Spatial and temporal constraints of the cohesive modeling: A unified criterion for fluid‐driven fracture
DOI10.1002/NME.7227OpenAlexW4322009283WikidataQ123910852 ScholiaQ123910852MaRDI QIDQ6060923
No author found.
Publication date: 29 November 2023
Published in: International Journal for Numerical Methods in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/nme.7227
finite element methodcohesive zone modelscaling methoddimensional analysistoughness-dominated fracture model
Brittle fracture (74R10) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Finite element methods applied to problems in solid mechanics (74S05)
Related Items (1)
Cites Work
- Fourier analysis for discontinuous Galerkin and related methods
- An implicit algorithm for the propagation of a hydraulic fracture with a fluid lag
- On the influence of cohesive stress-separation laws on elastic stress singularities
- 3D coupled HM-XFEM modeling with cohesive zone model and applications to non planar hydraulic fracture propagation and multiple hydraulic fractures interference
- A stabilized finite element method for enforcing stiff anisotropic cohesive laws using interface elements
- A coupled contact heat transfer and thermal cracking model for discontinuous and granular media
- Three-dimensional finite discrete element-based contact heat transfer model considering thermal cracking in continuous-discontinuous media
- Convergence of fracture process zone size in cohesive zone modeling
- A multiscale implicit level set algorithm (ILSA) to model hydraulic fracture propagation incorporating combined viscous, toughness, and leak-off asymptotics
- The influence of the cohesive process zone in hydraulic fracturing modelling
- Phase-field method of crack branching during SC-\(\mathrm{CO}_2\) Fracturing: a new energy release rate criterion coupling pore pressure gradient
- A non-singular integral equation formulation to analyse multiscale behaviour in semi-infinite hydraulic fractures
- Mechanics of Hydraulic Fractures
- A phase-field model for cohesive fracture
- Cohesive-zone models, higher-order continuum theories and reliability methods for computational failure analysis
- The formation of equilibrium cracks during brittle fracture. General ideas and hypotheses. Axially-symmetric cracks
- The Tip Region of a Fluid-Driven Fracture in an Elastic Medium
- Plane-Strain Propagation of a Fluid-Driven Fracture: Small Toughness Solution
- Bounds for element size in a variable stiffness cohesive finite element model
- A time‐based arc‐length like method to remove step size effects during fracture propagation
- Employing phase‐field descriptions of cohesive zone placements in cohesive fracture simulations
- A numerical method based on pore‐pressure cohesive zone modeling for simulation of debulking in resin‐saturated composite prepregs
- Modeling fracture propagation in a rock‐water‐air system with the assumed enhanced strain method
This page was built for publication: Spatial and temporal constraints of the cohesive modeling: A unified criterion for fluid‐driven fracture
