Analytical solution of circular tunnel in elastic-viscoplastic rock mass

Wang, Xiaofei; Jiang, Binsong; Zhang, Qiang; Lu, Mingli; Chen, Miao

doi:10.1590/1679-78255701

Cited by 16 publications

(4 citation statements)

References 23 publications

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“…Accurate calculations for stresses and deformations of the surrounding rock play an important role in evaluating tunnel stability and designing the support system (Cui et al 2015, Mohammad andAhmad 2016). In early work, Park (2015), Park and Kim (2006), Sharan (2003Sharan ( , 2008, and Wang et al (2019) analyzed the stresses and strains of the surrounding rock by regarding the stress condition of tunnels as a uniform stress field for simplicity. However, considerable field measurements have indicated that the insitu stress in the horizontal and vertical directions vary due to the faults, folds and other geological structures in underground coal mines (Wang et al 2000, Zhao et al 2013.…”

Section: Introductionmentioning

confidence: 99%

An analytical solution for stresses and deformations of tunnels in a non-uniform stress field based on strain-softening model and Mogi-Coulomb criterion

Fan

Wang

Liu

2020

Lat. Am. j. solids struct.

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In this study, a mechanical model for tunnels excavated in a non-uniform stress field is developed. A new strain-softening model simultaneously considers the weakening of cohesion and internal friction angle is proposed. Then, an analytical solution for the post-peak region radii, stresses, and displacements is deduced. Taking a tunnel in Taoyuan coal mine as an engineering example, the post-peak region radii, surface displacement, and stresses distribution are determined. The effects of the horizontal-to-vertical stress ratio, intermediate principal stress, residual cohesion, and residual internal friction angle on tunnel deformations are discussed. The results show that the post-peak region radii and stresses distribution around the tunnel varies with direction due to the non-uniform stress field. The post-peak region radii and surface displacement are larger with consideration of intermediate principal stress. Tunnels surrounded by rock masses with a higher residual cohesion and internal friction angle experience lower post-peak region radii and surface displacement. KeywordsTunnels; non-uniform stress field; analytical solution; intermediate principal stress; strain-softening model Graphical AbstractAn analytical solution for stresses and deformations of tunnels in a non-uniform stress field based on strain-softening model and Mogi-Coulomb criterion Hao Fan et al.

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Section: Introductionmentioning

confidence: 99%

An analytical solution for stresses and deformations of tunnels in a non-uniform stress field based on strain-softening model and Mogi-Coulomb criterion

Fan

Wang

Liu

2020

Lat. Am. j. solids struct.

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“…Analitik çözümler Kirsch [17], Kastner [18], Sulem vd. [19] Hoek ve Brown [15] Hoek [20], [21] gibi araştırmacılar tarafından geliştirilmiştir. Analitik yönteme göre ortam homojen ve izotrop kabul edilir.…”

Section: Analitik Ve Nümerik Yöntemlerunclassified

“…Kaya kütle sistemlerine bağlı olarak analitik çözümlerde 1900'lü yıllardan itibaren gelişmeye başlamıştır. Bu yöntemlerde ortamın izotrop, homojen ve tünelin dairesel olduğu prensipler üzerinden gidilerek tünel çevresinde ve zeminde deformasyon gerilme ilişkileri elde edilmiştir [17], [18], [19], [20], [21].…”

Section: Introductionunclassified

Tünel Projelendirilmesinde Kullanılan Yöntemler (Ampirik, Analitik ve Nümerik Yöntemler), Kısıtlamaları, Karşılaştırılması ve Öneriler

Aygar

2022

Demiryolu Mühendisliği

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“…As a first step in applying the neural network, 125 (i.e. 5 3 being possible number of combinations, where '5 ′ represents a number of predefined values for each parameter, while '3 ′ represents number of parameters) numerical analyses were carried using the following sets of input parameters: The possible range of selected input parameters for soft rock was based on their actual range obtained from the literature (Guan et al, 2009;Weng et al, 2010;Sharifzadeh et al, 2013;Mahdevari and Bagherpour, 2014;Hamza and Stace, 2018;Paraskevopoulou and Diederichs, 2018;Wang et al, 2019;Huang et al, 2020), and the range was additionally extended, so that upper and lower boundary of each parameter range can be considered as sufficient to estimate the most probable parameter value in the subsequent analysis. These 125 sets of rheological parameters were applied to the same numerical model, which then proceeds to the calculation of long-term behavior.…”

Section: Application Of a Netrheo Neural Networkmentioning

confidence: 99%

Assessment of long-term deformation of a tunnel in soft rock by utilizing particle swarm optimized neural network

Kovačević

Bačić

Gavin

et al. 2021

Tunnelling and Underground Space Technology

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The continuous monitoring of long-term performance of tunnels constructed in soft rock masses shows that the rock mass deformations continue after construction, albeit at a rate that reduces with time. This is in contrast with NATM postulates which assume deformation stabilizes shortly after tunnel construction. This paper proposes the prediction of long-term vertical settlement performance of a tunnel in soft rock mass, through the inclusion of a Burger's creep viscous-plastic constitutive law to model post-construction deformations. To overcome issues related to the complex characterization of this constitutive model, a neural network NetRHEO is developed and trained on a numerically obtained dataset. A particle swarm algorithm is then employed to estimate the most probable rheological parameter set, by utilizing the long-term in-situ monitoring data from several observation points on a real tunnel. The paper demonstrates the potential of the proposed methodology, using displacement measurements of two adjacent tunnels in karstic rock mass in Croatia. The complex interaction of a railway tunnel Brajdica and a road tunnel Pećine, conditioned by the character of the surrounding rock mass as well by the chronology of their construction, was evaluated to predict the future behavior of these tunnels.

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Analytical solution of circular tunnel in elastic-viscoplastic rock mass

Cited by 16 publications

References 23 publications

An analytical solution for stresses and deformations of tunnels in a non-uniform stress field based on strain-softening model and Mogi-Coulomb criterion

An analytical solution for stresses and deformations of tunnels in a non-uniform stress field based on strain-softening model and Mogi-Coulomb criterion

Tünel Projelendirilmesinde Kullanılan Yöntemler (Ampirik, Analitik ve Nümerik Yöntemler), Kısıtlamaları, Karşılaştırılması ve Öneriler

Assessment of long-term deformation of a tunnel in soft rock by utilizing particle swarm optimized neural network

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