Experimental Study of Compact Sandstone Deformation Under Axisymmetric Triaxial Loading Along Specific Paths in Stress Space

The deformation of rocks well below their ultimate strengths is frequently described through the constant stiffness moduli of the linear elasticity theory. In addition, the isotropic material approximation is usually used as the basic approach. Particularly in sedimentary rocks, local inhomogeneities, anisotropy, and irreversible processes, mainly related to the gradual breakage of grain joints, can affect their deformation behavior from the beginning of the loading. Consequently, the stiffness moduli measured under triaxial conditions are effective parameters, which may depend on the loading path in the stress space. Therefore, a complex experimental study of the deformation response of compact sedimentary rock (Brenna sandstone) along various paths in triaxial stress space was prepared to understand this dependence. In addition, a detailed analysis of the rock composition and structure of this compact sandstone was carried out. This paper presents an initial experimental study that is based on a loading method using alternative stress paths that correspond to different modes of the monotonic increase in differential stress from an initial isotropic compression state. In the experiment, the dependence of stiffness moduli on the loading path was found. Differences in rock deformation for conventional triaxial compression and extension can be attributed to a slight rock anisotropy originating from the stratification. The different behavior of deformation and related stiffness moduli along so-called reduced triaxial paths and conventional paths indicates that irreversible processes must be taken into account. The study brings new experimental data on the deformation of compact sedimentary rock in specific triaxial stress conditions.The measured effective stiffness moduli of compact sandstone depends on the loading path in the triaxial stress state.In general, the deformation response of the sandstone is nonlinear from the start of loading.The mechanical properties of the sandstone show anisotropy as a consequence of stratification.In standard triaxial tests, failure criterion combining stress and strain conditions can be used for the investigated sandstone.

Automated summary

This article investigates the deformation response of compact sedimentary rock under triaxial stress conditions, finding that the stiffness moduli depend on the loading path. The deformation behavior of the sandstone is nonlinear and shows anisotropy.