Influences of interaction between cement and ionic paraffin emulsion on cement hydration

Polymers have been used in cement materials for a long time. Notably, the polymer usage has a significant impact on cement hydration. In this work, the influences of interaction between cement and ionic paraffin emulsions (i. e., anionic paraffin emulsion (A), cationic paraffin emulsion (C), and non...

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Published inConstruction & building materials Vol. 299; p. 123951
Main Authors Huo, Jinyang, Wang, Zhenjun, Zhang, Tonghuan, He, Rui, Chen, Huaxin
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 13.09.2021
Subjects
Cement hydration
Factorial design system
Interaction
Ionic paraffin emulsion
Ionic paraffin emulsion
Cement hydration
Interaction
Factorial design system
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Abstract Polymers have been used in cement materials for a long time. Notably, the polymer usage has a significant impact on cement hydration. In this work, the influences of interaction between cement and ionic paraffin emulsions (i. e., anionic paraffin emulsion (A), cationic paraffin emulsion (C), and nonionic paraffin emulsion (N), respectively) on cement hydration were experimentally investigated by calorimetry, UV–Vis spectroscopy measurement, depletion measurement, and XRD measurement, in which the hydration rate, hydration degree, and evolution of hydration products were assessed. Results reveal that anionic and cationic paraffin emulsions exhibit stronger hindrance effects to hydration kinetics than nonionic paraffin emulsion by comparison of b value based on the factorial design system. In addition, the stronger the adsorption between ionic paraffin emulsions and cement (decrease in absorbance; increase in adsorption ratio), the lower the hydration rate, hydration degree and the main diffraction peak intensity of hydration products. Meanwhile, the comparison of absorbance, adsorption ratio, and the main diffraction peak intensity of hydration products shows that anionic and cationic paraffin emulsions have strong adsorption on the surface of cement grains and/or cement hydration products, and have a strong hindrance on the dissolution of tricalcium silicate and the formation of portlandite and ettringite.
AbstractList Polymers have been used in cement materials for a long time. Notably, the polymer usage has a significant impact on cement hydration. In this work, the influences of interaction between cement and ionic paraffin emulsions (i. e., anionic paraffin emulsion (A), cationic paraffin emulsion (C), and nonionic paraffin emulsion (N), respectively) on cement hydration were experimentally investigated by calorimetry, UV–Vis spectroscopy measurement, depletion measurement, and XRD measurement, in which the hydration rate, hydration degree, and evolution of hydration products were assessed. Results reveal that anionic and cationic paraffin emulsions exhibit stronger hindrance effects to hydration kinetics than nonionic paraffin emulsion by comparison of b value based on the factorial design system. In addition, the stronger the adsorption between ionic paraffin emulsions and cement (decrease in absorbance; increase in adsorption ratio), the lower the hydration rate, hydration degree and the main diffraction peak intensity of hydration products. Meanwhile, the comparison of absorbance, adsorption ratio, and the main diffraction peak intensity of hydration products shows that anionic and cationic paraffin emulsions have strong adsorption on the surface of cement grains and/or cement hydration products, and have a strong hindrance on the dissolution of tricalcium silicate and the formation of portlandite and ettringite.
ArticleNumber 123951
Author He, Rui
Wang, Zhenjun
Chen, Huaxin
Huo, Jinyang
Zhang, Tonghuan
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Keywords Ionic paraffin emulsion
Cement hydration
Interaction
Factorial design system
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Snippet Polymers have been used in cement materials for a long time. Notably, the polymer usage has a significant impact on cement hydration. In this work, the...
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StartPage 123951
SubjectTerms Cement hydration
Factorial design system
Interaction
Ionic paraffin emulsion
Title Influences of interaction between cement and ionic paraffin emulsion on cement hydration
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