Long-term performance and hydration of cement mortars with hydroxyethyl methyl cellulose cured at 5℃ low temperature

•HEMC has a content inflection point of 1% for the mid-late flexural and compressive strengths.•HEMC has an optimal content range of 0.3–0.5% for tensile bond strength at 5℃.•Incorporating HEMC shows the limited effect on the final hydration degree at 5℃.•Incorporating HEMC significantly increases m...

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Published inConstruction & building materials Vol. 307; p. 124963
Main Authors Wang, Shunxiang, Zhang, Guofang, Wang, Zhaojia, Luo, Shun, Huang, Tianyong, Wu, Min
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 08.11.2021
Subjects
Cement mortars
Hydration characteristics
Hydroxyethyl methyl cellulose
Low temperature
Physical properties
Pore structure
Cement mortars
Hydroxyethyl methyl cellulose
Pore structure
Physical properties
Hydration characteristics
Low temperature
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Abstract •HEMC has a content inflection point of 1% for the mid-late flexural and compressive strengths.•HEMC has an optimal content range of 0.3–0.5% for tensile bond strength at 5℃.•Incorporating HEMC shows the limited effect on the final hydration degree at 5℃.•Incorporating HEMC significantly increases macro pores and total porosity. As one of the special curing regimes, low temperature environment is considered to be crucial to the development of various properties of cementitious materials. This work focuses on the long-term performance and hydration of cement mortars with hydroxyethyl methyl cellulose (HEMC) cured at 5℃. The results show that the mid-late flexural and compressive strengths decrease with the HEMC content increasing, to get the lowest values at 1% HEMC. Afterwards, with the HEMC content increasing to 3%, the above strengths gradually increase, still being lower than those of the control. The tensile bond strength increases with the HEMC content increasing, to reach the maximum value at 0.3–0.5% HEMC, and then decreases with the HEMC content increasing to 3%, which is still much higher than that of the control. The drying shrinkage presents a significant increase with the HEMC content increasing. Moreover, HEMC significantly retards the early hydration of cement pastes. But the final hydration degree of cement pastes with HEMC tends to be close to that of the control. In addition, macro pores and the total porosity increase with the HEMC content increasing at 0–1%, and then decrease to some extent at 3% HEMC. Obviously, due to its better long-term properties at 5℃, the cement mortars with HEMC are still applicable at low temperatures.
AbstractList •HEMC has a content inflection point of 1% for the mid-late flexural and compressive strengths.•HEMC has an optimal content range of 0.3–0.5% for tensile bond strength at 5℃.•Incorporating HEMC shows the limited effect on the final hydration degree at 5℃.•Incorporating HEMC significantly increases macro pores and total porosity. As one of the special curing regimes, low temperature environment is considered to be crucial to the development of various properties of cementitious materials. This work focuses on the long-term performance and hydration of cement mortars with hydroxyethyl methyl cellulose (HEMC) cured at 5℃. The results show that the mid-late flexural and compressive strengths decrease with the HEMC content increasing, to get the lowest values at 1% HEMC. Afterwards, with the HEMC content increasing to 3%, the above strengths gradually increase, still being lower than those of the control. The tensile bond strength increases with the HEMC content increasing, to reach the maximum value at 0.3–0.5% HEMC, and then decreases with the HEMC content increasing to 3%, which is still much higher than that of the control. The drying shrinkage presents a significant increase with the HEMC content increasing. Moreover, HEMC significantly retards the early hydration of cement pastes. But the final hydration degree of cement pastes with HEMC tends to be close to that of the control. In addition, macro pores and the total porosity increase with the HEMC content increasing at 0–1%, and then decrease to some extent at 3% HEMC. Obviously, due to its better long-term properties at 5℃, the cement mortars with HEMC are still applicable at low temperatures.
ArticleNumber 124963
Author Wu, Min
Wang, Zhaojia
Luo, Shun
Wang, Shunxiang
Huang, Tianyong
Zhang, Guofang
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  givenname: Guofang
  surname: Zhang
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  organization: Key Laboratory of Advanced Civil Engineering Materials of Ministry of Education, Tongji University, Shanghai 201804, China
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  givenname: Tianyong
  surname: Huang
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  organization: Beijing Building Materials Academy of Scientific Research, Beijing 100041, China
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  givenname: Min
  surname: Wu
  fullname: Wu, Min
  organization: Department of Engineering, Aarhus University, Aarhus 8000, Denmark
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Keywords Cement mortars
Hydroxyethyl methyl cellulose
Pore structure
Physical properties
Hydration characteristics
Low temperature
Language English
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Snippet •HEMC has a content inflection point of 1% for the mid-late flexural and compressive strengths.•HEMC has an optimal content range of 0.3–0.5% for tensile bond...
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elsevier
SourceType Enrichment Source
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StartPage 124963
SubjectTerms Cement mortars
Hydration characteristics
Hydroxyethyl methyl cellulose
Low temperature
Physical properties
Pore structure
Title Long-term performance and hydration of cement mortars with hydroxyethyl methyl cellulose cured at 5℃ low temperature
URI https://dx.doi.org/10.1016/j.conbuildmat.2021.124963
Volume 307
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