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Investigation on One-Dimensional Nonlinear Thermal Consolidation of Saturated Clay under the Impeded Drainage Boundary

Wenhao Jiang, Jiangshan Li, Shangqi Ge, Chen Feng, Xiao Huang, Ping Wang

2023International Journal of Geomechanics14 citationsDOI

Abstract

Temperature changes affect the nonlinear consolidation process in soils, and there is limited associated theoretical research. In this study, the governing equations for nonlinear consolidation and thermal conduction are developed, and a mathematical model for one-dimensional nonlinear thermal consolidation in saturated clay under the impeded drainage boundary is established, where the temperature-dependent compressibility and permeability are considered. Meanwhile, the finite-difference solutions for nonlinear consolidation and the analytical solutions for thermal conduction are obtained, respectively. Furthermore, the proposed model’s reasonableness is verified by comparison with other theoretical models. Based on this, the impact of several factors on nonlinear thermal consolidation behaviors is investigated. With a rise in temperature increment (ΔT), the dissipation rate of excess pore water pressure (EPWP) accelerates in the later consolidation stage, and the final settlement becomes larger. In addition, the EPWP dissipation rate grows remarkably with an increasing impeded drainage boundary parameter (μ). In particular, the impeded drainage boundary can be degraded into a drainage boundary when the value of μ becomes large (e.g., μ = 100 m−1). Increasing preconsolidation pressure (pcR) results in a reduction in settlement, and the maximum values of EPWP decline with a rising linear loading time (tc). Overall, this study contributes to the accurate prediction of the nonlinear consolidation process taking the thermal effect into account.

Topics & Concepts

Consolidation (business)DrainageGeotechnical engineeringNonlinear systemPore water pressureCompressibilityDissipationBoundary value problemThermalThermal conductionMechanicsGeologySoil waterMaterials scienceThermodynamicsMathematicsSoil sciencePhysicsComposite materialMathematical analysisAccountingBusinessBiologyEcologyQuantum mechanicsSoil and Unsaturated FlowGeotechnical Engineering and Soil StabilizationGeotechnical Engineering and Soil Mechanics
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