Add to ORKGA 2-D numerical model for brittle creep and stress relaxation is proposed for the time-dependent brittle deformation of heterogeneous brittle rock under uniaxial loading conditions. The model accounts for material heterogeneity through a stochastic local failure stress field, and local material degradation using an exponential material softening law. Importantly, the model introduces the concept of a mesoscopic renormalization to capture the co-operative interaction between microcracks in the transition from distributed to localized damage. The model also describes the temporal and spatial evolution of acoustic emissions, including their size (energy released), in the medium during the progressive damage process. The model is first validate...
International audienceWe develop a unifying framework to quantify rate-dependent deformation in the ...
This paper presents a constitutive modelling approach to the viscoplastic-damage behaviour of geoma...
This paper presents a theoretical study on time-dependent dilatancy behaviors for brittle rocks. The...
International audienceA numerical hydro-mechanical model for brittle creep is proposed to describe t...
International audienceWe propose a numerical model based on static fatigue laws in order to model th...
International audienceRock fracture under upper crustal conditions is driven not only by applied str...
International audienceIn the upper crust, the chemical infuence of pore water promotes time dependen...
Considering sandstone’s heterogeneity in the mesoscale and homogeneity in the macroscale, it is very...
[1] In the upper crust, the chemical influence of pore water promotes time dependent brittle deforma...
International audienceThe characterization of time-dependent brittle rock deformation is fundamental...
The micromechanics-based damage model proposed by Golshani et al. (2005) is extended so that time-de...
peer reviewedThe stability of underground cavities, such as the facilities for deep repositories of ...
A multiscale microstructured brittle damage model is used to describe the behavior of confined rock ...
A discrete viscoplastic damage model for time-dependent behaviour of quasi-brittle rocks W Wang1, JF...
AbstractThe failure behaviour of quasi-brittle materials is often time-dependent. This dependence is...
International audienceWe develop a unifying framework to quantify rate-dependent deformation in the ...
This paper presents a constitutive modelling approach to the viscoplastic-damage behaviour of geoma...
This paper presents a theoretical study on time-dependent dilatancy behaviors for brittle rocks. The...
International audienceA numerical hydro-mechanical model for brittle creep is proposed to describe t...
International audienceWe propose a numerical model based on static fatigue laws in order to model th...
International audienceRock fracture under upper crustal conditions is driven not only by applied str...
International audienceIn the upper crust, the chemical infuence of pore water promotes time dependen...
Considering sandstone’s heterogeneity in the mesoscale and homogeneity in the macroscale, it is very...
[1] In the upper crust, the chemical influence of pore water promotes time dependent brittle deforma...
International audienceThe characterization of time-dependent brittle rock deformation is fundamental...
The micromechanics-based damage model proposed by Golshani et al. (2005) is extended so that time-de...
peer reviewedThe stability of underground cavities, such as the facilities for deep repositories of ...
A multiscale microstructured brittle damage model is used to describe the behavior of confined rock ...
A discrete viscoplastic damage model for time-dependent behaviour of quasi-brittle rocks W Wang1, JF...
AbstractThe failure behaviour of quasi-brittle materials is often time-dependent. This dependence is...
International audienceWe develop a unifying framework to quantify rate-dependent deformation in the ...
This paper presents a constitutive modelling approach to the viscoplastic-damage behaviour of geoma...
This paper presents a theoretical study on time-dependent dilatancy behaviors for brittle rocks. The...