The creation of microfractures within rock is commonly observed as rock is strained. The presence of these microfractures constitutes damage to the rock, and this damage can reduce the rock's strength. This paper explores the evolution of rock strength as microfractures within a rock accumulate. Two approaches involving different laboratory tests are used to study how cohesion and internal friction evolve during progressive damage to rock. The mobilized cohesion and friction angle are measured for intact and damaged rock specimens. Intact rock specimens tested under compression were used to determine the peak values of cohesion and friction angle for two types of rock. Specimens of rock with varying amounts of accumulated microfracture dama...
This study uses the uniaxial compressive strength (UCS), the indirect tensile strength (ITS) and the...
Under compressive stress, rock ``damage'' in the form of tensile microcracks is coupled to internal ...
AbstractAlthough many intact rock types can be very strong, a critical confining pressure can eventu...
Rock strength is generally divided into the components of cohesion and internal friction. These comp...
A study of the mechanics of shear failure of rock under pressure has been made. The transition from ...
Rock failure criteria are key input parameters for models designed to better understand the stabilit...
The most important mechanism for deformation and failure in rock masses under relatively low stresse...
This research focuses on the micro-mechanical and micro-structural aspects of strength variation in ...
Abstract Cohesion and internal friction angle are the two material parameters used in...
In the present paper, the results of microscopic observation of stress induced microcracks in triaxi...
Understanding the approach to faulting in continental rocks is critical for identifying processes le...
The evolution of micro-cracks in rocks under different strain rates is of great importance for a bet...
A multiscale microstructured brittle damage model is used to describe the behavior of confined rock ...
International audienceInelastic deformation and damage evolution at microdefects are two essential n...
High compressive stress near a tunnel face significantly contributes to the loss of strength, and ev...
This study uses the uniaxial compressive strength (UCS), the indirect tensile strength (ITS) and the...
Under compressive stress, rock ``damage'' in the form of tensile microcracks is coupled to internal ...
AbstractAlthough many intact rock types can be very strong, a critical confining pressure can eventu...
Rock strength is generally divided into the components of cohesion and internal friction. These comp...
A study of the mechanics of shear failure of rock under pressure has been made. The transition from ...
Rock failure criteria are key input parameters for models designed to better understand the stabilit...
The most important mechanism for deformation and failure in rock masses under relatively low stresse...
This research focuses on the micro-mechanical and micro-structural aspects of strength variation in ...
Abstract Cohesion and internal friction angle are the two material parameters used in...
In the present paper, the results of microscopic observation of stress induced microcracks in triaxi...
Understanding the approach to faulting in continental rocks is critical for identifying processes le...
The evolution of micro-cracks in rocks under different strain rates is of great importance for a bet...
A multiscale microstructured brittle damage model is used to describe the behavior of confined rock ...
International audienceInelastic deformation and damage evolution at microdefects are two essential n...
High compressive stress near a tunnel face significantly contributes to the loss of strength, and ev...
This study uses the uniaxial compressive strength (UCS), the indirect tensile strength (ITS) and the...
Under compressive stress, rock ``damage'' in the form of tensile microcracks is coupled to internal ...
AbstractAlthough many intact rock types can be very strong, a critical confining pressure can eventu...