Rikard Ylmén scite author profile

Carbonation is a natural ageing process for cement. This study focuses on how the carbonation rate varies with selected hydration times and atmospheric conditions during the early stages of reacting dried cement paste. Diffuse reflection Fourier transform infrared spectroscopy is shown to be a suitable technique to monitor the formation of carbonates in cement. Combined with a previously developed freeze drying technique, carbonation can be studied at specific hydration stages. In ambient air both calcium hydroxide and calcium silicate hydrate (C-S-H) in cement are carbonated. Increased hydration time enhances the carbon dioxide uptake, which indicates that the calcium in the hydration products reacts more easily than the calcium in the clinker phase. In a humid CO 2 atmosphere, the carbonation process is so pronounced that it decomposes C-S-H into calcium carbonate and silica. In a moist N 2 atmosphere no carbonation occurs, but the sulfate chemistry of the cement seems to be affected due to the formation of ettringite.

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Insights into early hydration of Portland limestone cement from infrared spectroscopy and isothermal calorimetry

Ylmén

Wadsö

Panas

2010

Cement and Concrete Research

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Crystal structure of radium sulfate: An X-ray powder diffraction and density functional theory study

Matyskin

Ylmén

Lagerkvist

et al. 2017

Journal of Solid State Chemistry

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Morphological and chemical characterization of tooth enamel exposed to alkaline agents

Taube

Ylmén

Shchukarev

et al. 2010

Journal of Dentistry

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Rikard Ylmén

Early hydration and setting of Portland cement monitored by IR, SEM and Vicat techniques

Carbonation of Portland Cement Studied by Diffuse Reflection Fourier Transform Infrared Spectroscopy

Insights into early hydration of Portland limestone cement from infrared spectroscopy and isothermal calorimetry

Crystal structure of radium sulfate: An X-ray powder diffraction and density functional theory study

Morphological and chemical characterization of tooth enamel exposed to alkaline agents

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