Akademik Veri Yönetim Sistemi
Construction and Building Materials, cilt.422, 2024 (SCI-Expanded, Scopus)
This study addresses the literature gap by investigating the durability effects of potassium activators in metakaolin (MK) and granulated blast furnace slag (GBFS) based geopolymer mortars (GMs), particularly in freezing-thawing cycles and sulfate resistance. It explores enhancing GMs' strength and sustainability with marble powder (MP). The research evaluates GMs' resilience against high temperatures, freezing-thawing cycles, and sulfate exposure by assessing binders, activators, molarity optimization, and mechanical properties. Using NaOH+Na2SiO3 and KOH+K2SiO3 activators, GM formulations began with a 100% RILEM sand series (6–12 M). Compressive, flexural strength and UPVs were assessed at 7, 28, and 90 days. Optimal ratios were 0.9 for sodium-activated GMs and 0.8 for potassium-activated GMs. Maintaining a consistent 50% MK and 50% GBFS binder, MP was added to the mixture with optimum molarity. Using RILEM sand as a fine aggregate, GMs exhibited an optimum molarity of 10 M. Surpassing 50% MP adversely affected strength. Both activators excelled in the 100% RILEM sand series, reaching 45 MPa compressive strength at 28 days and 50 MPa at 90 days. High-temperature analyses showed a decrease at 300°C compared to the 90-day series, and the compressive strength of KOH+K2SiO3-activated GMs increased at 600°C. Analyses at 900°C revealed significant reductions, exacerbated by MP replacing RILEM sand. Freezing-thawing and sulfate resistance tests negatively impacted GMs when replacing RILEM sand with MP, with the KOH+K2SiO3 activator having a more pronounced influence. Incorporating MP into GMs enhances performance and promotes sustainable production, offering benefits in both performance and environmental aspects.