Use of gypsum as a preventive measure for strength deterioration during curing in class F fly ash geopolymer system

Abstract

This study discusses strength deterioration during the curing process of fly ash geopolymer and the use of CaSO 4 ·2H 2 O (gypsum) as a deterioration remedy when the ash was synthesized using a 10M NaOH and Na-silicate solution. The strength decline was mainly due to the widespread formation of nanometer-sized cracks that were related to excessive Na and Si concentrations at an early age. Use of 2 wt% CaSO 4 ·2H 2 O resulted in the best measured strength by temporarily reducing Na and Si concentrations; Na was absorbed by SO 4 2-, up to 11% in the matrix within one day, and formed Na 2 SO 4 (thenardite), which gradually dissolved over time, slowly releasing Na ions. However, more than 4% gypsum suppressed overall strength development because too many Na ions were locked into Na 2 SO 4 and could not participate in geopolymerization. The addition of gypsum impeded glass dissolution and even halted the process when more than 4% gypsum was used.