This study evaluates the material characteristics and durability of a mixture of carbon-eating concrete (CEC) and electric arc furnace slag. Due to the high C3A content present in the electric arc furnace reducing slag binder used in the CEC mix, the initial and final setting times of CEC are observed to be 18.8% and 7.0% faster than those of ordinary Portland cement (OPC), respectively. The optimal carbon dioxide curing condition is determined by varying the pressure and temperature variables within the scope of this study. The 3-day compressive strength of CEC under optimal carbon dioxide curing conditions is observed to exceed the 28-day compressive strength of OPC. The formation of calcium carbonate, which contributes to early strength, is confirmed via scanning electron microscopy and thermogravimetric analysis. Additionally, CEC exhibits significantly higher improvements in abrasion resistivity and chloride-ion penetration resistivity when subjected to carbon dioxide curing compared to OPC.