The construction industry relies on a variety of structural materials, with concrete being a favored choice due to its outstanding strength and durability. Conventional concrete typically made up of cement, fine aggregates, and crude aggregates, with its strength tailored to meet specific requirements. Enhancing sustainability and minimizing environmental impact Can be accomplished through Utilizing waste substances in concrete production. One approach involves partially replacing Cement and fine aggregates blended with waste glass powder. Additionally, superplasticizers serve as commonly utilized to lower Water cement ratio (F/C), thereby improving Power properties concrete. Effective curing remains a crucial factor in augmenting structural durability and concrete's mechanical characteristics structures. Study examines strength and durability characteristics Concrete From integration Using glass powder in place of certain cement and fine aggregate. Cement-based material mixtures are prepared with two different w/c values of 0.4 and 0.5—and replacement Concentrations of 10%, 15%, and 20% for both the binder and fine aggregates. Essential parameters include fast chloride permeability, water absorption, The compressive and split tensile strengths observed to be evaluated. Comparative analyses are conducted to determine performance differences between conventional concrete and the modified version. The results of By assessing the viability of adding leftover glass powder to concrete, this study aims to improve environmentally friendly building techniques