Unsaturated elasto-plastic constitutive equations for compacted kaolin under consolidated drained and shearing-infiltration conditions

Unsaturated elasto-plastic constitutive equations for compacted kaolin under consolidated drained and shearing-infiltration conditions

Transient process of water flow changes the equilibrium conditions of an unsaturated soil, resulting in volume change of a soil. The volume change alters the hydraulic properties of the soil and thus influences the transient process of water flow through the soil. There-fore, the interactive process...

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Main Authors: Rahardjo, Harianto, Nguyen, Cong Thang, Kim, Yongmin, Leong, Eng-Choon
其他作者: School of Civil and Environmental Engineering
格式: Article
語言:English
出版: 2019
主題:
Elasto-plastic Constitutive Model
Matric Suction
Engineering::Civil engineering
在線閱讀:https://hdl.handle.net/10356/105606
http://hdl.handle.net/10220/50229
http://dx.doi.org/10.1016/j.sandf.2018.02.019
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機構: Nanyang Technological University
語言: English
實物特徵
總結:Transient process of water flow changes the equilibrium conditions of an unsaturated soil, resulting in volume change of a soil. The volume change alters the hydraulic properties of the soil and thus influences the transient process of water flow through the soil. There-fore, the interactive processes between stress-strain behavior and pore-water pressure are the primary processes affecting the mechanical behavior of unsaturated soils. This paper presents coupled elasto-plastic constitutive equations for unsaturated compacted kaolin under consolidated drained and shearing-infiltration conditions. The study focused on the development of the suction increase (SI) yield curve that incorporates changes in matric suction during transient processes. In addition, the relationship of change in specific water volume with respect to net mean stress and matric suction was also proposed by incorporating the hysteresis of soil-water characteristic curve. The simulated results by the proposed constitutive model were compared with those obtained from isotropically consolidated drained tests and shearing infiltration tests of compacted kaolin to verify the proposed model. The simulated results are in close agreement with the experimental results.

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