To study the deformation and failure mechanism of hard rocks, true triaxial compression tests were conducted on four types of hard rocks to obtain the complete stress–strain curves and failure modes. Under true triaxial compression conditions, the shapes of the complete stress–strain curves can be divided into three types: elastic–brittle (EB), elastic–plastic–brittle (EPB), and elastic–plastic–ductile (EPD) types. According to the different post-peak deformation behaviours, the stress–strain curves of EPB type can be subdivided into three sub-categories: post-peak instantaneous brittle (EPB-I), post-peak multi-stage brittle (EPB-M), and post-peak delayed brittle (EPB-D). The stress–strain curves change from EPD to EPB-D, EPB-M, EPB-I, and ...
As one of the most crucial mechanical parameters of the rock materials, the effect of brittleness on...
Vita.Room-temperature, compression tests at strain rates from 10⁻² to 10 s⁻¹ are run on Charcoal Gra...
To deeply analyze the failure evolution of surrounding rock during excavation-induced unloading of t...
The brittle failure of rock is closely related to the rock crack initiation, propagation, coalescenc...
To investigate the influence of loading rate and confining pressure on the mechanical behavior and e...
Roadway excavation changes the original equilibrium stress state of the rock mass, resulting in the ...
The deep surrounding rock is usually in the true triaxial stress state, and previous constitutive mo...
Deep brittle rock exhibits characteristics of rapid stress dropping rate and large stress dropping d...
Rock masses will remain under constant load due to the engineering structures in rocks. Particularly...
The dynamic response of various geological materials has been investigated through a series of plate...
It is essential to study the mechanical properties of saturated rock under different loading and unl...
An experimental study of a rock-like material containing a preexisting fissure subjected to loading ...
To evaluate mechanical properties of rocks by triaxial compression (TC) testing, several identical s...
AbstractThe brittle failure (rock burst) of rock is generally triggered by excavation under high str...
Rock samples can behave brittle, transitional or ductile depending on test pressure, rate of loading...
As one of the most crucial mechanical parameters of the rock materials, the effect of brittleness on...
Vita.Room-temperature, compression tests at strain rates from 10⁻² to 10 s⁻¹ are run on Charcoal Gra...
To deeply analyze the failure evolution of surrounding rock during excavation-induced unloading of t...
The brittle failure of rock is closely related to the rock crack initiation, propagation, coalescenc...
To investigate the influence of loading rate and confining pressure on the mechanical behavior and e...
Roadway excavation changes the original equilibrium stress state of the rock mass, resulting in the ...
The deep surrounding rock is usually in the true triaxial stress state, and previous constitutive mo...
Deep brittle rock exhibits characteristics of rapid stress dropping rate and large stress dropping d...
Rock masses will remain under constant load due to the engineering structures in rocks. Particularly...
The dynamic response of various geological materials has been investigated through a series of plate...
It is essential to study the mechanical properties of saturated rock under different loading and unl...
An experimental study of a rock-like material containing a preexisting fissure subjected to loading ...
To evaluate mechanical properties of rocks by triaxial compression (TC) testing, several identical s...
AbstractThe brittle failure (rock burst) of rock is generally triggered by excavation under high str...
Rock samples can behave brittle, transitional or ductile depending on test pressure, rate of loading...
As one of the most crucial mechanical parameters of the rock materials, the effect of brittleness on...
Vita.Room-temperature, compression tests at strain rates from 10⁻² to 10 s⁻¹ are run on Charcoal Gra...
To deeply analyze the failure evolution of surrounding rock during excavation-induced unloading of t...