Many tectonic problems require to treat the lithosphere as a compressible elastic material, which can also flow viscously or break in a brittle fashion depending on the stress level applied and the temperature conditions. We present a flexible methodology to address the resulting complex material response, which imposes severe challenges on the discretization and rheological models used. This robust, adaptive, two-dimensional, finite element method solves the momentum balance and the heat equation in Lagrangian form using unstructured meshes. An implementation of this methodology is released to the public with the publication of this paper and is named DynEarthSol2D (available at http://bitbucket.org/tan2/dynearthsol2). The solver uses cont...
This article describes a Lagrangian finite element method that simulates the behavior of liquids and...
International audienceWe present a new finite element code for the solution of the Stokes and energy...
Purpose – The purpose of this paper is to present an adaptive finite element procedure that improves...
Many tectonic problems require to treat the lithosphere as a compressible elastic material, which ca...
M2TRI_vep is a 2-D geodynamic model applying the finite element method on unstructured triangular me...
Strain localization is ubiquitous in geodynamics and occurs at all scales within the lithosphere. Ho...
International audienceWe review the methods available for large deformation simulations of geomateri...
Purpose: The purpose of this paper is to present an adaptive finite element procedure that improves ...
The redistribution of past and present ice and ocean loading on Earth's surface causes solid Earth d...
DynEarthSol3D (Dynamic Earth Solver in Three Dimensions) is a flexible, open-source finite element s...
International audienceThis paper proposes a novel way to solve transient linear, and non-linear soli...
International audienceNumerous geological processes are governed by thermal and mechanical interacti...
This paper first discusses alternative stress integration schemes in numerical solutions to large- d...
International audienceGeomechanical restoration methods to date rely on considering the rock propert...
International audienceGeodynamic problems often involve the large deformation of material encompassi...
This article describes a Lagrangian finite element method that simulates the behavior of liquids and...
International audienceWe present a new finite element code for the solution of the Stokes and energy...
Purpose – The purpose of this paper is to present an adaptive finite element procedure that improves...
Many tectonic problems require to treat the lithosphere as a compressible elastic material, which ca...
M2TRI_vep is a 2-D geodynamic model applying the finite element method on unstructured triangular me...
Strain localization is ubiquitous in geodynamics and occurs at all scales within the lithosphere. Ho...
International audienceWe review the methods available for large deformation simulations of geomateri...
Purpose: The purpose of this paper is to present an adaptive finite element procedure that improves ...
The redistribution of past and present ice and ocean loading on Earth's surface causes solid Earth d...
DynEarthSol3D (Dynamic Earth Solver in Three Dimensions) is a flexible, open-source finite element s...
International audienceThis paper proposes a novel way to solve transient linear, and non-linear soli...
International audienceNumerous geological processes are governed by thermal and mechanical interacti...
This paper first discusses alternative stress integration schemes in numerical solutions to large- d...
International audienceGeomechanical restoration methods to date rely on considering the rock propert...
International audienceGeodynamic problems often involve the large deformation of material encompassi...
This article describes a Lagrangian finite element method that simulates the behavior of liquids and...
International audienceWe present a new finite element code for the solution of the Stokes and energy...
Purpose – The purpose of this paper is to present an adaptive finite element procedure that improves...