Nanomechanics and Pore Structure of Sodium and Potassium Geopolymer Gels: Experiments, Molecular Dynamics and Coarse-Grained Simulations

Abstract

The link between composition, microstructure and mechanics of NASH and KASH gels is elusive, even in pure metakaolin-based geopolymers. This article exploits molecular mechanics, coarse-grained nanomechanics and micromechanics, to interpret new experimental results from microscopy, porosimetry and nanoindentation. KASH displays a finer nanogranular structure than NASH (3 vs 30 nm particle diameters, 5 vs 50 nm average pore diameters), higher skeletal density (2.3 vs 2.02 g/cm3), nanoindentation moduli (9.21 vs 7.5 GPa) and hardness (0.56 vs 0.37 GPa) despite a higher total porosity (0.48-0.53 vs 0.38). This suggests a stiffer and stronger solid skeleton for KASH, confirmed through predictive molecular dynamics simulations on recent and new models of NASH and KASH. The atomistic simulations inform mechanical interactions for new, coarse-grained, particle-based models of NASH and KASH. The resulting simulations predict the nanoindentation result that KASH is stiffer than equally porous NASH and the impact of formation eigenstresses on elastic moduli.

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