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Numerical modeling of fluid-driven fractures in cohesive poroelastoplastic continuum
E. Sarris
, P. Papanastasiou
Department of Engineering
University of Cyprus
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peer-review
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Keyphrases
Fluid-driven Fracture
100%
Cohesive Zone
100%
Numerical Modeling
100%
Plastic Yielding
66%
Pressure Field
66%
Pore Pressure
66%
Stress Anisotropy
66%
Propagule Pressure
66%
Fracture Propagation
66%
Finite Element Method
33%
Rock Deformation
33%
Weak Formation
33%
Net Pressure
33%
Model Prediction
33%
Fracture Dimension
33%
Incompressible Viscous Fluid
33%
Rock Dilation
33%
Hydraulic Fracture
33%
Mohr-Coulomb Criterion
33%
Fluid Pressure
33%
Lubrication Theory
33%
Fracture Profile
33%
Plastic Zone
33%
Associative Flow Rules
33%
Fracture Propagation Criterion
33%
Diffusion Process
33%
Elastoplastic
33%
Pore Fluid
33%
Fluid Flow
33%
Fracturing Operation
33%
Surrounding Medium
33%
Zoning Characteristics
33%
Plastic Fluid
33%
Plane Strain
33%
Porous Domain
33%
Fracture Length
33%
Darcy's Law
33%
Fracture Opening
33%
Fracturing Fluid
33%
Engineering
Darcy Law
33%