Paper

Authors:: S.M.R. Hosseini; M. Jesmani
Abstract: In most of geotechnical projects linear Mohr-Coulomb envelope is used. In fact, aforementioned envelope is curved for coarse-grained soils and is affected by some factors such as confining pressure and normal stress. The curved strength envelope could be used to study the behavior of deep foundations, earth dams, soil slopes, and the other earth structures in which failure occurs under considerable normal stresses. A deep failure surface may be more critical than a shallow surface when the phenomenon of curved strength envelope is considered, because in fact the internal friction angle decreases with increasing the depth of soil layers and confining pressure. The main purpose of this research is to express the internal friction angle of sands as a function of normal stress and relative compaction. In this study, direct shear tests are performed on air dried and saturated sand samples at different normal stresses to evaluate the variation of internal friction angle with these factors.
Keywords: Dilatancy; Internal Friction Angle; Normal Stress; Relative Compaction; Stress Level
StartPage: 219
EndPage: 225
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