INIS
finite element method
100%
deformation
100%
porous materials
100%
modeling
100%
fractures
100%
degrees of freedom
33%
matrices
25%
resolution
16%
applications
16%
implementation
16%
rocks
16%
design
8%
dynamics
8%
sensitivity
8%
communities
8%
conferences
8%
simulation
8%
geothermal systems
8%
slip
8%
output
8%
comparative evaluations
8%
accuracy
8%
physics
8%
grids
8%
size
8%
length
8%
simulators
8%
cracks
8%
Earth and Planetary Sciences
Porous Medium
100%
Mathematical Model
100%
Fracture
100%
Degree of Freedom
40%
Reservoir
40%
Mesh
20%
Fracture Propagation
20%
Rock
20%
Approach
20%
Complexity
10%
Deformation Analysis
10%
Core
10%
Domain
10%
Output
10%
Propagation Process
10%
Fractured Medium
10%
Enhanced Geothermal System
10%
Sensitivity
10%
Accuracy
10%
Congressional Report
10%
Response
10%
Extension
10%
High Resolution
10%
State
10%
Community
10%
Crack
10%
Need
10%
Engineering
Finite Element Method
100%
Mechanical Deformation
100%
Multiscale
100%
Degree of Freedom
40%
Subsurface
30%
Demonstrates
20%
Global Scale
20%
Basis Function
20%
Rock Matrix
20%
Extra Degree
20%
Local Scale
10%
Multiple Scale
10%
Deformation Field
10%
Nodes
10%
Computational Complexity
10%
Journal Paper
10%
Simulators
10%
Applicability
10%
Stress Field
10%
Design
10%
Stages
10%
Enhanced Geothermal System
10%
Physics
Extended Finite Element Method
100%
Rock
20%
Stress Distribution
10%
Cracks
10%
Computational Physics
10%