Stability Calculation Method of Permafrost Slopes Supported by Frame Structures with Anchors

孙国栋; 董旭光; 田文通; 颉永斌

doi:10.13409/j.cnki.jdpme.2019.01.017

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Stability Calculation Method of Permafrost Slopes Supported by Frame Structures with Anchors

更新时间：2025-12-11

- Stability Calculation Method of Permafrost Slopes Supported by Frame Structures with Anchors
- Vol. 39, Issue 1, Pages: 124-131(2019)
- 作者机构：
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- DOI：10.13409/j.cnki.jdpme.2019.01.017
  CLC： U43
- Published：2019
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[1]孙国栋,董旭光,田文通,颉永斌.框架锚杆支护多年冻土边坡的稳定性计算方法[J].防灾减灾工程学报,2019,39(01):124-131.

孙国栋, 董旭光, 田文通, et al. Stability Calculation Method of Permafrost Slopes Supported by Frame Structures with Anchors[J]. 2019, 39(1): 124-131.
[1]孙国栋,董旭光,田文通,颉永斌.框架锚杆支护多年冻土边坡的稳定性计算方法[J].防灾减灾工程学报,2019,39(01):124-131. DOI： 10.13409/j.cnki.jdpme.2019.01.017.

孙国栋, 董旭光, 田文通, et al. Stability Calculation Method of Permafrost Slopes Supported by Frame Structures with Anchors[J]. 2019, 39(1): 124-131. DOI： 10.13409/j.cnki.jdpme.2019.01.017.

摘要

为了给出更符合工程实际的冻土边坡稳定性计算方法

通过考察青藏高原地区多年冻土边坡滑移实例、分析其破坏类型和影响因素

提出了高陡边坡的冻融折线型滑移面

基于热平衡理论和莫尔-库伦强度理论给出了折线型的滑移面确定方法;考虑土体在冻融循环作用下抗剪强度损伤、滑移面上水的渗流作用以及气温变暖三种因素

给出了框架锚杆支护多年冻土区高陡边坡的稳定性计算方法。算例分析表明:利用直线型滑面计算的多年冻土边坡稳定性系数比折线型滑移面更小

容易造成保守设计

使用折线型滑移面更为经济;边坡开挖后10a内

冻融循环作用对稳定性的发展趋势起主导作用

10a后气温变暖发挥主要作用

渗流作用对边坡稳定性的影响较为显著

对稳定性发展趋势没有影响

但三种因素都应当在工程设计中考虑。

Abstract

In order to develop a more practical calculation method of permafrost slope stability

the freeze-thaw fold line slip plane is raised by investigating the permafrost slope sliding examples and analyzing the failure types and its influence factors.The method of fold line slip plane is determined

based on the thermal equilibrium theory and Mohr-Coulomb strength theory.Considering the damage of shear strength under freeze-thaw cycles

seepage on the frozen sliding surface and temperature variation

the stability calculation method of the permafrost slopes supported by frame structures with anchors is given.The results show that the stability coefficient of the permafrost slope calculated by the linear slip surface is smaller than that of the fold line slip plane

which tends to be conservative

and the fold line slip plane is more economical for design.Under the action of freeze-thaw cycle

the stability of the new slope decreases rapidly and will not remain unchanged until 10 years later.Within 10 years after excavation

freeze-thaw cycles play a dominant role in the evolution of slope stability.Temperature increase plays a major role after 10 years.Seepage action has a significant effect on slope stability

but has no effect on the development trend of slope stability.However

all three factors should be considered in engineering design.

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