Concrete Mix Strength and Permeability with Various Supplementary Cementitious Materials

¹ Civil Engineering Department, University of Kirkuk, Kirkuk, Iraq
² Contract Department, Ministry of Higher Education and Scientific Research, Baghdad, Iraq

^a* Corresponding author ashereenjalil47@gmail.com
^b bmoayadmk@uokirkuk.edu.iq
^c cons_p_j@yahoo.com

Abstract

In order to reduce the amount of cement required, improve workability, mechanical properties, and durability, and have a positive environmental impact, supplementary cementitious materials are frequently utilized as a partial replacement for cement in concrete mixes. In this experimental investigation, the effects of employing waterproof and supplemental cementitious materials such as flyash, silica fume, and nano silica along with a water reduction agent were examined to increase the effectiveness and performance of concrete. The cement employed in this investigation, sulfate-resistant Portland cement, was partially substituted by the supplemental cementing components mentioned earlier to create concrete with a w/b ratio of (0.30-0.35) and C35 compressive strength. Thirteen various concrete mixtures were designed and tested at 28 days of age for compressive strength, splitting tensile strength, water sorptivity, absorption, and penetration depth under pressure. To enhance the dependability of the outcomes, three samples were evaluated, and their mean value was recorded. According to the research, mixing the chemicals with concrete resulted in a brand new substance that may meet the rising need for construction materials. All of the materials utilized in this study, with the exception of Water Proof, also showed good resistance to water absorption and strength improvement.