Influence of microstructure of loess on triaxial shear strength |
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Authors: | R.V. Matalucci M. Abdel-hady J.W. Shelton |
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Affiliation: | aU.S. Air Force Weapons Laboratory, Kirtland A.F.B., N.M. U.S.A. bDepartment of Civil Engineering, Oklahoma State University, Stillwater, Okla. U.S.A. cDepartment of Geology, Oklahoma State University, Stillwater, Okla., U.S.A. |
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Abstract: | Vicksburg loess is characterized by preferred orientation of constituent grains, which on the average dip 4° toward the west (N 80–85°W). This investigation was undertaken to study, quantitatively, the relationship between natural fabric anisotropies of Vicksburg loess and the orientation of applied stress distribution Results of the study indicate the fabric anisotropies in Vicksburg loess are reflected by definite variation in triaxial shear strength of dry and moist specimens. In two series of triaxial tests, ultimate strength of the loess is maximum where σ1 is perpendicular to grain orientation, and it is reduced where the principal stresses are 45° to the fabric plane. In this respect, Vicksburg loess may serve as a structural model for granular earth materials in illustrating the influence of fabric on ultimate strength. Moreover, the Mohr-Coulomb fracture line consists of two line segments, with an increase in slope at higher confining pressure. This characteristic suggests that poorly-cemented sands, or sandstones, and silts, or siltstones, may undergo two failures: one at small strains where cement bonds are disrupted and the other at larger strains where internal shearing resistance of granular components is exceeded. |
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