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Characterisation of soil deformation over wide strain ranges in triaxial test with high-precision stereophotogrammetry

Satoshi Nishimura

2022Géotechnique12 citationsDOIOpen Access PDF

Abstract

Stereophotogrammetry was adopted as a means to measure three-dimensional displacements of a soil specimen surface in triaxial tests. New developments include an efficient algorithm that resolves the relative displacements with high precision to the order of 10 −3 mm, and strains in common-sized soil specimens to the order of 10 −3 %, while correcting for ray refraction effects caused by the pressure cell wall and water. The system, requiring only sets of compact-type digital cameras as hardware, allows a stiffness–strain curve to be determined over wide strain ranges spanning from 10 −3 % to virtually any large strain with a fixed configuration. This paper explains the proposed image analysis processes, which combine a ray tracing formulation by Zhang and co-workers, particle tracking velocimetry and sub-pixel digital image correlation in efficiently deriving accurate and precise relative displacements. Rigorous assessment of the accuracy and precision was conducted. As a demonstration, two undrained triaxial compression tests on reconstituted clay were performed with and without end lubrication. Both for small-strain (<0·05%) axial loading–unloading cycles and for monotonic loading to large axial strain (15%), the strain development was tracked and the specimen behaviour was characterised. These tests demonstrate that the new technique can be a useful option in a soil laboratory both for research and practice.

Topics & Concepts

Digital image correlationStiffnessGeotechnical engineeringTriaxial shear testDeformation (meteorology)Particle image velocimetryMaterials scienceGeologyComputer scienceMechanicsShear (geology)PhysicsComposite materialTurbulenceGeotechnical Engineering and Soil MechanicsSoil and Unsaturated FlowSoil Mechanics and Vehicle Dynamics
Characterisation of soil deformation over wide strain ranges in triaxial test with high-precision stereophotogrammetry | Litcius