Abstract
In the construction of high dams, many high rock slope failures occur due to flood discharge atomized rain. Based on the steel frame lifting technique and strength reduction materials, a comprehensive method is proposed in this paper to study the stability of high bedding rock slope subjected to atomized rain. The safety factor expression of the comprehensive method and the evaluation method for deformation instability were established according to the similarity theory of geomechanical model, failure criterion, and mutation theory. Strength reduction materials were developed to simulate the strength reduction of structural planes caused by rainfall infiltration. A typical test was carried out on the high bedding rock slope in the Baihetan Hydropower Station. The results showed that the failure modes of the bedding rock slope were of two types: sliding–fracturing and fracturing–sliding. The first slip block at the exposed place of the structural plane was sliding–fracturing. Other succeeding slip blocks were mainly of the fracturing–sliding type due to the blocking effect of the first slip block. The failure sequence of the slip blocks along the structural planes was graded into multiple levels. The slip blocks along the upper structural planes were formed first. Concrete plugs had effective reinforcement to improve the shear resistance of the structural planes and inhibit rock dislocation. Finite element method (FEM) simulation was also performed to simulate the whole process of slope failure. The FEM simulation results agreed well with the test results. This research provides an improved understanding of the physical behavior and the failure modes of high bedding rock slopes subjected to atomized rain.
Highlights
High rock slopes are inevitable in the construction of high dams, and the problem of slope stability is a key issue for engineering safety
In this paper, based on the steel frame lifting technique and strength reduction materials, a comprehensive method is proposed to study the stability of high bedding rock slope subjected to atomized rain
For failure mode of the high bedding rock slope subjected to atomized rain, the rain infiltration first led to weakening of the mechanical parameter of the structural planes
Summary
High rock slopes are inevitable in the construction of high dams, and the problem of slope stability is a key issue for engineering safety. For high dam projects with characteristics of high water head, large flood discharge, and narrow canyon, there is a class of bedding rock slope instability problems that is induced by rainfall and flood discharge atomized rain. Various relevant aspects have been investigated, such as those concerned with causes, triggering factors, and their impact priority under rainfall. This class of bedding rock slope stability problems is mainly affected by the mechanical parameter reduction of structural planes and the internal pore water pressure [1,2,3]
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