3D Numerical Simulation of Shield Tunnel Subjected to Swelling Effect Considering the Nonlinearity of Joint Bending Stiffness

Yan, Qixiang

Zhang, Chuan

Wu, Wang

Zhu, Hongxue

Yang, Wenbo

Budapest University of Technology and Economics

2019-06-17

In this paper, the authors developed a three dimensional shell-spring numerical model of a shield tunnel, in which the elastic shell elements were adopted to model the segments and the spring models were used for the simulation of the segmental joints. The highlight of this research is that the non-linearity of the joint bending stiffness was taken into consideration, which was first determined through the numerical simulation by using a refined 3D continuum model of the segment-joint structure. The automatic iteration of the joint bending stiffness was achieved through programming with the ANSYS ADPL software. Based on a specific engineering example, a 3D continuum-shell-spring model was established to analyze the internal forces of shield tunnel segmental linings subject to swelling soils. The developed numerical model and its application in the analysis of the internal forces of shield tunnel segmental linings in swelling ground will provide useful reference and guidance for the numerical calculation in similar engineering projects in future.

angol

info:eu-repo/semantics/article

info:eu-repo/semantics/publishedVersion

application/pdf

https://pp.bme.hu/ci/article/view/13996

10.3311/PPci.13996

Periodica Polytechnica Civil Engineering; Vol 63 No 3 (2019); 751-762

1587-3773

0553-6626

https://pp.bme.hu/ci/article/view/13996/8403

Copyright (c) 2019 Periodica Polytechnica Civil Engineering