Add to ORKGThe object of this study is to investigate the unloading failure mechanism of hard rocks in the unloading process. A commercial finite element program LS-DYNA was employed to simulate the rock unloading process. The implicit and explicit methods were performed in sequence to simulate the static initialization-dynamic unloading process of rocks. The numerical results indicated that the rock failure can be induced by releasing of the initial stress, and the previous result of the equivalent initial stress release rate (EISRR) theory based on the 1D stress state is not suitable for 3D stress state. In 3D stress state, a new definition of equivalent strain energy release rate (ESERR) was introduced. The further study indicated that the ESERR ca...
The formation of an excavation damaged zone (EDZ) around an opening in a deep rock mass is associate...
During underground hard-rock mining, the drilling and blasting method currently remains the most eco...
Excavation unloading is a primary stress condition for engineering rock mass in deep underground. Ba...
The unloading process of rocks under high initial stress is complex, and verifying the mechanism of ...
This study presents a solution for stress redistribution induced by dynamic excavation of a rock tun...
AbstractUnloading failure of rocks, especially highly stressed rocks, is one of the key issues in co...
How to ensure the construction safety is one of the key problems for the deep tunnel excavation. Sin...
The micromechanism of the effects of different height/width ratios (H/W) and initial stress levels o...
Based on the complex engineering environment in deep rock engineering, preloaded high axial pressure...
The behaviour of rock deformation and its failure characteristics under loading and unloading condit...
Based on a self-developed triaxial seepage device, a new loading and unloading experimental method i...
The excavation of deep tunnel in rock mass undergoes complex loading and unloading stress paths, res...
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...
To study the effect of excavation unloading on hard rock failure, a series of true-triaxial compress...
The formation of an excavation damaged zone (EDZ) around an opening in a deep rock mass is associate...
During underground hard-rock mining, the drilling and blasting method currently remains the most eco...
Excavation unloading is a primary stress condition for engineering rock mass in deep underground. Ba...
The unloading process of rocks under high initial stress is complex, and verifying the mechanism of ...
This study presents a solution for stress redistribution induced by dynamic excavation of a rock tun...
AbstractUnloading failure of rocks, especially highly stressed rocks, is one of the key issues in co...
How to ensure the construction safety is one of the key problems for the deep tunnel excavation. Sin...
The micromechanism of the effects of different height/width ratios (H/W) and initial stress levels o...
Based on the complex engineering environment in deep rock engineering, preloaded high axial pressure...
The behaviour of rock deformation and its failure characteristics under loading and unloading condit...
Based on a self-developed triaxial seepage device, a new loading and unloading experimental method i...
The excavation of deep tunnel in rock mass undergoes complex loading and unloading stress paths, res...
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...
To study the effect of excavation unloading on hard rock failure, a series of true-triaxial compress...
The formation of an excavation damaged zone (EDZ) around an opening in a deep rock mass is associate...
During underground hard-rock mining, the drilling and blasting method currently remains the most eco...
Excavation unloading is a primary stress condition for engineering rock mass in deep underground. Ba...