Coupling Effect of Expansion Agent and Internal Curing Aggregate on Shrinkage of High-Modulus Ultra-High-Performance Concrete

Zhou, Min; Yang, Tengyu; Li, Jinhui; Qiu, Bing; Qiu, Wenjun; Chen, Dongdong; Li, Baiyun; Shu, Benan; Zhou, Changsheng; Guo, Lixian; Yu, Zi; Li, Yongling

doi:10.3390/coatings13091571

Coatings

2023

DOI: 10.3390/coatings13091571

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Coupling Effect of Expansion Agent and Internal Curing Aggregate on Shrinkage of High-Modulus Ultra-High-Performance Concrete

Min Zhou,

Tengyu Yang,

Jinhui Li

et al.

Abstract: In the realm of bridge structural engineering, it is customary to meticulously contemplate the material’s strength and rigidity attributes during the dimensioning phase. In recent years, there has been a burgeoning interest in employing Ultrahigh-Performance Concrete (abbreviated as UHPC) for the construction of bridge decks and wet joints. However, the large self-shrinkage of UHPC can easily lead to shrinkage cracking and affect its service life. This study delves into the utilization of a blend of basalt coa… Show more

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2024

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Cited by 3 publications

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Experimental design, mechanical performance and mechanism analysis of C30 phosphogypsum-based concrete

Hu,

Kong,

Wang

et al. 2024

Construction and Building Materials

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Experimental design, mechanical performance and mechanism analysis of C30 phosphogypsum-based concrete

Hu,

Kong,

Wang

et al. 2024

Construction and Building Materials

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Design and properties of ternary alkali-activated binder based on blast furnace slag, recycled powder and waste glass powder

Wang,

Tian,

Zhang

et al. 2024

Journal of Environmental Management

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The Application of Calcium-Based Expansive Agents in High-Strength Concrete: A Review

Zhang,

Pan,

Ren

et al. 2024

Buildings

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In this study, comprehensive investigation of the shrinkage compensation mechanisms of calcium-based expansive agents (CEAs), their effects on the properties of (ultra) high-strength concrete (HSC/UHSC), and the existing problems in applying this methodology was conducted. Analyses showed that the rational use of CEAs under certain conditions could greatly or completely inhibit the development of autogenous shrinkage of HSC/UHSC and significantly reduce the risk of associated cracking. However, it was found that the hydration of the CEAs affected the hydration process of other binders, thereby altering the microstructure of concrete. This, in turn, led to a reduction in mechanical properties such as compressive strength, flexural strength, and elastic modulus, with the rate of reduction increasing as the amount of CEA used increased. Moreover, when attempting to improve the shrinkage compensation effects, increasing the amount of CEA presented a risk of delayed expansion cracking of the HSC/UHSC. Neither the expansion mechanism, expansion conditions, nor the inhibition methods have yet been fully clarified in the current stage. Lastly, newly proposed Ca–Mg composite EAs were outlined, and the research prospects of Ca–Mg composite EAs in HSC/UHSC were explored.

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Coupling Effect of Expansion Agent and Internal Curing Aggregate on Shrinkage of High-Modulus Ultra-High-Performance Concrete

Cited by 3 publications

References 26 publications

Experimental design, mechanical performance and mechanism analysis of C30 phosphogypsum-based concrete

Experimental design, mechanical performance and mechanism analysis of C30 phosphogypsum-based concrete

Design and properties of ternary alkali-activated binder based on blast furnace slag, recycled powder and waste glass powder

The Application of Calcium-Based Expansive Agents in High-Strength Concrete: A Review

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