Residual stress on ettringite crystals in mature Type K shrinkage-compensating cement pastes: Fid-Bau Portal

Residual stress on ettringite crystals in mature Type K shrinkage-compensating cement pastes

Aivazyan, Ashot P. / Monteiro, Paulo J.M. / Kirchheim, Ana Paula / Prinz, Sebastian / Mkrtchyan, Vahram P. / Harutyunyan, Valeri S.

Abstract

Highlights • Formation of ettringite coating on partially hydrated ye’elimite particles is revealed. • Above specified “ye’elimite-ettringite” core–shell particles form large agglomerates. • In these core–shell particles, the stress on ettringite particles is extremely high. • The stress on ettringite increases with the content of ye’elimite admixture. • The shrinkage-compensating effect is expected at 9–12 wt% content of ye’elimite.

Abstract This study is mainly focused on investigation of the relative content, morphology, chemical composition, microstructural parameters, and the deformation state (mechanical strains and stresses) of ettringite [Ca6Al2(SO4)3(OH)12·26H2O] crystals in 1-year-old Type K shrinkage-compensating cement pastes depending on variation of the relative content of ye’elimite admixture (YA) up to 12 wt%. The XRD, SEM-EDS, and optical microscopy techniques were used as characterization methods. Amongst the identified main hydration products in cement pastes: ettringite, calcium-silicate-hydrate (C-S-H), and calcium hydroxide (CH), with increase of the content of YA from 3 wt% to 12 wt% the relative content of the C-S-H and CH phases strongly decreases, whereas the content of ettringite considerably increases. In YA-containing cement pastes, it is revealed formation of near-spherical “ye’elimite–ettringite” clusters (a cluster is composed of a partially hydrated ye’elimite particle/core covered by small-sized, $\approx 1$ μm, radially oriented ettringite crystallites) that exhibit toroid-like agglomerations. For reference sample (prepared from Portland cement with no YA), the average stress components $σ_{a}$ and $σ_{c}$ on etteringite crystals (along the a and c crystallographic axes, respectively) are determined to be −6.6 and −40 MPa, respectively. With increase of the content of YA in cement paste the stress components on etteringite crystals strongly increase reaching maximum values $σ_{a} = - 163.9$ MPa and $σ_{c} = - 76.9$ MPa at 12 wt% of the YA. According to a discussed model, the activation of the shrinkage-compensating effect in YA-containing cement pastes is attributed to formation of the “ye’elimite–ettringite” clusters with a sufficiently high concentration. It is predicted that, amongst the examined samples, the shrinkage-compensating effect is achieved in cement pastes with the YA contents of 9 and 12 wt%.