It is of most extreme significance to research the protection from flame of cement, the most generally utilized development material. Fire in a building can cause untold disaster. It has turned out to be important to think about the impact of high temperatures on concrete. Another matter of significance is that solid has turned out to be exorbitant inferable from the inaccessibility of adequate segment materials, particularly waterway sand. It has consequently turned out to be exceptionally fundamental to settle on an appropriate trade for sand and furthermore to think about its response to high temperature. In this exploratory examination, base fiery debris has been chosen for supplanting sand. This owes to its similarity in physical properties to that of sand. Steel filaments are additionally added to build the break protection of this solid. The blend composed was for M25 concrete under medium presentation condition. 3D squares were thrown by supplanting 25% of sand with base fiery debris. These were liable to warm treatment in a preheated stove, after a curing time of 28 days. The span of introduction of the solid shapes was for one, two and three hours at 500 degree Celsius and 1000 degree Celsius. The compressive quality of these shapes were then tried and contrasted and that of control solid shapes. The outcomes indicated slight increment in compressive quality for the 3D squares containing base powder. The warmth introduction for this situation supported quality advancement in these 3D shapes. It was additionally watched that the outcomes got were tasteful for M25 concrete.