Study on Seismic Response and Vibration Reduction of Shield Tunnel Lining in Coastal Areas

Dong, Sihui; Zhang, Xinyu; Jia, Chenxu; Li, Shiqun; Wang, Kang

doi:10.3390/su15054185

Cited by 5 publications

(3 citation statements)

References 15 publications

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“…A study carried out on concrete pipe behavior during seismic shaking showed that, linear elastic and Mohr-Coulomb models had lower bending moments than hardening soil and hardening soil with small strain stiffness models [12]. Results of ANSYS for numerical simulations showed that, arch crown deformation at 3.8 cm and wall corner stress at 2.6 x 10 7 Pa [13]. A study on Delhi metro tunnel behavior under various dynamic loading cases showes that, combined earthquake and train motion cause larger displacements in soil and forces in tunnel liners compared to individual loads [14].…”

Section: Introductionmentioning

confidence: 99%

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Analysis of Different Earthquake Records on the Behaviour of Circular Tunnel in Sandy Soil

Aref,

Mahmoud,

Abd El-Halim

2024

Journal of Al-Azhar University Engineering Sector

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Underground facilities serve several purposes as an essential part of the infrastructure of modern society. Subways, railroads, highways, material storage, sewage, and water transportation are applications of tunnels. Recently, increase in the frequency and magnitude of earthquakes have led to focus on the actual behavior of underground tunnels not only under static loads but also under dynamic effect of earthquakes. This study investigated 2D-numerical model circular tunnels under the influence of different earthquake records for sandy soils with different consisties. The soil types were dense, medium dense and loose sandy soils were studied. Three earthquake records, varying in peak ground acceleration (PGA) values and duration [Olympia earthquake (PGA= 0.16g and T= 89.08sec), Kalamata earthquake (PGA= 0.331g and T= 25.88sec) and Northridge earthquake (PGA=0.883g and T= 59.98sec)] have been conducted. A parametric study for circular tunnels in different soil states under static load and earthquake dynamic loads was examined. Specific points were observed to monitor deformations and stresses. Comparing the behaviour of tunnels under static load and earthquake has been illustrated. The analysis of results shows that the duration of earthquake records has a greater impact on horizontal displacement than PGA values. Peak ground acceleration (PGA) significantly affects vertical displacements, bending moments and axial forces. Axial forces are almost constant under earthquake records with PGA less than 0.331g, whereas PGA more than 0.331g increases slightly. Finally, the effect of earthquake records should be considered in tunnels behaviour and design to avoid permanent deformation, stresses or collapse of the tunnels.

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Section: Introductionmentioning

confidence: 99%

“…Fig 13. show the absolute maximum horizontal displacements for monitoring points as the percentage ratio of tunnel diameter (δx/D%) for different soil states under static load and earthquake records.…”

mentioning

confidence: 99%

Analysis of Different Earthquake Records on the Behaviour of Circular Tunnel in Sandy Soil

Aref,

Mahmoud,

Abd El-Halim

2024

Journal of Al-Azhar University Engineering Sector

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“…This is of central importance for seismic design in the case of metro systems, considering their significance for life safety and economy and that they are generally more vulnerable in soft-soil ground conditions [9]. With regard to the seismic resistance of shield tunnels in areas with soft soil, researchers have conducted a range of investigations, mainly focusing on the dynamic response of tunnel structures under complex soft-soil ground conditions with different earthquake intensities and site conditions and the corresponding seismic design measures [10][11][12]. However, the tunnel lining structure is simplified to a homogeneous circumferential ring in the above study, only the overall performance of the segment ring is taken into account, and the weak link of the shield tunnel connection is not taken into account, which is somewhat different from the actual structure.…”

Section: Introductionmentioning

confidence: 99%

Study on the Seismic Response Characteristics of Shield Tunnels with Different General Segment Assembly Methods and Widths

et al. 2023

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Shield tunnels assembled with general ring segments are widely used in urban areas. Segment assembly methods and widths cause changes in the mechanical properties of the structure and influence the seismic response of shield tunnels. To investigate the influence of the assembly method and width of the general ring segment on the seismic performance of a shield tunnel, a three-dimensional refined soil–structure dynamic interaction finite element model of the shield tunnel was established based on ABAQUS, and the mechanical response and joint deformation of the general ring lining under seismic loads were studied. The simulation results show the following: (i) The overall deformation of the tunnel lining is not significantly affected by the assembly method, and the difference is only 5.24% under a 0.4 g earthquake. (ii) The seismic responses of general ring tunnels with different assembly methods are quite different, and the mechanical properties of the shield tunnel assembled with the straight assembly method are better than those of the shield tunnel assembled with staggered joints, but the deformation of the structure is larger. Under the action of a 0.1 g earthquake, the radial force, circumferential force, and bending moment of the staggered 90° assembly tunnel are respectively reduced by 13.6%, 11.1%, and 17.8% compared with the staggered 45° assembly structure, but the maximum intra-opening deformation increases by 0.19, 0.58, and 2.4 mm, respectively. (iii) The internal force distribution of the bolts is controlled by the deformation of the joint; compared with the CF90 and TF assembled tunnels, the mechanical properties and deformation characteristics of the CF45 and CF90 assembled tunnels are more reasonable. (iv) The extrados and intrados joint opening deformation and shear dislocation of the 1.2 m wide general ring segment under the staggered assembly increase by 1.2 mm and 1.03 mm, respectively, compared with the 1.5 m wide segment, while the radial force, circumferential force, and bending moment are reduced by 24.4%, 36.5%, and 41.7%, respectively, indicating that the seismic performance of the shield tunnel with a segment width of 1.5 m is better than that of the shield tunnel with a width of 1.2 m.

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Modal analysis of a coupled ballastless railway track surrounding a horse shoe shape shield tunnel linked to a box-girder bridge with substructure using finite element method

Chaudhary,

Nallasivam

2024

Innov. Infrastruct. Solut.

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Study on Seismic Response and Vibration Reduction of Shield Tunnel Lining in Coastal Areas

Cited by 5 publications

References 15 publications

Analysis of Different Earthquake Records on the Behaviour of Circular Tunnel in Sandy Soil

Analysis of Different Earthquake Records on the Behaviour of Circular Tunnel in Sandy Soil

Study on the Seismic Response Characteristics of Shield Tunnels with Different General Segment Assembly Methods and Widths

Modal analysis of a coupled ballastless railway track surrounding a horse shoe shape shield tunnel linked to a box-girder bridge with substructure using finite element method

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