This paper reports results on the porosity and pore size distribution of cement paste containing varying amounts of fly ash and gypsum. The water to binder ratio was 0.5. The binder consists of cement, fly ash and gypsum. 25% of the binder was replaced with a combination of fly ash and gypsum. The fly ash ranged from 0-100%. The porosity and pore size distribution of the cement pastes at 7 days of curing are reported. Increasing the amount of gypsum does not have a noticeable effect on the pore volume, however, the pore structure becomes coarser with increasing amounts of gypsum. The results were compared with those obtained at 28 days and 365 days of curing in previous investigation
Nine different fly ashes have been used in a study of autoclaved (216 degrees C) cement-fly ash mixt...
This paper presents a study on the influence of mix proportions of cementitious materials on their t...
International audienceIn this paper, the influence of mineral additions on the microstructure and th...
Abstract: This research is a part of a wide range investigation on the use of flue gas desulphurisat...
This paper is part of a wide-ranging investigation on the use of flue gas desulphurisation (FGD) was...
AbstractThis paper presents some results on the porosity and pore size distribution of cement paste ...
The influence of location relative to the casting position, on porosity and pore size distribution o...
Available from British Library Document Supply Centre-DSC:DX190806 / BLDSC - British Library Documen...
This paper presents some results on the porosity and pore size distribution of cement paste containi...
This study documents how the pore structure develops with time in cement-based materials with varyin...
The mechanical properties, pore size distribution, and extracted pore solution of fly ash-belite cem...
This paper presents the results of extensive research work on the open porosity and gas permeability...
The influence of fly ash on the pore structure and microstructure of cement paste and mortar has bee...
Formation factor of fresh cementitious pastes was investigated experimentally as a function of time ...
Properties such as porosity, pore-size distribution, surface area and drying shrinkage are determine...
Nine different fly ashes have been used in a study of autoclaved (216 degrees C) cement-fly ash mixt...
This paper presents a study on the influence of mix proportions of cementitious materials on their t...
International audienceIn this paper, the influence of mineral additions on the microstructure and th...
Abstract: This research is a part of a wide range investigation on the use of flue gas desulphurisat...
This paper is part of a wide-ranging investigation on the use of flue gas desulphurisation (FGD) was...
AbstractThis paper presents some results on the porosity and pore size distribution of cement paste ...
The influence of location relative to the casting position, on porosity and pore size distribution o...
Available from British Library Document Supply Centre-DSC:DX190806 / BLDSC - British Library Documen...
This paper presents some results on the porosity and pore size distribution of cement paste containi...
This study documents how the pore structure develops with time in cement-based materials with varyin...
The mechanical properties, pore size distribution, and extracted pore solution of fly ash-belite cem...
This paper presents the results of extensive research work on the open porosity and gas permeability...
The influence of fly ash on the pore structure and microstructure of cement paste and mortar has bee...
Formation factor of fresh cementitious pastes was investigated experimentally as a function of time ...
Properties such as porosity, pore-size distribution, surface area and drying shrinkage are determine...
Nine different fly ashes have been used in a study of autoclaved (216 degrees C) cement-fly ash mixt...
This paper presents a study on the influence of mix proportions of cementitious materials on their t...
International audienceIn this paper, the influence of mineral additions on the microstructure and th...