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Title: In situ X-ray pair distribution function analysis of accelerated carbonation of a synthetic calcium-silicate-hydrate gel

Journal Article · · J. Mater. Chem. A
DOI:https://doi.org/10.1039/C5TA00348B· OSTI ID:1178463
;  [1]
  1. Princeton
+ Show Author Affiliations

Calcium–silicate–hydrate (C–S–H) gel is the main binder component in hydrated ordinary Portland cement (OPC) paste, and is known to play a crucial role in the carbonation of cementitious materials, especially for more sustainable alternatives containing supplementary cementitious materials. However, the exact atomic structural changes that occur during carbonation of C–S–H gel remain unknown. Here, we investigate the local atomic structural changes that occur during carbonation of a synthetic calcium–silicate–hydrate gel exposed to pure CO₂ vapour, using in situ X-ray total scattering measurements and subsequent pair distribution function (PDF) analysis. By analysing both the reciprocal and real-space scattering data as the C–S–H carbonation reaction progresses, all phases present during the reaction (crystalline and non-crystalline) have been identified and quantified, with the results revealing the emergence of several polymorphs of crystalline calcium carbonate (vaterite and calcite) in addition to the decalcified C–S–H gel. Furthermore, the results point toward residual calcium being present in the amorphous decalcified gel, potentially in the form of an amorphous calcium carbonate phase. As a result of the quantification process, the reaction kinetics for the evolution of the individual phases have been obtained, revealing new information on the rate of growth/dissolution for each phase associated with C–S–H gel carbonation. Moreover, the investigation reveals that the use of real space diffraction data in the form of PDFs enables more accurate determination of the phases that develop during complex reaction processes such as C–S–H gel carbonation in comparison to the conventional reciprocal space Rietveld analysis approach.

Research Organization:
Argonne National Laboratory (ANL), Argonne, IL (United States). Advanced Photon Source (APS)
Sponsoring Organization:
UNIVERSITY
OSTI ID:
1178463
Journal Information:
J. Mater. Chem. A, Vol. 2, Issue (16) ; 2015
Country of Publication:
United States
Language:
ENGLISH
Citation Metrics:
Cited by: 69 works
Citation information provided by
Web of Science

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Cited By (6)

CO2 adsorption on calcium silicate hydrate gel synthesized by double decomposition method journal February 2020
Unlocking the role of MgO in the carbonation of alkali-activated slag cement journal January 2018
Deciphering mineralogical changes and carbonation development during hydration and ageing of a consolidated ternary blended cement paste journal January 2018
Thermal evolution of hydrates in carbonation-cured Portland cement journal January 2018
Synchrotron pair distribution function analyses of ye'elimite-based pastes journal March 2019
In situ quasi-elastic neutron scattering study on the water dynamics and reaction mechanisms in alkali-activated slags text January 2019

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