Effect of Flocculants Residue on Rheological Properties of Ultra-Fine Argillaceous Backfilling Slurry

• Published in: Materials Vol. 15; no. 18; p. 6485
• Main Authors: Li, Shuai, Yu, Zheng, Hu, Boyi, Yu, Haoxuan, Wang, Xinmin
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.09.2022; MDPI
• Subjects: Backfill; Cement hydration; Experiments; flocculant network structure; Flocculants; flocculation residue; Low temperature; Molecular weight; Particle size; Residues; Rheological properties; Rheology; Sedimentation & deposition; Shear rate; Shear stress; Slurries; slurry pipeline transportation; Stirring; Transport properties; ultra-fine argillaceous backfilling slurry; Ultrafines; Viscosity; Yield strength; Yield stress
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma15186485

Tailings concentration is indispensable for backfilling. Additionally, the residual flocculants in the concentration process affect the rheological properties of ultra-fine argillaceous backfilling slurry (e.g., viscosity and yield stress), resulting in a great effect on the fluidity and resistance of pipeline transportation. In this study, to explore the effect of flocculants residue on the rheological properties of the slurry, a series of rheological tests (constant shear rate test and variable shear rate test) were performed by changing the type, dosage, stirring time, temperature of flocculants addition and the amount of binder added. The results showed that the addition of flocculants increased the viscosity and yield stress of slurry. At a certain amount of flocculants additive, the flocculant network structure reached the best development state, which had a positive effect on increasing slurry viscosity and yield stress. As the stirring time increased, the scale of damage to the flocculant network structure became larger, which had a negative effect on increasing slurry viscosity and yield stress. Low temperature weakened the adsorption and bridging effect of polymeric chains, resulting in a poorly developed flocculant network structure, which had a negative effect on increasing slurry viscosity and yield stress. Caused by hydration products, the viscosity and yield stress of slurry with binder further increased. This study is significant for an in-depth study of the rheological and pipeline transport characteristics of ultra-fine argillaceous backfilling slurry, optimising the selection of flocculants for ultrafine particles, guiding backfill parameters and improving the reliability of pipeline transport.