Under compressive stress, rock ``damage'' in the form of tensile microcracks is coupled to internal slip on microscopic interfaces, such as preexisting cracks and grain boundaries. In order to characterise the contribution of slip to the overall damage process, we conduct triaxial cyclic loading experiments on Westerly granite, and monitor volumetric strain and elastic wave velocity and anisotropy. Cyclic loading tests show large hysteresis in axial stress-strain behaviour that can be explained entirely by slip. Elastic wave velocity variations are observed only past a yield point, and show hysteresis with incomplete reversibility upon unloading. Irrecoverable volumetric strain and elastic wave velocity drop and anisotropy increase with inc...
A micromechanics-based continuum damage model for brittle failure of rock is proposed to provide a n...
Our aim is here a better understanding of damage process of stressed rocks. We have therefore conduc...
Nonlinearity and hysteresis are two key features of elastic rock deformation. This behavior can be a...
Bibliography: pages 146-155.An anisotropic damage model is proposed for the constitutive description...
AbstractThis work introduces a micro-mechanical grain-aggregate model and numerical simulation capab...
Under triaxial deviatoric loading at stresses below failure, rocks generally exhibit nonlinearity an...
We formulate a new micromechanical damage model for anisotropic rocks. This model accounts not only ...
International audienceIn the upper crust, the chemical infuence of pore water promotes time dependen...
Constitutive models play an essential role in numerical modeling and simulation of nonlinear deforma...
The micromechanical damage mechanics formulated by Ashby and Sammis (Pure Appl Geophys 133(3) 489–52...
Seismological observations highlighted that earthquakes are often followed by changes in elastic pro...
In the upper crust, where brittle deformation mechanisms dominate, the development of crack networks...
A micromechanical constitutive damage model accounting for micro-crack interactions was developed fo...
For most rock materials, there exists a strong coupling between plastic flow caused by sliding along...
[1] In the upper crust, the chemical influence of pore water promotes time dependent brittle deforma...
A micromechanics-based continuum damage model for brittle failure of rock is proposed to provide a n...
Our aim is here a better understanding of damage process of stressed rocks. We have therefore conduc...
Nonlinearity and hysteresis are two key features of elastic rock deformation. This behavior can be a...
Bibliography: pages 146-155.An anisotropic damage model is proposed for the constitutive description...
AbstractThis work introduces a micro-mechanical grain-aggregate model and numerical simulation capab...
Under triaxial deviatoric loading at stresses below failure, rocks generally exhibit nonlinearity an...
We formulate a new micromechanical damage model for anisotropic rocks. This model accounts not only ...
International audienceIn the upper crust, the chemical infuence of pore water promotes time dependen...
Constitutive models play an essential role in numerical modeling and simulation of nonlinear deforma...
The micromechanical damage mechanics formulated by Ashby and Sammis (Pure Appl Geophys 133(3) 489–52...
Seismological observations highlighted that earthquakes are often followed by changes in elastic pro...
In the upper crust, where brittle deformation mechanisms dominate, the development of crack networks...
A micromechanical constitutive damage model accounting for micro-crack interactions was developed fo...
For most rock materials, there exists a strong coupling between plastic flow caused by sliding along...
[1] In the upper crust, the chemical influence of pore water promotes time dependent brittle deforma...
A micromechanics-based continuum damage model for brittle failure of rock is proposed to provide a n...
Our aim is here a better understanding of damage process of stressed rocks. We have therefore conduc...
Nonlinearity and hysteresis are two key features of elastic rock deformation. This behavior can be a...