Study on Mechanical Characteristics of Segmental Joints of a Large-Diameter Shield Tunnel under Ultrahigh Water Pressure

Study on Mechanical Characteristics of Segmental Joints of a Large-Diameter Shield Tunnel under Ultrahigh Water Pressure

Blog Article

At present, there is no clear design standard for segmental joints of large-diameter shield tunnels under high water pressure.In this paper, a theoretical calculation model for the bending stiffness of Wooden Kit segmental joints under high water pressure is proposed.The numerical simulation method is used to investigate the failure and crack formation processes of single-layer and double-layer lining segments under large axial forces.The effects of axial force, bolt strength, and concrete strength on the bending stiffness of joints are then studied using a theoretical calculation model of segmental joints.The results show that under extremely high water pressure, the influence of double lining on joint stiffness is Coaster Set limited.

It is more rational and safe to compute the bending stiffness of segmental joints using this theoretical model rather than the numerical simulation method.The parameter analysis reveals that increasing the bolt strength has a minor impact on bending stiffness and deformation, whereas increasing the concrete strength has the opposite effect.The influence of ultimate bearing capacity and deformation decreases non-linearly as the axial force increases.