Triaxial Test of Unsaturated Clay and the Engineering Application at the Naji Reservoir in Guangxi Province

Dian Guang Ma; Zhi Kai Zhang; Yuan Zhan Wang

doi:10.4028/www.scientific.net/AMR.594-597.327

Paper Titles

Research on Gradual Deformation and Fracture Mechanism of Landslide by Model Test
p.303

Experimental Research on Tailings Briquetting for Filling Mining Subsidence Area in Jinshandian Iron Mine
p.310

Research on Pile Foundation of Transmission Tower Stability Analysis Based on Numerical Simulation in Karst Areas
p.316

Settlement Analysis of Single Large-Diameter and Super-Long Bored Piles in Cohesive Soils
p.320

Triaxial Test of Unsaturated Clay and the Engineering Application at the Naji Reservoir in Guangxi Province
p.327

Analysis of One-Dimensional Thermal Consolidation of Saturated Soil with and without Thermo-Mechanical Coupling
p.335

The Evaluation of Surrounding Rock Stability around Underground Engineerings Based on Improved Extension Evaluation Method
p.339

Unconfined Compression Strength of Tianluoshan Relic Soils Solidified by Methyl Acrylic Acid Resin
p.343

Deformation Prediction of Slopes Based on Grey Verhulst Model
p.347

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 594-597Triaxial Test of Unsaturated Clay and the...

Triaxial Test of Unsaturated Clay and the Engineering Application at the Naji Reservoir in Guangxi Province

Abstract:

Torrential or atomized rain is one of the key factors that lead to slope deformation and failure. With rain water infiltration, the pore pressure increases and the matric suction decreases even lose, which lead to the soil shear strength sharply reduced and the slope destabilized. This paper selects the in-situ red clay of the Naji reservoir in Guangxi province as research object and investigates the stress-strain characteristics of undisturbed unsaturated red clay under different matric suction conditions by the triaxial test. The numerical verification of test results is conducted by finite element software ABAQUS, using Duncan-Chang model and Mohr-Coulomb model respectively. Comparing with the Duncan-Chang model, Mohr-Coulomb model can reflect the stress-strain behavior of red clay better. And the slope stability of the project in rainfall condition is analyzed by numerical model, which would offer references for the implementation of the revetment engineering.