| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
|
|
|
|
|
| Fabrication,Properties and Hydration Mechanism of Fluid Solidifying Soil Containing Coal Gasification Slag |
| LI Dongping1, JIAO Yuanshuo1, ZHANG Kaifan2, ZHAI Yuxin3,*, QIAN Zengzhi3, WANG Changlong1,*, HUANG Tianyong4, ZHENG Yongchao4, BAI Yunyi1, FU Xingshuai1, TIAN Jinglei5, SUN Yujia5
|
1 Hebei Province Key Laboratory for Low-Carbon Construction and Resilience Enhancement of Construction Engineering, School of Civil Engineering, Hebei University of Engineering, Handan 056038, Hebei, China
2 Jiangxi Provincial Key Laboratory of Safe and Efficient Mining of Rare Metal Resource, School of Resources and Environmental Engineering, Jiangxi University of Science and Technology, Ganzhou 341000, Jiangxi, China
3 China Railway Construction Group Co.,Ltd., Beijing 100040, China
4 State Key Laboratory of Solid Waste Reuse for Building Materials, Beijing Building Materials Academy of Science Research, Beijing 100041, China
5 HBIS Group Co., Ltd., Shijiazhuang 050023, China |
|
|
|
|
Abstract To address the significant issue of solid waste stockpiles between coal chemical and metallurgical industries in China, a curing agent was prepared by using coal gasification slag (CGS), flue gas desulfurization residue, slag, and cement as raw materials. This curing agent, instead of pure cement mixed with clay, was used to produce fluid solidifying soil. The grinding characteristics of CGS, the properties of fluid solidifying soil and the hydration mechanism of the curing agent were investigated by using particle size analysis, mechanical property tests, X-ray diffraction (XRD), and scanning electron microscopy (SEM). The results showed that the specific surface area of CGS milled for 50 minutes reached 560 m2/kg and its 28-day activity index reached 65.9%. When the mass ratio of curing agent in CGS,slag,flue gas desulfurization residue,cement was 30∶30∶12∶28, the mass ratio of curing agent, clay was 12∶88, the slurry concentration was 80%, and the dosage of PC polycarboxylate superplasticizer was 1.1%, the 3 day and 28 day compressive strength of the fluid solidifying soil reached 1.64 MPa and 2.31 MPa, respectively; the main hydration products of the curing agent are C-S-H gel, Ca(OH)2, and ettringite (AFt).
|
|
Published:
Online: 2026-02-13
|
|
|
|
Corresponding Authors:
Zhaiyuxin.ztjs@crcc.cn;baistuwong@139.com
|
|
|
1 Liu F, Guo L F, Zhao L Z. Journal of China Coal Society, 2022, 47(1), 1(in Chinese).
刘峰, 郭林峰, 赵路正. 煤炭学报, 2022, 47(1), 1.
2 National Bureau of Statistics. Statistical bulletin on national economic and social development of the People’s Republic of China in 2023, China Statistical Publishing House, China, 2023, pp. 6 (in Chinese).
国家统计局. 中华人民共和国2023年国民经济和社会发展统计公报, 中国统计出版社, 2023, pp. 6.
3 Qi W Y, Han Y J, Duan G, et al. Construction and Building Materials, 2024, 425, 135970.
4 Zhang L H, Jin Y R, Cheng F Q. Chemical Industry and Engineering Progress, 2023, 42(8), 4447(in Chinese).
张丽宏, 金要茹, 程芳琴. 化工进展, 2023, 42(8), 4447.
5 Zhu J F, Li J, Yan L, et al. Clean Coal Technology, 2021, 27(6), 11(in Chinese).
朱菊芬, 李健, 闫龙, 等. 洁净煤技术, 2021, 27(6), 11.
6 Li Z Z, Zhang Y Y, Zhao H Y, et al. Construction and Building Materials, 2019, 213, 265.
7 Wu F, Li H, Yang K. Coatings, 2021, 11(8), 902.
8 Zhu M B, Xie G, Liu L, et al. Materials, 2022, 15(17), 6033.
9 Pan Y, Lang L, Yong L S, et al. Construction and Building Materials, 2023, 401, 132973.
10 Liu S, Liu W, Jiao F, et al. Environmental Pollution, 2021, 288, 117799.
11 Zhou M K, Chen P, Chen X, et al. Construction and Building Materials, 2020, 251, 118993.
12 Sun R, Wang D M, Wang Y R, et al. Cement and Concrete Composites, 2022, 131, 1.
13 Chen C S, Sulakshana S, Pan Y H, et al. Construction and Building Materials, 2024, 411, 134585.
14 Xie G, Liu L, Suo Y L, et al. Process Safety and Environmental Protection, 2024, 182, 127.
15 Han Y, Qi W, Pang H, et al. Construction and Building Materials, 2024, 420, 135591.
16 Ma Z, Sun Y, Duan S, et al. Construction and Building Materials, 2024, 420, 135581.
17 Tian Y, Wang Y, Chai H, et al. Construction and Building Materials, 2024, 414, 134864.
18 Xiang J C, Qi J P, Zhao Y Q, et al. Cement and Concrete Composites, 2024, 147, 105418.
19 Fang K Z, Zhang D J, Wang D M, et al. Journal of Building Engineering, 2023, 69, 106237.
20 Tian Y, Xie Z L, Xue K W, et al. Construction and Building Materials, 2023, 373, 130852.
21 Li Z Z, Li F, Xie H W, et al. Materials, 2022, 15(24), 8868.
22 Yang P, Suo Y L, Liu L, et al. Journal of Building Engineering, 2022, 62, 105318.
23 Fu B, Cheng Z Y, Wang D Z, et al. Construction and Building Materials, 2022, 323, 126587.
24 Tsivilis S, Parissakis G. Cement and Concrete Research, 1995, 25(1), 9.
25 Fuller W B, Thompson S E. Journal of the Society for Chemical Industry, 1934, 53(2), 107.
26 Ma J T. Research on the preparation of composite cementitious materials and concrete from metallurgical and coal based solid waste. Master’s Thesis, Hebei University of Engineering, China, 2023(in Chinese).
马锦涛. 冶金-煤基固废制备复合胶凝材料及混凝土的研究. 硕士学位论文, 河北工程大学, 2023.
27 Li X Z, Zhang H Z, Zhang S H, et al. Materials Reports, 2023, 37(8), 22040240 (in Chinese).
李小占, 张鸿泽, 张苏花, 等. 材料导报, 2023, 37(8), 22040240.
28 Zhang H Z, Qi Y, Jing J L, et al. Frontiers in Earth Science, 2023, 11, 1181974.
29 Wang C L, Qi Y, Jing J L, et al. Frontiers in Earth Science, 2023, 11, 1181952.
30 Wang F, Zheng Q Q, Zhang G Q, et al. Journal of New Materials for Electrochemical Systems, 2020, 23(1), 52.
31 Wang C L, Ren Z Z, Huo Z K, et al. Alexandria Engineering Journal, 2021, 60, 4961.
32 Zhang K F, Wang X J, Wang C L, et al. Materials Reports, 2025, 39(2), 23120264 (in Chinese).
张凯帆, 王晓军, 王长龙, 等. 材料导报, 2025, 39(2), 23120264.
33 Wang C L, Chen J L, Yang F H, et al. Science Technology and Engineering, 2023, 23(3), 1207(in Chinese).
王长龙, 陈敬亮, 杨丰豪, 等. 科学技术与工程, 2023, 23(3), 1207. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2026, Vol. 40 
