Bimodal behavior of C-S-H interpreted from short-term length change and water vapor sorption isotherms of hardened cement paste

Ippei Maruyama; Go Igarashi; Yukiko Nishioka

doi:10.1016/j.cemconres.2015.03.010

Bimodal behavior of C-S-H interpreted from short-term length change and water vapor sorption isotherms of hardened cement paste

Ippei Maruyama, Go Igarashi, Yukiko Nishioka

ENG - Architecture and Building Science

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

Abstract Short-term length change isotherms (SLCIs) and water vapor sorption isotherms are useful to eliminate the effects of the colloidal features of C-S-H. SLCIs of hardened cement pastes initially conditioned by drying to equilibrium at different relative humidities (RHs) were measured over a complete RH loop between 5% and 98%. Based on the correlation between incremental thickness of adsorption and incremental strain from 40% to 98% RH, the basal spacing of C-S-H above 40% RH appears to increase further with increasing water vapor sorption. However, no correlation of these values was found from 5% to 40% RH and the basal spacing is considered stable in this domain. These properties of C-S-H are directly related to its isothermal volume change as a function of RH. It can be concluded that the dominant shrinkage driver above 40% RH is disjoining or hydration pressure and that below 40% RH is change in surface energy.

Original language	English
Article number	4930
Pages (from-to)	158-168
Number of pages	11
Journal	Cement and Concrete Research
Volume	73
DOIs	https://doi.org/10.1016/j.cemconres.2015.03.010
Publication status	Published - 2015 Jul

Keywords

Adsorption (C)
Calcium-silicate-hydrate (C-S-H) (B)
Drying (A)
Shrinkage (C)

ASJC Scopus subject areas

Building and Construction
Materials Science(all)

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10.1016/j.cemconres.2015.03.010

Cite this

@article{2175d7410f8c4f4bbc3a3639c19a303d,

title = "Bimodal behavior of C-S-H interpreted from short-term length change and water vapor sorption isotherms of hardened cement paste",

abstract = "Abstract Short-term length change isotherms (SLCIs) and water vapor sorption isotherms are useful to eliminate the effects of the colloidal features of C-S-H. SLCIs of hardened cement pastes initially conditioned by drying to equilibrium at different relative humidities (RHs) were measured over a complete RH loop between 5% and 98%. Based on the correlation between incremental thickness of adsorption and incremental strain from 40% to 98% RH, the basal spacing of C-S-H above 40% RH appears to increase further with increasing water vapor sorption. However, no correlation of these values was found from 5% to 40% RH and the basal spacing is considered stable in this domain. These properties of C-S-H are directly related to its isothermal volume change as a function of RH. It can be concluded that the dominant shrinkage driver above 40% RH is disjoining or hydration pressure and that below 40% RH is change in surface energy.",

keywords = "Adsorption (C), Calcium-silicate-hydrate (C-S-H) (B), Drying (A), Shrinkage (C)",

author = "Ippei Maruyama and Go Igarashi and Yukiko Nishioka",

note = "Funding Information: The work was performed at Nagoya University within the framework of the Japan Ageing Management Program on System Safety project sponsored by the Nuclear Regulation Authority of Japan. The information presented in this paper is the sole opinion of the authors and does not necessarily reflect the views of the sponsoring agencies. Publisher Copyright: {\textcopyright} 2015 Elsevier Ltd. All rights reserved.",

year = "2015",

month = jul,

doi = "10.1016/j.cemconres.2015.03.010",

language = "English",

volume = "73",

pages = "158--168",

journal = "Cement and Concrete Research",

issn = "0008-8846",

publisher = "Elsevier Limited",

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T1 - Bimodal behavior of C-S-H interpreted from short-term length change and water vapor sorption isotherms of hardened cement paste

AU - Maruyama, Ippei

AU - Igarashi, Go

AU - Nishioka, Yukiko

N1 - Funding Information: The work was performed at Nagoya University within the framework of the Japan Ageing Management Program on System Safety project sponsored by the Nuclear Regulation Authority of Japan. The information presented in this paper is the sole opinion of the authors and does not necessarily reflect the views of the sponsoring agencies. Publisher Copyright: © 2015 Elsevier Ltd. All rights reserved.

PY - 2015/7

Y1 - 2015/7

N2 - Abstract Short-term length change isotherms (SLCIs) and water vapor sorption isotherms are useful to eliminate the effects of the colloidal features of C-S-H. SLCIs of hardened cement pastes initially conditioned by drying to equilibrium at different relative humidities (RHs) were measured over a complete RH loop between 5% and 98%. Based on the correlation between incremental thickness of adsorption and incremental strain from 40% to 98% RH, the basal spacing of C-S-H above 40% RH appears to increase further with increasing water vapor sorption. However, no correlation of these values was found from 5% to 40% RH and the basal spacing is considered stable in this domain. These properties of C-S-H are directly related to its isothermal volume change as a function of RH. It can be concluded that the dominant shrinkage driver above 40% RH is disjoining or hydration pressure and that below 40% RH is change in surface energy.

AB - Abstract Short-term length change isotherms (SLCIs) and water vapor sorption isotherms are useful to eliminate the effects of the colloidal features of C-S-H. SLCIs of hardened cement pastes initially conditioned by drying to equilibrium at different relative humidities (RHs) were measured over a complete RH loop between 5% and 98%. Based on the correlation between incremental thickness of adsorption and incremental strain from 40% to 98% RH, the basal spacing of C-S-H above 40% RH appears to increase further with increasing water vapor sorption. However, no correlation of these values was found from 5% to 40% RH and the basal spacing is considered stable in this domain. These properties of C-S-H are directly related to its isothermal volume change as a function of RH. It can be concluded that the dominant shrinkage driver above 40% RH is disjoining or hydration pressure and that below 40% RH is change in surface energy.

KW - Adsorption (C)

KW - Calcium-silicate-hydrate (C-S-H) (B)

KW - Drying (A)

KW - Shrinkage (C)

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JO - Cement and Concrete Research

JF - Cement and Concrete Research

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ER -

Bimodal behavior of C-S-H interpreted from short-term length change and water vapor sorption isotherms of hardened cement paste

Abstract

Keywords

ASJC Scopus subject areas

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