Influence of curing temperature on cement paste microstructure measured by H-1 NMR relaxometry

Arnaud Charles Albert Muller, Karen Scrivener
PERGAMON-ELSEVIER SCIENCE LTD, 2019
Article

H-1 nuclear magnetic resonance (NMR) relaxometry, supported by X-Ray diffraction and thermogravimetric analysis, has been used to characterise microstructure of white cement pastes underwater cured at temperatures in the range 10 degrees C to 60 degrees C. As the temperature increases, so the C-S-H, capillary pore water and interhydrate pore water content all increase; the ettringite and gel pore water content decrease; and the Portlandite content stays constant. A non-linear increase in the C-S-H 'solid' and 'bulk' densities, that exclude and include gel pore water respectively, has been observed with the increase of temperature. This is accompanied by a decrease in C-S -H water content but no change in the Ca/(Si + Al) ratio. The increase in the C-S-H 'solid' density has been attributed to a decrease in the number of locally stacked C-S-H layers. The increase in the C-S-H 'bulk' density is additionally attributed to the decrease in the gel porosity.

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Arnaud Charles Albert Muller, Karen Scrivener
PERGAMON-ELSEVIER SCIENCE LTD, 2019
Article

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https://infoscience.epfl.ch/record/268308?ln=fr

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Impact of water activity on the stability of ettringite

Thomas Matschei, Karen Scrivener

The stability of ettringite as function of temperature and water vapour pressure was studied on synthetic samples using X-ray diffraction, thermogravimetric analysis, sorption balance measurements and different calorimetry techniques. Crystalline ettringite has a water content per mol of Al2O3, n, varying from 30 to 32 H2O, while the amorphous product formed on drying it, metaettringite, has only 9 to 13 H2O. Very large hysteresis was observed during the desorption and absorption cycles. The total enthalpy values associated with the decomposition and reformation of ettringite were consistent and similar. During rehydration, different absorption stages were identified and quantified with sorption calorimetry. Due to the hysteresis it was not possible to model the absorption/desorption behaviour using the enthalpies determined by calorimetiy, so the values calculated with the van't Hoff equation were used. The area of performance of ettringite-based systems recommended in this work has been extended compared to previously reported data. (C) 2015 Elsevier Ltd. All rights reserved.

Pergamon-Elsevier Science Ltd2016

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Cement substitution by a combination of metakaolin and limestone

Mathieu Antoni, John Espen Rossen, Karen Scrivener

This study investigates the coupled substitution of metakaolin and limestone in Portland cement (PC). The mechanical properties were studied in mortars and the microstructural development in pastes by X-ray diffraction, thermogravimetry analysis, mercury intrusion porosimetry and isothermal calorimetry. We show that 45% of substitution by 30% of metakaolin and 15% of limestone gives better mechanical properties at 7 and 28 days than the 100% PC reference. Our results show that calcium carbonate reacts with alumina from the metakaolin, forming supplementary AFm phases and stabilizing ettringite. Using simple mass balance calculations derived from thermogravimetry results, we also present the thermodynamic simulation for the system, which agrees fairly well with the experimental observations. It is shown that gypsum addition should be carefully balanced when using calcined clays because it considerably influences the early age strength by controlling the very rapid reaction of aluminates. (C) 2012 Elsevier Ltd. All rights reserved.

Pergamon-Elsevier Science Ltd2012

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H-1 nuclear magnetic resonance (NMR), supported by a measurement of the degree of hydration using X-ray diffraction, has been used to fully characterise the nano-scale porosity and composition of calcium-silicate-hydrate (C-S-H), the active component of cement. The resultant "solid" density and composition are rho = 2.68 g/cm(3); (Ca)(1.53)center dot(Si-0.96,Al-0.04)O-3.51 center dot(H2O)(1.92) for an underwater cured, never-dried cement paste with an initial mix water-to-cement ratio of 0.4 after 28 days of hydration. In addition, the first pore-type resolved desorption isotherm of cement that shows the location of water as a function of relative humidity has been measured. Critical to our results is verification of the assignment of the different NMR spin-spin relaxation time components. These have been corroborated with conventional analyses. The new methodology is key to enabling design of cement pastes with lower environmental impact. (C) 2013 Elsevier Inc. All rights reserved.

Elsevier Science Bv2013

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