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An unstructured mesh algorithm for simulation of hydraulic fracture
John Napier,
Emmanuel Detournay
Civil, Environmental, and Geo- Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Dive into the research topics of 'An unstructured mesh algorithm for simulation of hydraulic fracture'. Together they form a unique fingerprint.
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Mathematics
Unstructured Mesh
100%
Hydraulics
98%
Simulation
50%
Crack
46%
Toughness
22%
Edge Elements
22%
Triangular Element
21%
Flow Rate
20%
Influence Function
19%
Boundary Elements
17%
Computational Methods
16%
Data Structures
16%
Movement
16%
Experimental Results
16%
Propagation
14%
Mesh
12%
Fluid
12%
Interaction
11%
Asymptotic Behavior
11%
Dependent
10%
Iteration
10%
Range of data
9%
Vertex of a graph
9%
Physics & Astronomy
hydraulics
84%
mesh
74%
simulation
30%
apexes
28%
edge cracks
22%
crack opening displacement
22%
data structures
21%
toughness
17%
iteration
15%
discontinuity
14%
flow velocity
12%
cracks
12%
fluids
9%
propagation
9%
interactions
6%
Engineering & Materials Science
Hydraulics
61%
Cracks
32%
Computational methods
16%
Toughness
15%
Data structures
13%
Flow rate
12%
Fluids
10%