Akademik Veri Yönetim Sistemi
Materials Today Sustainability, cilt.29, 2025 (SCI-Expanded, Scopus)
This study provides a comprehensive life cycle assessment (LCA) of geopolymer mortar (GM), demonstrating notable environmental, economic, and durability advantages over traditional cement mortar (TCM). The objective is to assess GM's performance and sustainability in comparison to TCM. The production of GM, which utilizes materials like metazeolite (MZ) calcined at 900 °C, red mud (RM), and ground granulated blast slag (GGBS) activated by NaOH and Na₂SiO₃ in a 2:1 ratio, is found to be more efficient. Durability tests revealed that GM's compressive strength improved by 60%–133%, with GMs containing 30% RM and 0.5% basalt fiber (BF) maintaining 36.71 MPa and those reinforced with 0.5% polyethylene fiber (PEF) retaining 35.94 MPa after 270 days of exposure to hydrochloric acid (HCl). When exposed to sulfuric acid (H₂SO₄), the samples with polyethylene fibers showed the least deterioration, retaining 37.27 MPa after 28 days. LCA results indicate that although the raw material costs for GM are roughly double those of TCM, the lifecycle expenses of GM are competitive due to 50% lower production costs, 100% higher transportation costs, and 33% lower maintenance costs. Furthermore, GM generates about one-third of the CO₂ emissions of TCM, representing a 67% reduction. GM also reduces toxicity potential by 70%, emitting fewer phosphates and nitrates. Additionally, GM disposal results in decreased CO₂ and methane emissions and less heavy metal leaching compared to TCM. The optimized GM mix achieved a TOPSIS score of 0.85, significantly higher than TCM's 0.45, highlighting GM's superior sustainability and overall performance.