Response and failure mechanism of utility tunnel with flexible joints under reverse fault: An experimental, numerical, and analytical investigation

Wang, Zhigang; Tao, Lianjin; Shi, Cheng; An, Shao; Li, Jun

doi:10.1177/87552930221143144

Cited by 6 publications

(3 citation statements)

References 35 publications

(51 reference statements)

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“…In addition, relevant scholars have studied the deformation response of tunnels induced by fault and achieved great result in the analytical solution aspect. [54][55][56][57][58] These research results are of certain guidance to this paper, but the theories cannot be applied to pipeline with joints. Numerical simulation method generally requires a long calculation time due to the complexity of the model, and it is also limited by factors such as mesh size, constitutive model, and pipe-soil interaction.…”

Section: Introductionmentioning

confidence: 77%

“…systematically analyzed the deformation characteristics and failure modes of jointed pipelines in different configurations. In addition, relevant scholars have studied the deformation response of tunnels induced by fault and achieved great result in the analytical solution aspect 54–58 . These research results are of certain guidance to this paper, but the theories cannot be applied to pipeline with joints.…”

Section: Introductionmentioning

confidence: 78%

See 1 more Smart Citation

Analytical solution for buried pipeline deformation induced by normal and reverse fault considering structural joint influence

Zhang,

Feng,

Zhu

et al. 2024

Num Anal Meth Geomechanics

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Previous studies take less account of analytical solution analysis for buried pipeline under the action of active fault. Furthermore, current theoretical studies of fault‐pipeline interactions generally treat the structure as continuous pipeline, with less attention given to the effect of joints. This paper provides an analytical method to estimate the deformation and internal force of jointed pipelines under normal and reverse fault. By introducing the simplified soil deformation model and error function, the soil greenfield deformation curves under the influence of normal and reverse fault are obtained. Considering the interaction between the pipeline structure and the disturbed soil, the two‐parameter Pasternak foundation model is adopted to analyze the forces on pipeline infinitesimal elements. Then, the mechanical response of the jointed pipeline structure due to the fault additional load is solved by finite difference method. The accuracy of the presented analytical solution is verified by comparisons with observed data of model test and 3D numerical simulation results. Finally, the parametric analyses are performed to estimate the influence for the characteristics of the foundation, fault and joint, including subgrade shear stiffness, subgrade reaction coefficient, fault dip, joint rotational stiffness, joint spacing, and intersection of fault and pipeline.

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Section: Introductionmentioning

confidence: 77%

Section: Introductionmentioning

confidence: 78%

Analytical solution for buried pipeline deformation induced by normal and reverse fault considering structural joint influence

Zhang,

Feng,

Zhu

et al. 2024

Num Anal Meth Geomechanics

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“…In practical engineering, the utility tunnel inevitably encounters complex site conditions. For example, numerous academics have researched how fault displacement affects the seismic behavior of utility tunnels [15][16][17][18]. Their findings indicate that fault displacement intensifies the damage to utility tunnels.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Influence Characteristics of Site Conditions on Seismic Response of Utility Tunnel

Wang,

Chen,

Huang

et al. 2024

Buildings

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Utility tunnels are crucial infrastructure projects for cities. Earthquakes are a leading cause of damage to these tunnels. The effect of a non-homogeneous site, as a complex site, on the seismic response of utility tunnels cannot be ignored. Therefore, in this study, a non-homogeneous three-dimensional finite element model of a utility tunnel was created using the ABAQUS 2021 software. El Centro seismic waves were inputted while changing the structural depth of burial to investigate the utility tunnel’s seismic response. This research is expected to further clarify the seismic variation in the utility tunnel under complex site conditions. The results show the following: (1) The impact of structure burial depth on the utility tunnel in a non-homogeneous site should not be neglected. The peak acceleration shows a decreasing and then increasing trend with increasing depth of burial within 10 m. Under the same site conditions, the peak accelerations and amplification factors of the soil in the clay are larger than those in the sand. (2) In identical site conditions, the utility tunnel structure experiences larger peak displacements in clay compared to sand. As the structure is buried deeper, the peak displacement of the utility tunnel gradually decreases, while the rate of decrease in the peak displacement of the utility tunnel structure gradually increases. The rate of decrease in peak displacement in clay is greater than that in sand. (3) The stress distribution of the utility tunnel structure changes as the depth of the structure increases. In the clay area, the utility tunnel structure shifts from transverse bending deformation to vertical bending deformation. In the sand area, it maintains transverse bending deformation due to the non-homogeneous site. The findings from this study offer guidance for building utility tunnels on non-homogeneous sites.

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Study on the shear mechanical response and failure characteristics of prefabricated double-cabin utility tunnel joints

Zhang,

Zhao,

et al. 2024

J Civil Struct Health Monit

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Response and failure mechanism of utility tunnel with flexible joints under reverse fault: An experimental, numerical, and analytical investigation

Cited by 6 publications

References 35 publications

Analytical solution for buried pipeline deformation induced by normal and reverse fault considering structural joint influence

Analytical solution for buried pipeline deformation induced by normal and reverse fault considering structural joint influence

Analysis of Influence Characteristics of Site Conditions on Seismic Response of Utility Tunnel

Study on the shear mechanical response and failure characteristics of prefabricated double-cabin utility tunnel joints

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