Application of Calcium Sulfate Whiskers to Cement-Based Materials: A Review

Liu, Guoqiang; Liao, Yongpang; Sha, Xun; Liu, Guangmin; Zhang, Yingjie; Guo, Rongxin; Yue, Yao

doi:10.3390/ma17051138

Materials

2024

DOI: 10.3390/ma17051138

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Application of Calcium Sulfate Whiskers to Cement-Based Materials: A Review

Guoqiang Liu,

Yongpang Liao,

Xun Sha

et al.

Abstract: In recent years, significant attention has been paid to the use of calcium sulfate whiskers (CSWs) to enhance the performance of cement-based materials (CBM). This technology has attracted widespread interest from researchers because it enhances the performance and sustainability of CBM by modifying the crystal structure of calcium sulfate. This article summarizes the fundamental properties and preparation methods of calcium sulfate whisker materials as well as their applications in cement, potential advantage… Show more

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Cited by 3 publications

References 103 publications

(157 reference statements)

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Paradigm Shifts in Building Construction Priorities in the Last Decade

Priyadarshani,

Rao,

Mani

2024

J Indian Inst Sci

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Paradigm Shifts in Building Construction Priorities in the Last Decade

Priyadarshani,

Rao,

Mani

2024

J Indian Inst Sci

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Preliminary exploration of the hydration-carbonation coupling mechanism of low-carbon calcined clay-carbide slag-cement composites

Liao,

Shi,

Gao

et al. 2024

Journal of CO2 Utilization

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A Study on the Mechanical and Wear-Resistance Properties of Hybrid Fiber Mortar Composites with Low Water–Cement Ratios

Li,

Dang,

Jiang

et al. 2024

Materials

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Based on mortar composites with a low water–cement ratio, the effects of hybrid aramid fiber (AF), calcium sulfate whisker (CSW), and basalt fiber (BF) on their mechanical properties and wear resistance were studied, and the correlation between wear resistance and compressive strength are discussed. A microstructure analysis was conducted through scanning electron microscopy (SEM) and the nitrogen-adsorption method (BET). The research results show that compared with the control group, the compressive strength, flexural strength, and wear resistance of the hybrid AF, CSW, and BF mortar composites with a low water–cement ratio increased by up to 33.6%, 32%, and 40.8%, respectively; there is a certain linear trend between wear resistance and compressive strength, but the discreteness is large. The microstructure analysis shows that CSW, AF, and BF mainly dissipate energy through bonding, friction, mechanical interlocking with the mortar matrix, and their own pull out and fracture, thereby enhancing and toughening the mortar. A single doping of CSW and co-doping of CSW and AF can refine the pore structure of the mortar, making the mortar structure more compact.

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Application of Calcium Sulfate Whiskers to Cement-Based Materials: A Review

Cited by 3 publications

References 103 publications

Paradigm Shifts in Building Construction Priorities in the Last Decade

Paradigm Shifts in Building Construction Priorities in the Last Decade

Preliminary exploration of the hydration-carbonation coupling mechanism of low-carbon calcined clay-carbide slag-cement composites

A Study on the Mechanical and Wear-Resistance Properties of Hybrid Fiber Mortar Composites with Low Water–Cement Ratios

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