Stress Induced and Inherent Anisotropy on Elastic Stiffness of Soft Clays

Abstract

The influence of anisotropy on the elastic shear modulus of clays was addressed using test results obtained from a series of laboratory tests; i.e., triaxial test and Square oedometer. Under various stress stages imposing under triaxial condition, the deviator stress had an indiscernible influence on the elastic shear modulus. The path of vertically logged elastic shear modulus of clay could reasonably be expressed in terms of mean effective stress. Two pairs of bender elements were installed in the square oedometer so that shear wave velocities of samples which were trimmed parallel or perpendicular to their bedding direction can be measured in the vertical and horizontal directions. For sample trimmed parallel to the bedding direction (conventional one), the horizontal shear wave velocity was larger than the vertical one. The opposite observation, however, was observed for sample trimmed 90 degrees apart. The extents of different in vertically and horizontally logged shear wave velocities from both types of samples were almost similar. This clearly indicated the influence of inherent anisotropy rather than the stress induced. The mean effective stress can well represent the stage variable of elastic shear modulus.