Cohesive-frictional soils are widely used in the construction of embankment structures and due to the method of construction, i.e. applying compactive efforts in the vertical direction in these cases, the occurrence of anisotropy in the soil strength and permeability seems to be inevitable. In this study, attempts have been made to evaluate the shear strength of c-f soils through modifying a large shear box apparatus. Conducting more than 108 direct shear tests, the effects of compaction method and moisture on the shear strength anisotropy of a selected c-f soil (a clayey sand) have then been
investigated. According to the test results, firstly strength anisotropy was observed in all the soil specimens and the shear strength in the vertical direction was about 14% to 21% higher than that in the horizontal direction. Secondly, it was found that an increase in the compaction moisture led to an increase in the degree of anisotropy. Furthermore, the anisotropy in the cohesive strength was more pronounced in the specimens with a moisture content higher than the optimum one. The highest degree of anisotropy was observed in the specimens compacted by impacting effort and the lowest one belonged to those with the vibratory compaction.
M.A.Rowshanzamir and A. Jafari, (2022). Investigation of Shear Strength Anisotropy of c- &phi Soils. Journal of Computational Methods in Engineering, 24(2), 87-103.
MLA
M.A.Rowshanzamir and A. Jafari. "Investigation of Shear Strength Anisotropy of c- &phi Soils", Journal of Computational Methods in Engineering, 24, 2, 2022, 87-103.
HARVARD
M.A.Rowshanzamir and A. Jafari, (2022). 'Investigation of Shear Strength Anisotropy of c- &phi Soils', Journal of Computational Methods in Engineering, 24(2), pp. 87-103.
VANCOUVER
M.A.Rowshanzamir and A. Jafari, Investigation of Shear Strength Anisotropy of c- &phi Soils. Journal of Computational Methods in Engineering, 2022; 24(2): 87-103.