J. J. Feng, R. F. Zhang, L. L. Gong, Y. Li, W. Cao and X. D. Cheng (2015) Development of porous fly ash-based geopolymer with low thermal conductivity. Journal/Materials & Design 65 529-533. [In English]
Web link: http://dx.doi.org/10.1016/j.matdes.2014.09.024
Keywords: COMPRESSIVE STRENGTH; INORGANIC POLYMER; SODIUM POLYSIALATE; CONCRETE; TEMPERATURE; TECHNOLOGY; AGGREGATE; SILICA; HUSK
Abstract: Porous fly ash-based geopolymer material was produced using fly ash and sodium water glass as original material and H2O2 as foaming agent. The changes caused by the geopolymerization and decomposition of H2O2 on the properties of the final products were investigated by applying curing on geopolymer mortars with different amounts of sodium water glass (60, 80 and 100 g) and H2O2 (4, 6 and 8 g) added at various curing temperatures. The samples were cured at two different temperatures (55 and 85 degrees C). Physical properties such as porosity, density and thermal conductivity and mechanical property were determined from the completely dried samples. As a result, this study confirmed that the amount of sodium water glass, H2O2 and curing temperature had effects on properties of the samples. Given the compressive strength obtained and the environmental and economic effect, the optimal thermal curing temperature and the amount of sodium water glass and H2O2 were 55 degrees C, 80 g and 6 g, respectively. Sample synthesized at this condition had porosity of 79.9%, thermal conductivity of 0.0744 W/m K and compressive strength of 0.82 MPa. Therefore, it shows promise as thermal insulation material in some situations. (C) 2014 Elsevier Ltd. All rights reserved.