An extended finite volume model for implicit cohesive zone fracture propagation in a poroelastic medium
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Publication:1988003
DOI10.1016/j.cma.2019.03.040zbMath1441.74287OpenAlexW2930100989WikidataQ128160961 ScholiaQ128160961MaRDI QIDQ1988003
Jongsoo Hwang, Mukul M. Sharma, Ripudaman Manchanda
Publication date: 16 April 2020
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2019.03.040
Brittle fracture (74R10) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Finite volume methods applied to problems in solid mechanics (74S10)
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Cites Work
- Block-preconditioned Newton-Krylov solvers for fully coupled flow and geomechanics
- Stability and convergence of sequential methods for coupled flow and geomechanics: drained and undrained splits
- Numerical convergence study of iterative coupling for coupled flow and geomechanics
- Modeling fluid injection in fractures with a reservoir simulator coupled to a boundary element method
- Novel preconditioners for the iterative solution to FE-discretized coupled consolidation equations
- Computational modelling of impact damage in brittle materials
- A fully coupled porous flow and geomechanics model for fluid driven cracks: a peridynamics approach
- Phase-field modeling of proppant-filled fractures in a poroelastic medium
- Block-partitioned solvers for coupled poromechanics: a unified framework
- Pressure and fluid-driven fracture propagation in porous media using an adaptive finite element phase field model
- Toughness-dominated hydraulic fracture with leak-off
- Mechanics of Hydraulic Fractures
- A Brief Introduction to Krylov Space Methods for Solving Linear Systems
- Two-way coupling in reservoir-geomechanical models: vertex-centered Galerkin geomechanical model cell-centered and vertex-centered finite volume reservoir models
- Thermodynamically consistent phase-field models of fracture: Variational principles and multi-field FE implementations
- Plane-Strain Propagation of a Fluid-Driven Fracture: Small Toughness Solution
- An extended finite element method for hydraulic fracture problems
- Application of the finite volume method and unstructured meshes to linear elasticity
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