The distinct element method is used for modeling the growth of normal faults in layered sequences. The models consist of circular particles that can be bonded together with breakable cement. Size effects of the model mechanical properties were studied for a constant average particle size and various sample widths. The study revealed that the bulk strength of the model material decreases with increasing sample size. Consequently, numerical lab tests and the associated construction of failure envelopes were performed for the specific layer width to particle diameter ratios used in the multilayer models. The normal faulting models are composed of strong layers (bonded particles) and weak layers (nonbonded particles) that are deformed in resp...
[1] We simulate a range of fault slip behaviors using the discrete element method (DEM) to examine t...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The growth of normal faults in periodically layered sequences with varying strength contrast and at ...
Existing conceptual growth models for faults in layered sequences suggest that faults first localise...
Three-dimensional numerical models of neutral (i.e. slip-parallel) relay zones on normal faults that...
A wide range of normal faulting styles accommodate strain in extensional tectonic settings, yet the ...
The interplay of faulting and folding has long been recognized in extensional systems and numerous i...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The particulate discrete element method (DEM) can be employed to capture the response of rock, provi...
This paper presents a numerical investigation of shear behavior and strain localization in cemented ...
International audience3D numerical modeling has been used to investigate how the variations of mecha...
Numerical modelling of the fracture of heterogeneous brittle materials is of interest for several in...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The presence of clay in fault zones has a dramatic effect on both fault mechanics and permeability. ...
[1] We simulate a range of fault slip behaviors using the discrete element method (DEM) to examine t...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The growth of normal faults in periodically layered sequences with varying strength contrast and at ...
Existing conceptual growth models for faults in layered sequences suggest that faults first localise...
Three-dimensional numerical models of neutral (i.e. slip-parallel) relay zones on normal faults that...
A wide range of normal faulting styles accommodate strain in extensional tectonic settings, yet the ...
The interplay of faulting and folding has long been recognized in extensional systems and numerous i...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The particulate discrete element method (DEM) can be employed to capture the response of rock, provi...
This paper presents a numerical investigation of shear behavior and strain localization in cemented ...
International audience3D numerical modeling has been used to investigate how the variations of mecha...
Numerical modelling of the fracture of heterogeneous brittle materials is of interest for several in...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...
The presence of clay in fault zones has a dramatic effect on both fault mechanics and permeability. ...
[1] We simulate a range of fault slip behaviors using the discrete element method (DEM) to examine t...
Earthquake surface fault rupture can cause substantial structural damage and loss of life in near-fa...
Application of a Discrete Element Model to investigate the effects of the pre-kinematic strength on ...