Akademik Veri Yönetim Sistemi
European Journal of Environmental and Civil Engineering, cilt.30, sa.1, 2026 (SCI-Expanded, Scopus)
In this study, the effect of fibre type (basalt and polyvinyl alcohol [PVA]) and usage ratio (0.4%, 0.8%, 1.2% by volume) on the physical and mechanical properties of low-molarity geopolymer composites based on blast furnace slag (BFS) and ceramic waste powder (CWP) was investigated. No study has been found in the literature that examines the effect of replacing basalt and PVA fibres with BFS and CWP-based geopolymers on mechanical properties. Unit weight, water absorption, void ratio, ultrasonic pulse velocity, abrasion, toughness, flexural strength, compressive strength (CS), high temperature and freeze-thaw cycles tests were carried out on the specimens to determine the physical and mechanical properties. In addition, microstructural analyses were implemented. As a result, the optimum series has been determined as P4. The CS of PVA-reinforced samples at 300 °C is 61%, 42% and 4% higher than that of basalt fibre-reinforced samples with the same ratio. Fibre usage can increase the mechanical properties and abrasion resistance, particularly due to the homogeneous distribution of PVA and its strong bond with the matrix. Additionally, PVA is more effective in reducing porosity/water absorption, enhancing microstructural integrity, delaying microcrack formation, increasing freeze-thaw resistance and may offer advantages in enhancing durability.