@article{Mejía-Arcila_Valencia-Saavedra_Mejía de Gutiérrez_2020, title={Eco-efficient alkaline activated binders for manufacturing blocks and pedestrian pavers with low carbon footprint: Mechanical properties and LCA assessment}, volume={70}, url={https://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/2304}, DOI={10.3989/mc.2020.17419}, abstractNote={This study proposes using two types of binders based on fly ash (FA) as primary raw material and a calcium source such as ground granulated blast furnace slag (GBFS) or Portland cement (OPC) for the production of eco-efficient pre-fabricated materials. These binders are denoted FA/GBFS (70/30) and FA/OPC (80/20). A mix of commercial sodium silicate and sodium hydroxide was used as a traditional activator (SN), and the mix of rice husk ash (RHA) and NaOH as an alternative activator (RN). The results show the possibility of obtaining a binary cement (FA/GBFS-RN) with compressive strength up to 38 MPa after curing for 28 days and 65 MPa after curing for 360 days. The hybrid binder (FA/OPC-RN) reported 30 MPa and 61 MPa at the same age of curing. Additionally, FA/GBFS-RN reports reductions in the environmental and health impacts of up to 75% compared to systems made with sodium silicate and sodium hydroxide. Based on the results, FA/GBFS-RN paste was selected as the optimal material for producing masonry blocks and pedestrian pavers, which met the Colombian standards.}, number={340}, journal={Materiales de Construcción}, author={Mejía-Arcila, J. and Valencia-Saavedra, W. and Mejía de Gutiérrez, R.}, year={2020}, month={Nov.}, pages={e232} }