Eco-cements are a desirable alternative to ordinary Portland
cements because of their lower CO2 footprints. Some ye’elimite-based ecocements
are attracting a lot of interest. Understanding the reasons for the
mechanical performances requires the characterization of features such as mass
density of the hydrated component phases, including the amorphous gel, on
the submicrometer scale, which is challenging. Here we use ptychographic Xray
computed tomography to provide 3D mass density and attenuation
coefficient distributions of eco-cement pastes with an isotropic resolution close
to 100 nm allowing to distinguish between component phases with very
similar contrast. In combination with laboratory techniques such as the
Rietveld method, 27Al MAS NMR, and electron microscopies, we report compositions and densities of key components. The
ettringite and gel volume distributions have been mapped out in the segmented tomograms. Moreover, we discriminate between
an aluminum hydroxide gel and calcium aluminum monosulfate, which have close electron density values. Specifically, the
composition and mass density of two aluminum hydroxide gel agglomerates have been determined: (CaO)0.04Al(OH)3·2.3H2O
with 1.48(3) g·cm−3 and (CaO)0.12Al(OH)3 with 2.05(3) g·cm−3, which was a long-standing challenge.