The Boundary Condition of a 3D Continuum Model for a Quasi 2D Plane Strain Condition

Geotechnical Engineering Journal of the SEAGS & AGSSEA ISSN 0046-5828

Vol. 52 No. 2 June 2021

The Boundary Condition of a 3D Continuum Model for a Quasi 2D Plane Strain Condition

S. Chaiyaput and M. Sugimoto

ABSTRACT: The half-model has been used in the finite element analysis, based on the symmetric condition against the tunnel’s longitudinal, vertical plane, but this design concept cannot apply to a staggered lining. Therefore, the authors have proposed a multi-ring model to present the segmental lining behavior of a 3D continuum ground model in the case of staggered building, but the proposed 12-ring model shows the different axial force distributions in circumferential directions between the center of the model and the end of the model, especially in cases of soft soil. Accordingly, to make clear, the mechanism of the above difference and to establish the analysis condition of the proposed model for quasi 2D plane strain condition, this paper evaluates the influence of boundary condition on the transverse cross section at the end of the segmental lining on the segmental lining behavior, based on the analyzed axial force and bending moment in soft and stiff ground conditions using both the 2-ring model and a 12-ring model. As a result, it was confirmed that the proposed 2-ring model could simulate the segmental lining behavior under quasi 2D plane strain condition.

KEYWORDS: Segmental lining, Staggered arrangement, Continuum ground model, 3D FEM, Boundary condition.