conditions identified were: standard sand size of 20 mm, water-cement ratio of 0.5, BUA cement type, stone gravel size of 20 mm, and curing time of 28 days, achieving a predicted compressive strength of 44.175 MPa. The model demonstrated high reliability with an R-squared value of 99.50%. The findings offer valuable insights for enhancing the quality of building materials in the construction industry. By applying the optimized parameters, stakeholders can significantly improve structural integrity, reduce building failures, and ensure longer-lasting, safer constructions. This can lead to more durable infrastructure in Nigeria, addressing critical issues related to building safety and material performance.
Keywords: Optimization, construction materials, fractional factorial design, response surface methodology, compressive strength, building safety