Mechanical, thermal insulation, thermal resistance and acoustic absorption properties of geopolymer foam concrete

Abstract

This study reports the synthesis and characterization of geopolymer foam concrete (GFC). A Class F fly ash with partial slag substitution was used for GFC synthesis by mechanical mixing of preformed foam. The GFCs exhibited 28d compressive strengths ranging from 3 to 48MPa with demolded densities from 720 to 1600kg/m3 (105°C oven-dried densities from 585 to 1370kg/m3), with the different densities achieved through alteration of the foam content. The thermal conductivity of GFCs was in the range 0.15–0.48W/mK, showing better thermal insulation properties than normal Portland cement foam concrete at the same density and/or at the same strength. The GFC derived from alkali activation of fly ash as a sole precursor showed excellent strength retention after heating to temperatures from 100 to 800°C, and the post-cooling compressive strength increased by as much as 100% after exposure at 800°C due to densification and phase transformations. Partial substitution of slag for fly ash increased the strength of GFC at room temperature, but led to notable shrinkage and strength loss at high temperature. Thin GFC panels (20–25mm) exhibited acoustic absorption coefficients of 0.7–1.0 at 40–150Hz, and 0.1–0.3 at 800–1600Hz.