紫穗槐根土复合体特征对黄土边坡稳定性的影响
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S714.7

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山西路桥集团重点科研项目“黄土地区公路边坡生态防护及排水一体化技术研究”(220221210775)


Influence of Root-soil Complex Characteristics of Amorpha Fruticosa on Stability of Loess Slope
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    摘要:

    [目的] 研究含水率、含根量及根系布置方式对根土复合体抗剪强度影响,揭示紫穗槐根系对黄土边坡加固机理,为黄土边坡生态防护及提高坡面稳定性工程实践提供科学参考。[方法] 利用ZJ型应变控制式直剪仪进行紫穗槐根土复合体剪切试验,以无根系土为对照,分析不同含水率、含根量和布根方式对抗剪强度影响;应用FLAC 3D软件模拟紫穗槐根系分布方式对黄土边坡稳定性影响。[结果] ①随着含水率增加,抗剪强度指标黏聚力和内摩擦角均降低。②随着含根量增加,抗剪强度在不同含水率条件下表现出不同规律。当含水率为9.31%时,抗剪强度随着根面积比(RAR)增加呈先增加后减小的趋势,在RAR为0.15%时,抗剪强度达到最大值;当含水率为15.65%和17.44%时,抗剪强度随着RAR增加而增加。③“卄”形布根方式能显著提高根土复合体抗剪强度,当含水率为17.44%时,卄形布根与无根土相比,平均抗剪强度增加31.81 kPa。④数值模拟结果表明,根系长度、主根与铅垂方向的夹角均与稳定性呈正相关关系。[结论] 通过室内试验和数值模拟研究表明,紫穗槐能较好提高黄土边坡稳定性,紫穗槐交错种植,防护效果更佳。

    Abstract:

    [Objective] The effects of water content, root content, and root arrangement on the shear strength of the root-soil composite were analyzed to reveal the reinforcement mechanism of Amorpha fruticosa root system on loess slopes, in order to provide a reference for the ecological protection of loess slopes and engineering practices for improving slope stability. [Methods] A shear test of the root-soil complex of A. fruticosa was conducted using a ZJ strain-controlled direct shear apparatus. This study analysed the effects of various water contents, root contents, and root distributions on the shear strength, with non-root soil serving as the control. Additionally, the FLAC 3D software was used to simulate the influence of the root distribution of A. fruticosa on the stability of the loess slope. [Results] ① The cohesion and internal friction angle of the shear strength index decreased with increase in water content. ② With an increase in root content, the shear strength exhibited different patterns under different water content levels. When the water content was 9.31%, the shear strength initially increased with an increase in root area ratio (RAR) but then decreased with further increase in RAR. At RAR was 0.15%, the shear strength reached its maximum value. However, when the water content was 15.65% and 17.44%, the shear strength in RAR. ③ The “卄” shape root arrangement can significantly improve the shear strength of the root soil complex. When the water content was 17.44%, the average shear strength of the root-soil composite increased by 31.81 kPa compared to the control. ④ Numerical simulation results indicated that both root length and the angle between the main root and vertical direction were positively correlated with stability. [Conclusion] The findings from laboratory tests and numerical simulations demonstrated that A. fruticosa can enhance the stability of loess slopes and that an interlaced planting pattern of A. fruticosa provides a more effective protective effect.

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张艳杰,庞清刚,刘洋,陈啸海,彭奕铠,王晶.紫穗槐根土复合体特征对黄土边坡稳定性的影响[J].水土保持通报,2024,44(4):33-44

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  • 收稿日期:2023-09-07
  • 最后修改日期:2024-05-26
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  • 在线发布日期: 2024-09-04
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