Abstract-The production of material results in the emission of a similar amount of carbon dioxide, a greenhouse gas that alters the climate unnaturally. To combat environmental problems, fly debris and ground granulated impact heater slag (GGBS) can be used as concrete substitutes due to their cementitious material qualities. Large amounts of fly debris are produced during the power age in warm plants as a side effect, and their removal is problematic. In contrast, GGBS supports lower fly debris in steel plants. Due to illegal digging, access to stream sand is also becoming more expensive and limited; as a result, manufactured sand is used as a substitute for waterway sand. Thus, the goal of this inquiry is to consider the compressive strength and flexural strength of geo-polymer concrete formed of M sand exposed to warm relieving at 500C and 600C with various activator arrangement proportions and molarity presentations at elevated temperature. In different blend extents, sodium hydroxide and sodium silicate combinations were used as antacid activators. Inorganic aluminohydride polymer, also known as geopolymer, is frequently made from silicon and aluminium particles found in fly ash and GGBS.