Abstract
The performance of alkaline activated ground slag/ultrafine palm oil fuel ash (AAGU) mortars upon their exposure to 6% of H2SO4aq (acid) for 60 days was investigated. The mortars were prepared with NaOHaq of varied concentrations and Na2SiO3aq (Ms-SiO2/Na2O = 3.3) activators and then cured at a temperature of 60 degrees C for 24 h. The findings through strength, microstructural examination, and product characterization revealed that sulfuric acid attack could cause the disintegration of microstructure through the removal of the key elements-Ca, Mg, Na and Al-which resulted in the formation of gypsum, expansive shrinkage cracks, and a reduction in strength retention. Maintaining the slag content, concentration of NaOHaq, Na2SO3aq/NaOHaq ratio, and the mixing water content in the range of 20-40 wt.%, 8-10 M, 1.0-2.5, 5-10 wt.% of the pozzolanic materials (PMs), respectively could enhance the resistance of AAGU mortar subjected to sulfuric acid attack. (C) 2015 American Society of Civil Engineers.