Real-life strategies are applied to assess pavement functionality, high-quality performance, and durability throughout its service life. This study evaluates the sustainable rigid pavement construction using Jordanian natural zeolite (JNZ), silica fume (SF), porcelain tile waste (PTW), and spent coffee grounds (SCG) as supplementary materials. This novel technique is an original contribution to the emerging research on the long-term, durable, sustainable, and performance-based characteristics of pavements under the constraints of structural soundness. The research focused on the incorporation of sustainable building materials, specifically Jordanian Natural Zeolite in concrete structures. Further, the study described both the properties of concrete and cement savings from replacing JNZ in OPC and SRC clinkers. Furthermore, the research also compared the normal concrete with JNZ-enhanced concrete as an SCM with different proportions of cement replacement. Replacing 10% of the cement in the concrete mix increases permeability and durability. Moreover, the eco-friendly concrete is produced by using 25% of the PTW as a coarse aggregate replacement. It enhanced the workability, permeability, and mechanical characteristics of the sustainable concrete mixture. Research study also utilized spent coffee grounds (SCG) to produce sustainable CRCP structural concrete, burned at 350°C and 800°C to pyrolyze their organic compounds. It was also concluded that the 15 % SCG at 350ºC concrete mix offered the best workability, permeability, sulfate resistance, mechanical properties, and impact on the natural environment. The EIA and chemical assessments also highlighted how constructing sustainable CRCP structures improved performance, saved material resources, and reduced the carbon footprint compared to earlier mixes.
