<p>Current research aims to investigate the influence of calcination temperature on the pozzolanic activity of the waste kaolin and the impact of calcination products on Portland cement hydration. The raw material with approximately 85 % kaolinite was calcined to temperatures ranging between 500 and 1000 °C. The clay and its calcined products were characterized by TGA-DTA, SEM-EDS, XRD, FT-IR and BET. The pozzolanic activity of the calcined products was assessed by electrical conductivity test and compressive strength in mortars with 30 % substitution of Portland cement. The effect of calcined products on Portland cement hydration was characterized by XRD and SEM. The results showed that the calcination temperature had an important influenc...
The hydration of cement pastes with addition of a kaolinite rich clay (Clay A) and a calcareous smec...
This paper presents the results of an industrial trial for the production of calcined clay to be use...
The effects of thermally (MK) or mechanically activated kaolin (AK) on the compressive strength of m...
The influence of thermal activation temperature in the pozzolanic reactivity of low grade kaolinitic...
Portland cement-based materials such as concrete are nowadays the most widely used construction mate...
Gibbsite in tropical kaolinite material greatly influences its reactivity as pozzolanic material. Th...
This paper investigates the decomposition of three clayey structures (kaolinite, illite and montmori...
The present paper introduces a new rapid, relevant and reliable (R-3) test to predict the pozzolanic...
The cement industry involves high-energy consumption that generates high CO2 emissions into the atmo...
The use of calcined clays as partial replacement of cement is encouraged since it promotes the reduc...
AbstractDuring the last decades, there has been an increasing interest in the cement industry to inc...
AbstractThermally activated clays, especially kaolinitic clays, are today revaluated as a source of ...
The development of a green alternative that can partially or completely substitute the Ordinary Port...
With 3-5 billion tons cement-produced every year, the cement industry is today the third largest emi...
Calcined clays are gaining increasing interest as future supplementary cementitious materials for th...
The hydration of cement pastes with addition of a kaolinite rich clay (Clay A) and a calcareous smec...
This paper presents the results of an industrial trial for the production of calcined clay to be use...
The effects of thermally (MK) or mechanically activated kaolin (AK) on the compressive strength of m...
The influence of thermal activation temperature in the pozzolanic reactivity of low grade kaolinitic...
Portland cement-based materials such as concrete are nowadays the most widely used construction mate...
Gibbsite in tropical kaolinite material greatly influences its reactivity as pozzolanic material. Th...
This paper investigates the decomposition of three clayey structures (kaolinite, illite and montmori...
The present paper introduces a new rapid, relevant and reliable (R-3) test to predict the pozzolanic...
The cement industry involves high-energy consumption that generates high CO2 emissions into the atmo...
The use of calcined clays as partial replacement of cement is encouraged since it promotes the reduc...
AbstractDuring the last decades, there has been an increasing interest in the cement industry to inc...
AbstractThermally activated clays, especially kaolinitic clays, are today revaluated as a source of ...
The development of a green alternative that can partially or completely substitute the Ordinary Port...
With 3-5 billion tons cement-produced every year, the cement industry is today the third largest emi...
Calcined clays are gaining increasing interest as future supplementary cementitious materials for th...
The hydration of cement pastes with addition of a kaolinite rich clay (Clay A) and a calcareous smec...
This paper presents the results of an industrial trial for the production of calcined clay to be use...
The effects of thermally (MK) or mechanically activated kaolin (AK) on the compressive strength of m...