Add to ORKGThe effect of a short heat treatment on hydrated cement paste has been investigated by measuring the weight and length changes of specimens as they undergo various combinations of heating, drying, and resaturation. Heating a cement paste to 60°C coarsens the capillary pore system, decreases the volume of mesopores, and increases the degree of polymerization of the silicates. In addition, the saturated weight of the paste is permanently decreased by a heat treatment. This weight loss can be explained by conversion of bound hydroxyl groups into liquid water during polymerization of the C-S-H gel phase. These experiments help reconcile and interpret published results describing the properties of cement cured at various temperatures, the effect...
Ultimate drying shrinkage of paste was investigated in terms of the Gibbs-Bangham shrinkage and the ...
This paper reports the microstructural changes on a 2 year-old cement paste, unprotected from contac...
A new ability to quantitatively evaluate the complex pore system of cement pastes, using water sorpt...
The thesis provides new research related to the mechanisms of creep and shrinkage of hardened Portla...
217 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2000.In the second half of this wo...
The shrinkage mechanisms of portland cement paste were in-vestigated from shrinkage, weight loss, an...
The hydration temperature has a considerable effect on the microstructure of cement paste. The micro...
The aim of the present study is to relate microstructure to the drying shrinkage of hardened cement ...
International audienceA micro-macro experimental study has been performed, from the end of mixing up...
The main object of the presented research is to apply thermal analysis in order to investigate micro...
In this report, the effects of 4 different factors such as water cement ratio, surface area measured...
International audienceA micro-macro experimental study has been performed, from the end of mixing up...
Ultimate drying shrinkage of paste was investigated in terms of the Gibbs-Bangham shrinkage and the ...
Self-cure concrete contains a chemical agent that reduces the evaporation of water from its surface,...
The dimensional changes and the thermograms of cement specimens were determined during temperature c...
Ultimate drying shrinkage of paste was investigated in terms of the Gibbs-Bangham shrinkage and the ...
This paper reports the microstructural changes on a 2 year-old cement paste, unprotected from contac...
A new ability to quantitatively evaluate the complex pore system of cement pastes, using water sorpt...
The thesis provides new research related to the mechanisms of creep and shrinkage of hardened Portla...
217 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2000.In the second half of this wo...
The shrinkage mechanisms of portland cement paste were in-vestigated from shrinkage, weight loss, an...
The hydration temperature has a considerable effect on the microstructure of cement paste. The micro...
The aim of the present study is to relate microstructure to the drying shrinkage of hardened cement ...
International audienceA micro-macro experimental study has been performed, from the end of mixing up...
The main object of the presented research is to apply thermal analysis in order to investigate micro...
In this report, the effects of 4 different factors such as water cement ratio, surface area measured...
International audienceA micro-macro experimental study has been performed, from the end of mixing up...
Ultimate drying shrinkage of paste was investigated in terms of the Gibbs-Bangham shrinkage and the ...
Self-cure concrete contains a chemical agent that reduces the evaporation of water from its surface,...
The dimensional changes and the thermograms of cement specimens were determined during temperature c...
Ultimate drying shrinkage of paste was investigated in terms of the Gibbs-Bangham shrinkage and the ...
This paper reports the microstructural changes on a 2 year-old cement paste, unprotected from contac...
A new ability to quantitatively evaluate the complex pore system of cement pastes, using water sorpt...