Effects of Ms modulus, Na concentration and fly ash content on properties of vapour-cured geopolymer mortars exposed to high temperatures

This study aimed to analyse the effects of silica modulus (Ms modulus), Na concentration and fly ash (FA) content on the mechanical and microstructural properties of vapour-cured (at 75 degrees C for 8 h) ground granulated blast furnace slag (GGBFS)-based geopolymer mortars (GPMs). For this purpose, 27 different GPM mixtures with 0, 25 and 50 % percentages of FA were produced. In the mixtures, the sodium silicate and NaOH were used for the mortar production at three different Ms of 0.25, 0.5 and 1.0, and the amount of activators was determined to provide 3, 6 and 9 % Na concentration as a percentage of total precursor (GGBFS or GGBFS + FA). Experimental results showed that the optimum Ms modulus was 0.5 for the vapour-cured mortars made with 0 % FA and was 1.0 for the vapour-cured mortars produced with 25 and 50 % FA. The highest flexural strength (Fs) and compressive strength (Cs) values were achieved on the vapour-cured mortars made with 6 % Na, and 50 % FA. Besides, the Fs/Cs ratio of vapour-cured mortars were improved with increasing FA content. Scanning electron microscopy/energy-dispersive X-ray spectroscopy (SEM/EDS) and polarized light microscopy (PLM) analyses showed that there were alterations and deteriorations in the microstructure of vapour-cured GPM matrixes exposed to high temperatures.

Automated summary

This study analysed the effects of silica modulus (Ms modulus), Na concentration and fly ash (FA) content on the mechanical and microstructural properties of vapor-cured geopolymer mortars. The results showed that the optimum Ms modulus was 0.5 for mortars without FA and 1.0 for mortars with 25% and 50% FA. The highest flexural strength and compressive strength values were achieved in mortars with 6% Na concentration and 50% FA. The microstructure of vapor-cured GPM matrixes exposed to high temperatures showed alterations and deteriorations.