Existing conceptual growth models for faults in layered sequences suggest that faults first localise in strong, and brittle, layers and are later linked in weak, and ductile, layers. We use the Discrete Element Method (DEM) for modelling the growth of a normal fault in a brittle/ductile multilayer sequence. The modelling reveals that faults in brittle/ductile sequences at low confining pressure and high strength contrast localise first as Mode I fractures in the brittle layers. Low amplitude monoclinal folding prior to failure is accommodated by ductile flow in the weak layers. The initially vertically segmented fault arrays are later linked via shallow dipping faults in the weak layers. Faults localise, therefore, as geometrically and kine...
A fault network is a pattern of interacting or linked faults that accommodate triaxial or biaxial st...
Our understanding of the growth of natural extensional faults is limited to the study of a random sn...
Most models for fault growth and scaling are based on analysis of faults which display dip-slip (i.e...
The growth of normal faults in periodically layered sequences with varying strength contrast and at ...
The distinct element method is used for modeling the growth of normal faults in layered sequences. ...
The interplay of faulting and folding has long been recognized in extensional systems and numerous i...
A wide range of normal faulting styles accommodate strain in extensional tectonic settings, yet the ...
International audienceThe mechanical coupling between brittle and ductile layers in the continental ...
1 p.Complex multiscale fracture patterns are found to develop during fracturing process, as a conseq...
We search for a description of fault formation consistent with the main features of two very differe...
International audienceThe distribution of displacement along faults is a key parameter in various ar...
International audienceIt is well known that ductile layers play a major role in the style and locati...
Normal faults contained in multilayers are often characterised by dip refraction which is generally ...
International audienceIn this paper, we document the early stage of fault-zone development based on ...
A lattice solid model was developed to study the physics of rocks and the nonlinear dynamics of eart...
A fault network is a pattern of interacting or linked faults that accommodate triaxial or biaxial st...
Our understanding of the growth of natural extensional faults is limited to the study of a random sn...
Most models for fault growth and scaling are based on analysis of faults which display dip-slip (i.e...
The growth of normal faults in periodically layered sequences with varying strength contrast and at ...
The distinct element method is used for modeling the growth of normal faults in layered sequences. ...
The interplay of faulting and folding has long been recognized in extensional systems and numerous i...
A wide range of normal faulting styles accommodate strain in extensional tectonic settings, yet the ...
International audienceThe mechanical coupling between brittle and ductile layers in the continental ...
1 p.Complex multiscale fracture patterns are found to develop during fracturing process, as a conseq...
We search for a description of fault formation consistent with the main features of two very differe...
International audienceThe distribution of displacement along faults is a key parameter in various ar...
International audienceIt is well known that ductile layers play a major role in the style and locati...
Normal faults contained in multilayers are often characterised by dip refraction which is generally ...
International audienceIn this paper, we document the early stage of fault-zone development based on ...
A lattice solid model was developed to study the physics of rocks and the nonlinear dynamics of eart...
A fault network is a pattern of interacting or linked faults that accommodate triaxial or biaxial st...
Our understanding of the growth of natural extensional faults is limited to the study of a random sn...
Most models for fault growth and scaling are based on analysis of faults which display dip-slip (i.e...