CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio

CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio

Curing by CO<sub>2</sub> is a way to utilize CO<sub>2</sub> to reduce greenhouse gas emissions. Placing early-age cement paste in a CO<sub>2</sub> chamber or pressure vessel accelerates its strength development. Cement carbonation is attributed to the quickened st...

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Main Authors: Seong Ho Han, Yubin Jun, Tae Yong Shin, Jae Hong Kim
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Materials
Subjects:
CO<sub>2</sub> curing
size effect
colloidal silica
cement-based material
casting method
Online Access:https://www.mdpi.com/1996-1944/13/17/3883
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spelling doaj-37fa77dc59b84e7d87988320d425ad962020-11-25T03:14:17ZengMDPI AGMaterials1996-19442020-09-01133883388310.3390/ma13173883CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement RatioSeong Ho Han0Yubin Jun1Tae Yong Shin2Jae Hong Kim3Department of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology, Daejeon 34141, KoreaDepartment of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology, Daejeon 34141, KoreaDepartment of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology, Daejeon 34141, KoreaDepartment of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology, Daejeon 34141, KoreaCuring by CO<sub>2</sub> is a way to utilize CO<sub>2</sub> to reduce greenhouse gas emissions. Placing early-age cement paste in a CO<sub>2</sub> chamber or pressure vessel accelerates its strength development. Cement carbonation is attributed to the quickened strength development, and CO<sub>2</sub> uptake can be quantitatively evaluated by measuring CO<sub>2</sub> gas pressure loss in the pressure vessel. A decrease in CO<sub>2</sub> gas pressure is observed with all cement pastes and mortar samples regardless of the mix proportion and the casting method; one method involves compacting a low water-to-cement ratio mix, and the other method comprises a normal mix consolidated in a mold. The efficiency of the CO<sub>2</sub> curing is superior when a 20% concentration of CO<sub>2</sub> gas is supplied at a relative humidity of 75%. CO<sub>2</sub> uptake in specimens with the same CO<sub>2</sub> curing condition is different for each specimen size. As the specimen scale is larger, the depth of carbonation is smaller. Incorporating colloidal silica enhances the carbonation as well as the hydration of cement, which results in contributing to the increase in the 28-day strength.https://www.mdpi.com/1996-1944/13/17/3883CO<sub>2</sub> curingsize effectcolloidal silicacement-based materialcasting method
collection DOAJ
language English
format Article
sources DOAJ
author Seong Ho Han
Yubin Jun
Tae Yong Shin
Jae Hong Kim
spellingShingle Seong Ho Han
Yubin Jun
Tae Yong Shin
Jae Hong Kim
CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
Materials
CO<sub>2</sub> curing
size effect
colloidal silica
cement-based material
casting method
author_facet Seong Ho Han
Yubin Jun
Tae Yong Shin
Jae Hong Kim
author_sort Seong Ho Han
title CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
title_short CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
title_full CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
title_fullStr CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
title_full_unstemmed CO<sub>2</sub> Curing Efficiency for Cement Paste and Mortars Produced by a Low Water-to-Cement Ratio
title_sort co<sub>2</sub> curing efficiency for cement paste and mortars produced by a low water-to-cement ratio
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-09-01
description Curing by CO<sub>2</sub> is a way to utilize CO<sub>2</sub> to reduce greenhouse gas emissions. Placing early-age cement paste in a CO<sub>2</sub> chamber or pressure vessel accelerates its strength development. Cement carbonation is attributed to the quickened strength development, and CO<sub>2</sub> uptake can be quantitatively evaluated by measuring CO<sub>2</sub> gas pressure loss in the pressure vessel. A decrease in CO<sub>2</sub> gas pressure is observed with all cement pastes and mortar samples regardless of the mix proportion and the casting method; one method involves compacting a low water-to-cement ratio mix, and the other method comprises a normal mix consolidated in a mold. The efficiency of the CO<sub>2</sub> curing is superior when a 20% concentration of CO<sub>2</sub> gas is supplied at a relative humidity of 75%. CO<sub>2</sub> uptake in specimens with the same CO<sub>2</sub> curing condition is different for each specimen size. As the specimen scale is larger, the depth of carbonation is smaller. Incorporating colloidal silica enhances the carbonation as well as the hydration of cement, which results in contributing to the increase in the 28-day strength.
topic CO<sub>2</sub> curing
size effect
colloidal silica
cement-based material
casting method
url https://www.mdpi.com/1996-1944/13/17/3883
work_keys_str_mv AT seonghohan cosub2subcuringefficiencyforcementpasteandmortarsproducedbyalowwatertocementratio
AT yubinjun cosub2subcuringefficiencyforcementpasteandmortarsproducedbyalowwatertocementratio
AT taeyongshin cosub2subcuringefficiencyforcementpasteandmortarsproducedbyalowwatertocementratio
AT jaehongkim cosub2subcuringefficiencyforcementpasteandmortarsproducedbyalowwatertocementratio
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