A new coupled multiphase flow-finite strain deformation-fault slip framework for induced seismicity
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Publication:2120759
DOI10.1016/J.JCP.2021.110178OpenAlexW3128266119MaRDI QIDQ2120759
Publication date: 1 April 2022
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2021.110178
Numerical and other methods in solid mechanics (74Sxx) Plastic materials, materials of stress-rate and internal-variable type (74Cxx) Coupling of solid mechanics with other effects (74Fxx)
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- A monotone nonlinear finite volume method for diffusion equations and multiphase flows
- Analysis and numerical simulation of strong discontinuities in finite strain poroplasticity
- Algorithms for static and dynamic multiplicative plasticity that preserve the classical return mapping schemes of the infinitesimal theory
- Computational inelasticity
- A priori stability estimates and unconditionally stable product formula algorithms for nonlinear coupled thermoplasticity
- A formulation for an unsaturated porous medium undergoing large inelastic strains
- Finite element simulation of strain localization with large deformation: Capturing strong discontinuity using a Petrov-Galerkin multiscale formulation
- Elastoplastic consolidation at finite strain. II: Finite element implementation and numerical examples
- A mathematical framework for finite strain elastoplastic consolidation. I: Balance laws, variational formulation, and linearization
- Formulation and finite element implementation of a multiplicative model of coupled poro-plasticity at finite strains under fully saturated conditions
- An updated Lagrangian LBM-DEM-FEM coupling model for dual-permeability fissured porous media with embedded discontinuities
- A continuum framework for coupled solid deformation-fluid flow through anisotropic elastoplastic porous media
- Aspects of finite element formulations for the coupled problem of poroelasticity based on a canonical minimization principle
- On the mechanical energy and effective stress in saturated and unsaturated porous continua
- Cam-Clay plasticity. V: A mathematical framework for three-phase deformation and strain localization analyses of partially saturated porous media
- Consolidation of elastic-plastic saturated porous media by the boundary element method
- Plasticity
- Mixed finite element method for coupled thermo-hydro-mechanical process in poro-elasto-plastic media at large strains
- The analysis of finite elasto-plastic consolidation
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