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Influence of calcined clay/limestone, sulfate and clinker proportions on cement performance
Highlights Calcined clay and limestone promote the hydration of cement at early age. Clinker and CC/L ratio are relevant factors affecting compressive strength. CC/L are confirmed to increase bound water content and AFm phase formation. CC/L influences mechanical strength, bound water content and porosity refinement.
Abstract Clinker (CK), calcined clay to limestone ratio (CC/L), and sulfate content (SO3) were studied determining their influence on cement performance. A low-grade kaolinite clay characterized before and after calcination was used. Isothermal calorimetry measurements indicate CK influences mainly energy liberation, while CC/L and SO3 affect kinetics of hydration. Compressive strengths were primarily governed by CK at early age, and its effect is constant throughout hydration; CC/L became relevant as hydration progresses and achieved similar effects as CK beyond 28 d; SO3 (wt%) has marginal contribution only at early age. All cements, including CC/L, obtained higher compressive strengths than their references (CK + quartz mixes). The latter correspond with higher bound water content, carboaluminate hydrates formation, and a finer porous structure estimated by water absorption. Thus, CK and CC/L are most relevant factors in cement performance, and the improvement is proportional to calcined clay content in the mixture.
Influence of calcined clay/limestone, sulfate and clinker proportions on cement performance
Highlights Calcined clay and limestone promote the hydration of cement at early age. Clinker and CC/L ratio are relevant factors affecting compressive strength. CC/L are confirmed to increase bound water content and AFm phase formation. CC/L influences mechanical strength, bound water content and porosity refinement.
Abstract Clinker (CK), calcined clay to limestone ratio (CC/L), and sulfate content (SO3) were studied determining their influence on cement performance. A low-grade kaolinite clay characterized before and after calcination was used. Isothermal calorimetry measurements indicate CK influences mainly energy liberation, while CC/L and SO3 affect kinetics of hydration. Compressive strengths were primarily governed by CK at early age, and its effect is constant throughout hydration; CC/L became relevant as hydration progresses and achieved similar effects as CK beyond 28 d; SO3 (wt%) has marginal contribution only at early age. All cements, including CC/L, obtained higher compressive strengths than their references (CK + quartz mixes). The latter correspond with higher bound water content, carboaluminate hydrates formation, and a finer porous structure estimated by water absorption. Thus, CK and CC/L are most relevant factors in cement performance, and the improvement is proportional to calcined clay content in the mixture.
Influence of calcined clay/limestone, sulfate and clinker proportions on cement performance
Rodriguez, Claudia (author) / Tobon, Jorge I. (author)
2020-04-05
Article (Journal)
Electronic Resource
English
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