Effect of the cement type on compatibility with carboxylate superplasticisers

An empirical study was conducted to gain a fuller understanding of the interactions taking place in cementsuperplasticiser systems. To this end, two clinkers of known chemical and phase composition were prepared in this study to gain insight into such interactions. One contained no tricalcium alumin...

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Main Authors: G. Bundyra-Oracz, W. Kurdowski
Format: Article
Language:English
Published: Consejo Superior de Investigaciones Científicas 2011-06-01
Series:Materiales de Construccion
Subjects:
Online Access:http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/631
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spelling doaj-88b3df691a934189aa12d02489470aae2021-05-05T07:36:29ZengConsejo Superior de Investigaciones CientíficasMateriales de Construccion0465-27461988-32262011-06-016130222723710.3989/mc.2011.54309608Effect of the cement type on compatibility with carboxylate superplasticisersG. Bundyra-Oracz0W. Kurdowski1Building Research InstituteResearch Institute of Mineral Building MaterialsAn empirical study was conducted to gain a fuller understanding of the interactions taking place in cementsuperplasticiser systems. To this end, two clinkers of known chemical and phase composition were prepared in this study to gain insight into such interactions. One contained no tricalcium aluminate (C1), while the other had a 9% C3A content (C2). These clinkers were ground to approximately 340 m2/kg and blended with gypsum only or gypsum and Klein compound (3CaO·3Al2O3·CaSO4) (1, 2). Sufficient compound was added to C1 to ensure the formation of about the same amount of ettringite after 0.5 and 1 h of hydration as found in cement C2 + gypsum. The admixture used was a carboxylate superplasticiser. Rheology measurements showed that while paste yield stress was correlated to ettringite formation, no such simple relationship was observed for plastic viscosity. Plastic viscosity depended on the total hydrates formed, i.e., not only as ettringite but also as C-S-H gel. The findings revealed that in clinkers with very low sulfate and potassium contents, the rheology of carboxylate-containing cement paste is primarily controlled by ettringite formation.http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/631rheologysuperplasticizerportland cementcalcium sulfoaluminatecalcium silicate hydrate
collection DOAJ
language English
format Article
sources DOAJ
author G. Bundyra-Oracz
W. Kurdowski
spellingShingle G. Bundyra-Oracz
W. Kurdowski
Effect of the cement type on compatibility with carboxylate superplasticisers
Materiales de Construccion
rheology
superplasticizer
portland cement
calcium sulfoaluminate
calcium silicate hydrate
author_facet G. Bundyra-Oracz
W. Kurdowski
author_sort G. Bundyra-Oracz
title Effect of the cement type on compatibility with carboxylate superplasticisers
title_short Effect of the cement type on compatibility with carboxylate superplasticisers
title_full Effect of the cement type on compatibility with carboxylate superplasticisers
title_fullStr Effect of the cement type on compatibility with carboxylate superplasticisers
title_full_unstemmed Effect of the cement type on compatibility with carboxylate superplasticisers
title_sort effect of the cement type on compatibility with carboxylate superplasticisers
publisher Consejo Superior de Investigaciones Científicas
series Materiales de Construccion
issn 0465-2746
1988-3226
publishDate 2011-06-01
description An empirical study was conducted to gain a fuller understanding of the interactions taking place in cementsuperplasticiser systems. To this end, two clinkers of known chemical and phase composition were prepared in this study to gain insight into such interactions. One contained no tricalcium aluminate (C1), while the other had a 9% C3A content (C2). These clinkers were ground to approximately 340 m2/kg and blended with gypsum only or gypsum and Klein compound (3CaO·3Al2O3·CaSO4) (1, 2). Sufficient compound was added to C1 to ensure the formation of about the same amount of ettringite after 0.5 and 1 h of hydration as found in cement C2 + gypsum. The admixture used was a carboxylate superplasticiser. Rheology measurements showed that while paste yield stress was correlated to ettringite formation, no such simple relationship was observed for plastic viscosity. Plastic viscosity depended on the total hydrates formed, i.e., not only as ettringite but also as C-S-H gel. The findings revealed that in clinkers with very low sulfate and potassium contents, the rheology of carboxylate-containing cement paste is primarily controlled by ettringite formation.
topic rheology
superplasticizer
portland cement
calcium sulfoaluminate
calcium silicate hydrate
url http://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/631
work_keys_str_mv AT gbundyraoracz effectofthecementtypeoncompatibilitywithcarboxylatesuperplasticisers
AT wkurdowski effectofthecementtypeoncompatibilitywithcarboxylatesuperplasticisers
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