Investigation of the Physical Mechanical Properties and Durability of Sustainable Ultra-High Performance Concrete with Recycled Waste Glass

Construction material sustainability and waste reuse have emerged as significant environmental issues. Concrete is widely used in the building engineering fields. Ultra-high performance concrete (UHPC), which has remarkably high mechanical properties, become one of most common varieties recent years. As a result, substantial amounts Portland cement (PC) are frequently used, raising initial cost UHPC restricting its broad use structural applications. A amount CO2 produced large natural resources consumed production. To make production more eco-friendly economically viable, it advised that PC preparations be replaced with different additives recycled aggregates from various sources substituted for aggregates. This research aims to develop an environmentally friendly cost-effective by using glass (GW) sizes alternative replacement ratios 0%, 10%, 20%, 30%, 40%, 50% utilizing powder (GP). Fine aggregate “sand (S)” also particles (G) 50%, 100%. accomplish this, 18 mixes, separated into three groups, made examined experimentally. Slump flow, water permeability, microstructural characteristics all studied. According results, increasing S ratio G improved workability. Furthermore, ideal replacing GP achieve properties were 20% respectively. Increasing rate place at fixed resulted decrease permeability values. Finally, analysis confirms experimental findings. In addition, PC100-S100 was best mix compared PC100-S50 G50 PC100-G100.