Microstructure showing the involvement of the fine and coarse grains in the soil skeleton is evaluated. Incremental loading tests using a stress-dependent permeameter are conducted on the mixtures of poorly graded sand and nonplastic fines originating from tailings. The results are compared with the published data of various tailings. It is shown that increasing the fines content from 0% to 100%, the involvement of the fine and coarse components of soil skeleton can be classified into four categories: no fines involvement (<10% fines), fines partially involved (10% 35% fines), increasing cushioning effect surrounding the coarse (35% 40% fines), and constant cushioning effect (>40% fines). At the same consolidation stress, the void ratio, e, rapidly decreases for fines less than 30%, then almost remains constant between 30% and 50% fines, and gradually increases for fines exceeding 50%. The hydraulic conductivity, k, decreases more than 20-fold as the fines content increases from 12% to 50%, then remains constant. k is proportional to [e3/(1 + e)]A and inversely proportional to S2,whereA is a factor describing the effect of particle angularity and S is the specific surface. Finally, the influence of fines content on the seepage-induced internal stability is discussed.
CITATION STYLE
Fan, J., Rowe, R. K., & Brachman, R. W. I. (2022). Compressibility and permeability of sand–silt tailings mixtures. Canadian Geotechnical Journal, 59(8), 1348–1357. https://doi.org/10.1139/cgj-2021-0356
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