Impact of an SRA (hexylene glycol) on irreversible drying shrinkage and pore solution properties of cement pastes

Cementitious materials shrink when exposed to decreasing relative humidities, which may result in cracking. Shrinkage reducing admixtures (SRAs) can be used to reduce this drying shrinkage. Although many studies have shown that SRAs reduce the surface tension of the pore solution, the effects of SRA...

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Published in:Cement and concrete research Vol. 143; p. 106227
Main Authors: Rahoui, Hafsa, Maruyama, Ippei, Vandamme, Matthieu, Pereira, Jean-Michel, Mosquet, Martin
Format: Journal Article
Language:English
Published: Elmsford Elsevier Ltd 01.05.2021
Elsevier BV
Elsevier
Subjects:
Admixtures
ADSORPTION
Cement
Cement paste
CEMENTS
Civil Engineering
CRACKING
Drying
Engineering Sciences
First drying shrinkage
GLYCOLS
Humidification
HUMIDITY
ISOTHERMS
Manufactured products
Mass change isotherms
Materials
MATERIALS SCIENCE
Relative humidity
SHRINKAGE
SRA
STRESSES
SURFACE TENSION
SURFACES
Temperature
Mass change isotherms
First drying shrinkage
SRA
mass change isotherms
ISSN:0008-8846, 1873-3948
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Abstract Cementitious materials shrink when exposed to decreasing relative humidities, which may result in cracking. Shrinkage reducing admixtures (SRAs) can be used to reduce this drying shrinkage. Although many studies have shown that SRAs reduce the surface tension of the pore solution, the effects of SRAs on other pore solution properties and their relationship to drying shrinkage have been poorly characterized. In this work, we investigate the impact of an SRA (hexylene glycol) on the drying and re-humidification of a cement paste over an extended relative humidity range. The reduction in the first drying shrinkage by the SRA depends on relative humidity. The SRA also significantly reduces the irreversible drying shrinkage. We concluded that the SRA impacts drying shrinkage by acting on the capillary forces, by acting on the specific range of relative humidity over which those forces occur, and potentially by acting on the surface stresses through pore wall adsorption. [Display omitted]
AbstractList Cementitious materials shrink when exposed to decreasing relative humidities, which may result in cracking. Shrinkage reducing admixtures (SRAs) can be used to reduce this drying shrinkage. Although many studies have shown that SRAs reduce the surface tension of the pore solution, the effects of SRAs on other pore solution properties and their relationship to drying shrinkage have been poorly characterized. In this work, we investigate the impact of an SRA (hexylene glycol) on the drying and re-humidification of a cement paste over an extended relative humidity range. The reduction in the first drying shrinkage by the SRA depends on relative humidity. The SRA also significantly reduces the irreversible drying shrinkage. We concluded that the SRA impacts drying shrinkage by acting on the capillary forces, by acting on the specific range of relative humidity over which those forces occur, and potentially by acting on the surface stresses through pore wall adsorption.
Cementitious materials shrink when exposed to decreasing relative humidities, which may result in cracking. Shrinkage reducing admixtures (SRAs) can be used to reduce this drying shrinkage. Although many studies have shown that SRAs reduce the surface tension of the pore solution, the effects of SRAs on other pore solution properties and their relationship to drying shrinkage have been poorly characterized. In this work, we investigate the impact of an SRA (hexylene glycol) on the drying and re-humidification of a cement paste over an extended relative humidity range. The reduction in the first drying shrinkage by the SRA depends on relative humidity. The SRA also significantly reduces the irreversible drying shrinkage. We concluded that the SRA impacts drying shrinkage by acting on the capillary forces, by acting on the specific range of relative humidity over which those forces occur, and potentially by acting on the surface stresses through pore wall adsorption. [Display omitted]
ArticleNumber 106227
Author Rahoui, Hafsa
Vandamme, Matthieu
Pereira, Jean-Michel
Maruyama, Ippei
Mosquet, Martin
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  surname: Rahoui
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  givenname: Ippei
  surname: Maruyama
  fullname: Maruyama, Ippei
  email: i.maruyama@nagoya-u.jp
  organization: Graduate School of Environmental Studies, Nagoya University, Nagoya, Japan
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  givenname: Matthieu
  surname: Vandamme
  fullname: Vandamme, Matthieu
  organization: Laboratoire Navier, Ecole des Ponts ParisTech, Univ Gustave Eiffel, CNRS, Marne-la-Vallée, France
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  givenname: Jean-Michel
  surname: Pereira
  fullname: Pereira, Jean-Michel
  organization: Laboratoire Navier, Ecole des Ponts ParisTech, Univ Gustave Eiffel, CNRS, Marne-la-Vallée, France
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  givenname: Martin
  surname: Mosquet
  fullname: Mosquet, Martin
  organization: LafargeHolcim Innovation Center, Saint-Quentin Fallavier 38291, France
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Keywords Mass change isotherms
First drying shrinkage
SRA
mass change isotherms
Language English
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  start-page: 677
  issue: 6
  year: 2004
  ident: 10.1016/j.cemconres.2020.106227_bb0010
  article-title: Mitigation strategies for autogenous shrinkage cracking
  publication-title: Cement and Concrete Composites
  doi: 10.1016/S0958-9465(03)00045-3
– volume: 13
  start-page: 49
  issue: 1
  year: 1983
  ident: 10.1016/j.cemconres.2020.106227_bb0150
  article-title: Surface area of cement paste conditioned at various relative humidities
  publication-title: Cement and Concrete Research
  doi: 10.1016/0008-8846(83)90127-8
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Snippet Cementitious materials shrink when exposed to decreasing relative humidities, which may result in cracking. Shrinkage reducing admixtures (SRAs) can be used to...
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SubjectTerms Admixtures
ADSORPTION
Cement
Cement paste
CEMENTS
Civil Engineering
CRACKING
Drying
Engineering Sciences
First drying shrinkage
GLYCOLS
Humidification
HUMIDITY
ISOTHERMS
Manufactured products
Mass change isotherms
Materials
MATERIALS SCIENCE
Relative humidity
SHRINKAGE
SRA
STRESSES
SURFACE TENSION
SURFACES
Temperature
Title Impact of an SRA (hexylene glycol) on irreversible drying shrinkage and pore solution properties of cement pastes
URI https://dx.doi.org/10.1016/j.cemconres.2020.106227
https://www.proquest.com/docview/2516889973
https://hal.science/hal-03164493
https://www.osti.gov/biblio/23206321
Volume 143
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