Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry
Considering the rapid development of the engineering industry, cement grouting materials are critical in many projects. However, cement production is energy-intensive and relies on non-renewable raw materials. To achieve sustainable development and low-carbon living, the development of an environmen...
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Elsevier
2025-07-01
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| Series: | Case Studies in Construction Materials |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214509525001354 |
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| author | Kai Wang Siyang Guo Hua Yuan Jiahui Ren Pengyu Chen Qihao Zhang |
| author_facet | Kai Wang Siyang Guo Hua Yuan Jiahui Ren Pengyu Chen Qihao Zhang |
| author_sort | Kai Wang |
| collection | DOAJ |
| description | Considering the rapid development of the engineering industry, cement grouting materials are critical in many projects. However, cement production is energy-intensive and relies on non-renewable raw materials. To achieve sustainable development and low-carbon living, the development of an environmentally friendly and high-performance cement grouting material is essential. Fly ash and silica fume have been considered additives to cement to make it more environmentally friendly, but an optimal ratio of these additives has not been found. In this study, the effects of ultrafine cement (UC), ultra-fine fly ash (UFA), and ultra-fine silica fume (USF) on the flowability, stability, and compressive strength of composite cement slurries were investigated. Tests were conducted to determine the shear force, apparent viscosity, water evolution rate, and compressive strength. Microscopic analyses of the cement containing UFA and USF were performed using X-ray diffraction and scanning electron microscopy. The experimental results demonstrate that UFA improves the fluidity and stability of the slurry but reduces its strength; the optimal dosage is 10 %–30 %. USF reduces the fluidity of the slurry but improves its stability and compressive strength; the optimal dosage is 3 %–10 %. UFA and USF improve the microstructure of the cement surface. After adding UFA, cement hydration accelerates, and more calcium silicate hydrate (C-S-H) is generated in the later stage. Therefore, replacing cement with UFA and USF can reduce cement consumption and improve performance. Finally, using orthogonal experiments, the optimal slurry ratio with comprehensive performance was selected as follows: UC of K1340, 0.7 W/C, 30 % UFA, 10 % USF, and 1 % water reducer. This study provides valuable insights and practical guidelines that can enhance the performance, sustainability, and cost-effectiveness of cement grouting materials used in various engineering applications. |
| format | Article |
| id | doaj-art-228f17c516024a6abf5429740f122abc |
| institution | Kabale University |
| issn | 2214-5095 |
| language | English |
| publishDate | 2025-07-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Case Studies in Construction Materials |
| spelling | doaj-art-228f17c516024a6abf5429740f122abc2025-02-07T04:47:34ZengElsevierCase Studies in Construction Materials2214-50952025-07-0122e04337Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurryKai Wang0Siyang Guo1Hua Yuan2Jiahui Ren3Pengyu Chen4Qihao Zhang5School of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaSchool of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaCorresponding author.; School of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaSchool of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaSchool of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaSchool of Civil Engineering and Archi Tecture Henan University, Kaifeng 47500, ChinaConsidering the rapid development of the engineering industry, cement grouting materials are critical in many projects. However, cement production is energy-intensive and relies on non-renewable raw materials. To achieve sustainable development and low-carbon living, the development of an environmentally friendly and high-performance cement grouting material is essential. Fly ash and silica fume have been considered additives to cement to make it more environmentally friendly, but an optimal ratio of these additives has not been found. In this study, the effects of ultrafine cement (UC), ultra-fine fly ash (UFA), and ultra-fine silica fume (USF) on the flowability, stability, and compressive strength of composite cement slurries were investigated. Tests were conducted to determine the shear force, apparent viscosity, water evolution rate, and compressive strength. Microscopic analyses of the cement containing UFA and USF were performed using X-ray diffraction and scanning electron microscopy. The experimental results demonstrate that UFA improves the fluidity and stability of the slurry but reduces its strength; the optimal dosage is 10 %–30 %. USF reduces the fluidity of the slurry but improves its stability and compressive strength; the optimal dosage is 3 %–10 %. UFA and USF improve the microstructure of the cement surface. After adding UFA, cement hydration accelerates, and more calcium silicate hydrate (C-S-H) is generated in the later stage. Therefore, replacing cement with UFA and USF can reduce cement consumption and improve performance. Finally, using orthogonal experiments, the optimal slurry ratio with comprehensive performance was selected as follows: UC of K1340, 0.7 W/C, 30 % UFA, 10 % USF, and 1 % water reducer. This study provides valuable insights and practical guidelines that can enhance the performance, sustainability, and cost-effectiveness of cement grouting materials used in various engineering applications.http://www.sciencedirect.com/science/article/pii/S2214509525001354Ultra-fine fly ash (UFA)Ultra-fine silica fume (USF)LiquidityMechanical propertiesMicroscopic propertiesOrthogonal experiment |
| spellingShingle | Kai Wang Siyang Guo Hua Yuan Jiahui Ren Pengyu Chen Qihao Zhang Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry Case Studies in Construction Materials Ultra-fine fly ash (UFA) Ultra-fine silica fume (USF) Liquidity Mechanical properties Microscopic properties Orthogonal experiment |
| title | Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry |
| title_full | Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry |
| title_fullStr | Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry |
| title_full_unstemmed | Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry |
| title_short | Influence of cement particle size, ultra-fine fly ash, and ultra-fine silica fume on the physical and microscopic properties of slurry |
| title_sort | influence of cement particle size ultra fine fly ash and ultra fine silica fume on the physical and microscopic properties of slurry |
| topic | Ultra-fine fly ash (UFA) Ultra-fine silica fume (USF) Liquidity Mechanical properties Microscopic properties Orthogonal experiment |
| url | http://www.sciencedirect.com/science/article/pii/S2214509525001354 |
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