岩土力学 ›› 2024, Vol. 45 ›› Issue (7): 2011-2023.doi: 10.16285/j.rsm.2023.1330

• 基础理论与实验研究 • 上一篇    下一篇

地震作用下桩板墙-锚索组合支护基覆型边坡的动力响应特性

何梓雷1, 2,蒋关鲁1, 2,冯海洲1, 2,潘申鑫1, 2,何晓龙1, 2,李杰3   

  1. 1. 西南交通大学 土木工程学院,四川 成都 610031;2. 西南交通大学 高速铁路线路工程教育部重点实验室,四川 成都 610031; 3. 中铁十八局集团有限公司,天津 300222
  • 收稿日期:2023-09-06 接受日期:2023-10-27 出版日期:2024-07-10 发布日期:2024-07-19
  • 通讯作者: 蒋关鲁,男,1962年生,博士,教授,博士生导师,主要从事路基工程相关研究工作。E-mail:wgljiang@swjtu.edu.cn
  • 作者简介:何梓雷,男,1998年生,博士研究生,主要从事边坡稳定性评估和支挡结构抗震加固设计研究。E-mail:zilei@my.swjtu.edu.cn
  • 基金资助:
    国家重点研发计划“政府间国际科技创新合作”重点专项(No.2022YFE0104600);国家自然科学基金资助项目(No.52378463);中铁十八局集团科研项目(No.2019H010504)。

Dynamic response characteristics of bedrock and overburden layer slope supported by a combination of pile-sheet wall-anchor cables under earthquake action

HE Zi-lei1, 2, JIANG Guan-lu1, 2, FENG Hai-zhou1, 2, PAN Shen-xin1, 2, HE Xiao-long1, 2, LI Jie3   

  1. 1. School of Civil Engineering,Southwest Jiaotong University, Chengdu, Sichuan 610031, China; 2. Key Laboratory of High-Speed Railway Engineering, Ministry of Education, Southwest Jiaotong University, Chengdu, Sichuan 610031, China; 3. China Railway 18th Bureau Group Corporation Limited, Tianjin 300222, China 
  • Received:2023-09-06 Accepted:2023-10-27 Online:2024-07-10 Published:2024-07-19
  • Supported by:
    This work was supported by the National Key Research and Development Program of China "Intergovernmental International Science and Technology Innovation Cooperation" (2022YFE0104600), the National Natural Science Foundation of China (52378463) and the Research Project of China Railway 18th Bureau Group Corporation Limited (2019H010504).

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摘要: 地震作用下,惯性力方向对组合结构、土体、岩体的平衡状态影响显著。为深入理解桩板墙组合支护结构-基覆型边坡相互作用特性,以西南地区一隧道进口端基覆型高陡边坡为原型,开展一组简谐波加载下组合结构加固边坡的大型振动台模型试验,考虑惯性力方向对桩-土、格构锚索-坡体时程特性展开分析。结果表明:(1)惯性力作用下格构锚索-土体相互作用与桩-土相互作用表现出近似的时程一致性规律,但坡面加固结构惯性力峰值沿高程存在的相位差不可忽视。(2)结构与边坡土体的相互作用大小取决于相对惯性运动,桩-基岩相互作用由悬臂段变形状态决定。(3)惯性力达到临空面峰值,动土压力达到峰值,桩-土位移差达到正向峰值,桩身呈现外倾的主动破坏状态,锚固段前侧受力因外倾而挤压增大,因而悬臂段采用库仑主动土压力进行设计需结合桩土状态进行修正。(4)简谐波作用下,坡体惯性力及变形是组合支挡结构沿高程受力分布特性的关键因素,组合结构设计时需重点关注坡脚应力集中区及坡顶惯性力放大区。本研究可为组合结构抗震加固设计提供理论支撑。

关键词: 高陡边坡, 桩板墙, 锚索, 振动台试验, 相互作用, 时程特性, 相位

Abstract: The direction of inertial force under seismic conditions has a significant impact on the equilibrium state of combined structures, soil, and rock masses. To gain a deep understanding of the interaction characteristics between the pile-plate wall combined support structure and the bedrock and overburden layer slope, a series of large-scale shaking table model tests on the slope reinforced by combined structures under sinusoidal wave load were conducted, using a high steep slope at the tunnel portal in the southwestern region as a prototype. The analysis of the time-history characteristics of the pile-soil and the geogrid-anchor cable-slope under the direction of inertial force was considered. The results indicate: (1) Under the action of inertial force, the lattice anchor cable-soil interaction and pile-soil interaction show an approximate time-history consistency law, but the phase difference between the peak value of the inertial force of the slope reinforcement structure along the elevation cannot be ignored. (2) The interaction between the structure and the slope soil depends on the relative inertial motion, and the pile-bedrock interaction is determined by the deformation state of the cantilever section. (3) The inertial force reaches the peak value of the free surface, the dynamic soil pressure reaches the peak value, the pile-soil displacement difference reaches the positive peak value, the pile body shows an active failure state of camber, and the stress on the front side of the anchoring section increases due to camber, so the design using Coulomb active earth pressure should be revised based on the pile-soil conditions. (4) Under sinusoidal wave conditions, the inertial force and deformation of the slope are crucial factors affecting the force distribution characteristics of the combined retaining structure along the elevation. The design of the combined structure needs to focus on the stress concentration area at the foot of the slope and the inertial force amplification area at the top of the slope. This research can provide theoretical support for the seismic reinforcement design of combined structures.

Key words: high steep slope, pile-plate wall, anchor, shaking table test, interaction, time-history characteristics, phase

中图分类号: TU 457
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