Examining microstructural evolution of Portland cements by in-situ synchrotron micro-tomography

Examining microstructural evolution of Portland cements by in-situ synchrotron micro-tomography

The application of synchrotron radiation X-ray computed micro-tomography (SR X-μCT) as a non-invasive approach to the microstructural investigation of Portland cement binders during hydration is presented. The two- and three-dimensional µm-scale imaging of undisturbed samples at hydration ages from...

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Bibliographic Details
Published in:Journal of materials science Vol. 50; no. 4; pp. 1805 - 1817
Main Authors: Parisatto, Matteo, Dalconi, Maria Chiara, Valentini, Luca, Artioli, Gilberto, Rack, Alexander, Tucoulou, Rémi, Cruciani, Giuseppe, Ferrari, Giorgio
Format: Journal Article
Language:English
Published: Boston Springer US 01-02-2015
Springer
Springer Nature B.V
Subjects:
Absorptivity
Cement
Cement paste
Cements
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Clinker
Computation
Crystallography and Scattering Methods
Data processing
Evolution
Heat treating
Hydration
Materials Science
Microstructure
Original Paper
Particle accelerators
Pastes
Polymer Sciences
Porosity
Portland cements
Radiographs
Solid Mechanics
Synchrotron radiation
Three dimensional
Tomography
X ray absorption
X ray microtomography
X-rays
Ordinary Portland Cement
Cement Paste
Ettringite
Hydration Product
Cementitious System
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Summary:The application of synchrotron radiation X-ray computed micro-tomography (SR X-μCT) as a non-invasive approach to the microstructural investigation of Portland cement binders during hydration is presented. The two- and three-dimensional µm-scale imaging of undisturbed samples at hydration ages from ~1.5 h to 3 days is used to obtain a direct visualization of the spatial and temporal relationships between different cement paste components. The microstructural evolution of two cementitious systems during the early stages of hydration is successfully monitored from the comparison of tomographic slices and volumes, clearly showing the progressive growth of hydration phases; the changes in the amount of porosity and unreacted clinker are also quantified. Some critical issues related to the experimental setup and data processing are addressed and discussed as well. Furthermore, a simple procedure to estimate the mean X-ray absorption coefficient of cement pastes from X-ray radiographs is illustrated. The results confirm the potentialities of synchrotron-based X-ray computed micro-tomography for the three-dimensional investigation of µm-scale modifications in hydrating cement pastes with an adequate time resolution, thus providing a real in-situ monitoring of the microstructural evolution of such complex materials.
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ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-014-8743-9