材料科学
泥浆
流变学
烟气脱硫
胶凝的
熔渣(焊接)
抗压强度
复合材料
尾矿
产量(工程)
粘度
水泥
冶金
压力(语言学)
复合数
表观粘度
骨料(复合)
分形维数
等温过程
宾汉塑料
城市固体废物
磨细高炉矿渣
粘塑性
炼钢
作者
Jiqi Cai,Chuang Sun,Jianjun Zhang,Baoqiang Wang,Jiaying Ran,Nannan Tang
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2026-03-04
卷期号:19 (5): 994-994
摘要
To enhance the rheological properties and engineering applicability of fully solid waste filling slurry, this study uses iron tailings sand as aggregate and slag, steel slag, and desulfurization ash as cementing materials. Through a central composite design experiment, the synergistic regulatory effects of steel slag (10~30%) and desulfurization ash (10~30%) on the slurry's rheological and strength properties were systematically investigated. The yield stress and plastic viscosity of the slurry were quantified based on the Bingham fluid model, using expansion tests and L-tube models, while isothermal calorimetry analysis and microscopic image processing revealed the underlying micro-mechanisms. The results show that when both steel slag and desulfurization ash contents are 20%, the cured specimen prepared from the slurry achieves an optimal 28-day uniaxial compressive strength of 5.90 MPa at 28 days, with yield stress and plastic viscosity of 146.71 Pa and 3.04 Pa·s, respectively. Micro-mechanistic analysis revealed that desulfurization ash effectively reduced the yield stress by up to 38% (from 196.04 Pa to 90.01 Pa) and increased the fractal dimension of flocculated structures to 1.906, thereby optimizing initial flowability. Conversely, steel slag increased the yield stress but decreased plastic viscosity, enhancing structural stability, and regulating the later hydration process. The loop tests confirmed the good transport performance and engineering adaptability of the optimized mix, achieving a cost reduction of up to 65% compared to cement-based systems.
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