Computational coupled large‐deformation periporomechanics for dynamic failure and fracturing in variably saturated porous media
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Publication:6092150
DOI10.1002/nme.7109arXiv2207.04580OpenAlexW4293207320MaRDI QIDQ6092150
Publication date: 23 November 2023
Published in: International Journal for Numerical Methods in Engineering (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2207.04580
Numerical and other methods in solid mechanics (74Sxx) Generalities, axiomatics, foundations of continuum mechanics of solids (74Axx) Coupling of solid mechanics with other effects (74Fxx)
Cites Work
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- A general theory of uniqueness and stability in elastic-plastic solids
- On the solution of elliptic free-boundary problems via Newton's method
- Computational inelasticity
- Standard staggered and Newton schemes in thermo-hydro-mechanical problems
- A modified peridynamics correspondence principle: removal of zero-energy deformation and other implications
- Updated Lagrangian unsaturated periporomechanics for extreme large deformation in unsaturated porous media
- Strain localization in non-isothermal unsaturated porous media considering material heterogeneity with stabilized mixed finite elements
- Hybrid FEM and peridynamic simulation of hydraulic fracture propagation in saturated porous media
- A computational periporomechanics model for localized failure in unsaturated porous media
- Stability of peridynamic correspondence material models and their particle discretizations
- Peridynamic states and constitutive modeling
- Peridynamic Theory and Its Applications
- Mathematical framework for unsaturated flow in the finite deformation range
- Tissue Mechanics
- Unconditionally stable staggered solution procedure for soil-pore fluid interaction problems
- A new unconditionally stable fractional step method for non‐linear coupled thermomechanical problems
- A staggered finite‐element solution for water and gas flow in deforming porous media
- Computational multiphase periporomechanics for unguided cracking in unsaturated porous media
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