一种滑移型危岩体的力学判识方法

A new quantitative identification method for an unstable sliding rock mass

  • 摘要: 边坡岩体在地震、长期降雨或施工扰动等影响因素的强烈作用下,稳定岩体逐渐演化成危岩体,基岩开始分离而导致稳定性不断下降,随之发生下滑破坏,是威胁工程施工运维安全的主要隐患之一。单一的稳定性系数只能判断破坏是否发生,而无法识别岩体由稳定阶段至分离阶段这一变化,也就难以实现危岩体的定量力学判识。通过引入黏结稳定性系数,对潜在滑动面黏聚力及其抗滑占比进行了分析,以期实现滑移型危岩体稳定阶段、分离阶段和破坏阶段的动态考量。当黏结稳定性系数小于1,黏聚力抗滑占比小于结构面长期强度与破坏强度的比值时,即可判定为危岩体。实验结果得出,单一的稳定性系数无法有效识别A8危岩体,而黏结稳定性系数的引入则从力学角度实现了A8危岩体的定量评价。此外现场案例研究表明,基于双力学指标的滑移型危岩体判识方法可以提供相对客观统一的判识结果,有效区分了重庆三峡等地区稳定性系数在1.2附近的滑移型危岩体,提高了传统力学识别方法的准确率与科学性,为我国地质灾害高风险地区更好地应对滑移型崩塌灾害提供新的技术支持。

     

    Abstract: With the in-depth deployment of China’s “Belt and Road Initiative” and other major strategies, major national strategic projects, such as the Sichuan–Tibet Railway, will be built in mountain valleys with complex terrain. Under the influence of continuous external factors (rainfall, earthquake, construction, etc.), rock masses of a high-steep rock slope in a stable state gradually transform to unstable rock, and then the unstable rock slides and destroys, which is a major hidden danger threatening the safety of project construction and operation. Unfortunately, the stability factor (SF) can only identify the occurrence of failure and cannot identify the transition of stable to unstable rock; thus, it cannot quantitatively identify unstable sliding rocks. Rock mass failures mostly evolve from unstable rocks. Therefore, how to establish a quantitative evaluation method to identify unstable sliding rock masses is a major problem in the field of early warning and prevention of rock collapse. In this study, the potential sliding surface cohesion and its slip resistance share are analyzed by introducing a cohesive stability factor (CSF) to achieve dynamic consideration of the stability, separation, and damage phases of slip-type rock masses. When the CSF is <1 and the ratio of cohesion to skid resistance (η) drops below the ratio of long-term strength to failure strength, the sliding rock masses become unstable. Among them, the CSF is the main control indicator, and η is the auxiliary indicator. The laboratory experimental results of sliding unstable rock mass show that a single SF cannot accurately identify the A8 unstable rock mass in the experimental group quantitatively because of the inconsistency of the standard, and a quantitative identification method of unstable rock masses based on the CSF and SF can scientifically realize the quantitative evaluation of unstable rock masses in terms of mechanics. The field case study shows that the improved method provides relatively objective judgment criteria for the quantitative identification of unstable sliding rock masses with an SF of ~1.2 in the Chongqing Three Gorges and other regions. Compared with the traditional mechanical identification methods of unstable rock masses, the new identification method proposed in this study can conduct a set of objective and unified identification criteria, which improves the accuracy and scientificalness of the traditional mechanical identification methods and provides an effective reference for better management of rockslides in high-risk areas.

     

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