AbstractUnloading failure of rocks, especially highly stressed rocks, is one of the key issues in construction of underground structures. Based on this, analytical models for rocks under quasi-static and intensive unloading conditions are established to study the failure behavior of highly stressed rocks. In case of rock failure under quasi-static unloading, the rock mass ahead of working face is regarded as an elasto-brittle material, and the stress–displacement curves are used to characterize the tensile fracture of peak-stress area. It is observed that, when intensive unloading happens, there is an elastic unloading wave (perturbation wave) propagating in the rock mass. If the initial stress exceeds the critical stress, there will be a f...
In order to explore the failure characteristics of sandstone under unloading conditions in deep zone...
To study the influence of initial unloading damage on the mechanical properties of sandstone, the re...
Rock samples can behave brittle, transitional or ductile depending on test pressure, rate of loading...
The unloading process of rocks under high initial stress is complex, and verifying the mechanism of ...
After the engineering rock mass has been affected by comprehensive effects of mining and disturbance...
The object of this study is to investigate the unloading failure mechanism of hard rocks in the unlo...
AbstractThe brittle failure (rock burst) of rock is generally triggered by excavation under high str...
The deformation and failure of underground engineering are usually caused by unloading. In this work...
Highly stressed rock masses continuously exchange substances and energy with the outer environment d...
The excavation of deep tunnel in rock mass undergoes complex loading and unloading stress paths, res...
Based on the complex engineering environment in deep rock engineering, preloaded high axial pressure...
To deeply analyze the failure evolution of surrounding rock during excavation-induced unloading of t...
Deep brittle rock exhibits characteristics of rapid stress dropping rate and large stress dropping d...
Based on a self-developed triaxial seepage device, a new loading and unloading experimental method i...
The micromechanism of the effects of different height/width ratios (H/W) and initial stress levels o...
In order to explore the failure characteristics of sandstone under unloading conditions in deep zone...
To study the influence of initial unloading damage on the mechanical properties of sandstone, the re...
Rock samples can behave brittle, transitional or ductile depending on test pressure, rate of loading...
The unloading process of rocks under high initial stress is complex, and verifying the mechanism of ...
After the engineering rock mass has been affected by comprehensive effects of mining and disturbance...
The object of this study is to investigate the unloading failure mechanism of hard rocks in the unlo...
AbstractThe brittle failure (rock burst) of rock is generally triggered by excavation under high str...
The deformation and failure of underground engineering are usually caused by unloading. In this work...
Highly stressed rock masses continuously exchange substances and energy with the outer environment d...
The excavation of deep tunnel in rock mass undergoes complex loading and unloading stress paths, res...
Based on the complex engineering environment in deep rock engineering, preloaded high axial pressure...
To deeply analyze the failure evolution of surrounding rock during excavation-induced unloading of t...
Deep brittle rock exhibits characteristics of rapid stress dropping rate and large stress dropping d...
Based on a self-developed triaxial seepage device, a new loading and unloading experimental method i...
The micromechanism of the effects of different height/width ratios (H/W) and initial stress levels o...
In order to explore the failure characteristics of sandstone under unloading conditions in deep zone...
To study the influence of initial unloading damage on the mechanical properties of sandstone, the re...
Rock samples can behave brittle, transitional or ductile depending on test pressure, rate of loading...