Constitutive Modeling of Physical Properties of Coastal Sand during Tunneling Construction Disturbance

This paper presents a simple but workable constitutive model for the stress-strain relationship of sandy soil during the process of tunneling construction disturbance in coastal cities. The model was developed by linking the parameter K and internal angle phi of the Duncan-Chang model with the disturbed degree of sand, in which the effects of the initial void ratio on the strength deformation property of sands are considered using a unified disturbance function based on disturbed state concept theory. Three cases were analyzed to investigate the validity of the proposed constitutive model considering disturbance. After validation, the proposed constitutive model was further incorporated into a 3D finite element framework to predict the soil deformation caused by shield construction. It was found that the simulated results agreed well with the analytical solution, indicating that the developed numerical model with proposed constitutive relationship is capable of characterizing the mechanical properties of sand under tunneling construction disturbance.

Automated summary

This paper introduces a new constitutive model for sandy soil, taking into account the effects of disturbance on the mechanical properties. The model was validated within a 3D finite element framework, showing good agreement with analytical solutions.