Mechanical response of a tunnel subjected to strike-slip faulting processes, based on a multi-scale modeling method

IF 2.9 3区 工程技术 Q2 ENGINEERING, CIVIL
Guoguo Liu, Ping Geng, Tianqiang Wang, Xiangyu Guo, Jiaxiang Wang, Ti Ding
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Abstract

The stick-slip action of strike-slip faults poses a significant threat to the safety and stability of underground structures. In this study, the north-east area of the Longmenshan fault, Sichuan, provides the geological background; the rheological characteristics of the crustal lithosphere and the nonlinear interactions between plates are described by Burger’s viscoelastic constitutive model and the friction constitutive model, respectively. A large-scale global numerical model for plate squeezing analysis is established, and the seemingly periodic stick-slip action of faults at different crust depths is simulated. For a second model at a smaller scale, a local finite element model (sub-model), the time history of displacement at a ground level location on the Longmenshan fault plane in a stick-slip action is considered as the displacement loading. The integration of these models, creating a multi-scale modeling method, is used to evaluate the crack propagation and mechanical response of a tunnel subjected to strike-slip faulting. The determinations of the recurrence interval of stick-slip action and the cracking characteristics of the tunnel are in substantial agreement with the previous field investigation and experimental results, validating the multi-scale modeling method. It can be concluded that, regardless of stratum stiffness, initial cracks first occur at the inverted arch of the tunnel in the footwall, on the squeezed side under strike-slip faulting. The smaller the stratum stiffness is, the smaller the included angle between the crack expansion and longitudinal direction of the tunnel, and the more extensive the crack expansion range. For the tunnel in a high stiffness stratum, both shear and bending failures occur on the lining under strike-slip faulting, while for that in the low stiffness stratum, only bending failure occurs on the lining.

基于多尺度建模方法的隧道在走向滑动断层过程中的力学响应
走向滑动断层的粘滑作用对地下结构的安全和稳定性构成重大威胁。本研究以四川龙门山断层东北部地区为地质背景,分别采用伯格粘弹性构造模型和摩擦构造模型描述了地壳岩石圈的流变特性和板块间的非线性相互作用。建立了用于板块挤压分析的大尺度全球数值模型,并模拟了不同地壳深度断层看似周期性的粘滑作用。在第二个小尺度模型,即局部有限元模型(子模型)中,将龙门山断层面上地面位置在粘滑作用下的位移时间历史视为位移载荷。将这些模型整合在一起,形成一种多尺度建模方法,用于评估隧道在走向滑动断层作用下的裂缝扩展和力学响应。确定的粘滑作用重现间隔和隧道裂缝特征与之前的实地调查和实验结果基本一致,验证了多尺度建模方法。可以得出结论:无论地层刚度如何,在走向滑动断层作用下,初始裂缝首先出现在隧道底壁的倒拱处,即挤压侧。地层刚度越小,裂缝扩展与隧道纵向之间的夹角越小,裂缝扩展范围越广。对于位于高刚度地层的隧道,在走向滑动断层作用下,衬砌会出现剪切和弯曲破坏,而对于位于低刚度地层的隧道,衬砌只会出现弯曲破坏。
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来源期刊
CiteScore
5.20
自引率
3.30%
发文量
734
期刊介绍: Frontiers of Structural and Civil Engineering is an international journal that publishes original research papers, review articles and case studies related to civil and structural engineering. Topics include but are not limited to the latest developments in building and bridge structures, geotechnical engineering, hydraulic engineering, coastal engineering, and transport engineering. Case studies that demonstrate the successful applications of cutting-edge research technologies are welcome. The journal also promotes and publishes interdisciplinary research and applications connecting civil engineering and other disciplines, such as bio-, info-, nano- and social sciences and technology. Manuscripts submitted for publication will be subject to a stringent peer review.
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