Litcius/Paper detail

Large-strain analysis of undrained smooth tube sampling

Lluís Monforte, Marcos Arroyo, Josep Maria Carbonell, Antonio Gens

2020Géotechnique14 citationsDOIOpen Access PDF

Abstract

Borehole tube sampling is a key process of geotechnical engineering. The paper presents numerical analyses of smooth tube sampling in clay using the particle finite-element method. The soil is described by a conventional elasto-plastic constitutive model (Tresca plasticity and a quasi-incompressible elastic law). The sampler is advanced by several diameters into the soil until a steady state is observed. The elasto-plastic numerical solution for a round-tipped sampler clearly identifies a localised shear failure mechanism at the entrance of the tube. Relevant strain path method (SPM) solutions are numerically evaluated to facilitate full field comparison. For a given thickness ratio elasto-plastic simulation predicts far less compression but much larger extensions at the centreline than SPM. The results also show how including a bevelled sampler tip or a stationary piston changes the failure mechanism and significantly reduces induced peak extension strains. The results agree with available experimental data and well-established empirical observations. The methodology presented may open the way to a soil mechanics-based rational approach to soil sampling simulation.

Topics & Concepts

Geotechnical engineeringConstitutive equationPlasticityMechanicsBoreholeFinite element methodSampling (signal processing)CompressibilityStress pathCritical state soil mechanicsSoil mechanicsTube (container)Materials scienceGeologyPiston (optics)Structural engineeringEngineeringSoil waterPhysicsComposite materialFilter (signal processing)Soil scienceOpticsWavefrontElectrical engineeringGeotechnical Engineering and Underground StructuresDam Engineering and SafetyRock Mechanics and Modeling