Presently a-days with a quick populace development and a more appeal for lodging and foundation, joined by late advancements in structural designing, for example, elevated structures and long-range spans, higher compressive quality cement was required. As the foremost crude material in concrete is concrete which radiates CO2 during its creation some customary materials are utilized to decrease the utilization of concrete. In this examination, impacts of mineral admixtures on flexural quality and compressive quality of cements containing silica smolder (SF), fly debris (FA) and rice husk ash (RHA) were tentatively explored. The current work centers around M60 grade concrete with halfway substitution of concrete utilizing fly debris, rice husk debris and silica seethe (FA + RHA + SF = 30%) for three unique proportions i.e., FA:RHA:SF = 20:05:05, FA:RHA:SF = 18:06:06, FA:RHA:SF = 16:07:07. The real water concrete proportion utilized in blend structure for M60 grade concrete is 0.29 for 50 mm to 75 mm droop. The solid shapes and shafts are casted and tried for compressive quality and flexural quality separately at 7 years old days and 28 days.