A series of acoustic emission experiments under tri-axial compression with large rock specimen have been conducted. The experimental results supported the LURR (load/unload response ratio) and AER (accelerating energy release). A new measure called state vector has been proposed to describe the damage evolution of loaded rock specimens
To study the loading rate dependence of acoustic emissions and the failure mechanism of fractured ro...
To explore the failure precursors of hard rock, a series of triaxial loading and unloading experimen...
Acoustic emission (AE) is a useful non-destructive technique to determine whether damage in rock mat...
In order to verify some precursors such as LURR (Load/Unload Response Ratio) and AER (Accelerating E...
A series of acoustic emission (AE) experiments of rock failure have been conducted under cyclic load...
Uniaxial cyclic loading-unloading compression experiments with schemes of six loading rates and six ...
Acoustic emission has a direct correspondence to the internal damage of a material. To determine the...
To explore the characteristics of rock deformation and failure under cyclic loading and unloading, t...
Experimental tests are carried out to evidence the energy emitted during snap-back instabilities of...
The evolution of the cumulative energy of AE (acoustic emissions) as function of the applied load du...
Rock burst is the result of the development and extension of micro-cracks during the loading process...
Mechanical parameters of the rock are important for the design of geotechnical, mining engineering, ...
The purpose of this research is to develop a technique to quantify damage and support the assertion ...
In this study, uniaxial and triaxial compression acoustic emission (AE) tests were implemented to in...
To explore the energy dissipation mechanism and damage evolution characteristics of rock specimens u...
To study the loading rate dependence of acoustic emissions and the failure mechanism of fractured ro...
To explore the failure precursors of hard rock, a series of triaxial loading and unloading experimen...
Acoustic emission (AE) is a useful non-destructive technique to determine whether damage in rock mat...
In order to verify some precursors such as LURR (Load/Unload Response Ratio) and AER (Accelerating E...
A series of acoustic emission (AE) experiments of rock failure have been conducted under cyclic load...
Uniaxial cyclic loading-unloading compression experiments with schemes of six loading rates and six ...
Acoustic emission has a direct correspondence to the internal damage of a material. To determine the...
To explore the characteristics of rock deformation and failure under cyclic loading and unloading, t...
Experimental tests are carried out to evidence the energy emitted during snap-back instabilities of...
The evolution of the cumulative energy of AE (acoustic emissions) as function of the applied load du...
Rock burst is the result of the development and extension of micro-cracks during the loading process...
Mechanical parameters of the rock are important for the design of geotechnical, mining engineering, ...
The purpose of this research is to develop a technique to quantify damage and support the assertion ...
In this study, uniaxial and triaxial compression acoustic emission (AE) tests were implemented to in...
To explore the energy dissipation mechanism and damage evolution characteristics of rock specimens u...
To study the loading rate dependence of acoustic emissions and the failure mechanism of fractured ro...
To explore the failure precursors of hard rock, a series of triaxial loading and unloading experimen...
Acoustic emission (AE) is a useful non-destructive technique to determine whether damage in rock mat...