Mohammed Aboustait scite author profile

Disagreements about the mechanisms of cement hydration remain despite the fact that portland cement has been studied extensively for over 100 years. One reason for this is that direct observation of the change in microstructure and chemistry are challenging for many experimental techniques. This paper presents results from synchrotron nano X-ray tomography and fluorescence imaging. The data show unprecedented direct observations of small collections of C3S particles before and after different periods of hydration in 15 mmol/L lime solution. X-ray absorption contrast is used to make three dimensional maps of the changes of these materials with time. The chemical compositions of hydration products are then identified with X-ray fluorescence mapping and scanning electron microscopy. These experiments are used to provide insight into the rate and morphology of the microstructure formation.

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Combined three-dimensional structure and chemistry imaging with nanoscale resolution

Aboustait

Ley

et al. 2014

Acta Materialia

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Direct measurements of 3d structure, chemistry and mass density during the induction period of C3s hydration

Aboustait

Kim

et al. 2016

Cement and Concrete Research

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The reasons for the start and end of the induction period of cement hydration remain topic of controversy. One long-standing hypothesis is that a thin metastable hydrate forming on the surface of cement grains significantly reduces the particle dissolution rate; the eventual disappearance of this layer re-establishes higher dissolution rates at the beginning of the acceleration period. However, the importance, or even the existence, of this metastable layer has been questioned because it cannot be directly detected in most experiments. In this work, a combined analysis using nano-tomography and nano-X-ray fluorescence makes the direct imaging of early hydration products possible. These novel X-ray imaging techniques provide quantitative measurements of 3D structure, chemical composition, and mass density of the hydration products during the induction period. This work does not observe a low density product on the surface of the particle, but does provide insights into the formation of etch pits and the subsequent hydration products that fill them.

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Using micro X-ray fluorescence to image chloride profiles in concrete

Moradllo

Sudbrink

et al. 2017

Cement and Concrete Research

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Physical and chemical characteristics of fly ash using automated scanning electron microscopy

Aboustait

Kim

Ley

et al. 2016

Construction and Building Materials

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