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Relations between Peridynamic and Classical Cohesive Models
Scot M. Breitenfeld
,
Philippe H. Geubelle
, Olaf Weckner
, Stewart A. Silling
Aerospace Engineering
National Center for Supercomputing Applications (NCSA)
Mechanical Science and Engineering
Grainger College of Engineering
Beckman Institute for Advanced Science and Technology
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Dive into the research topics of 'Relations between Peridynamic and Classical Cohesive Models'. Together they form a unique fingerprint.
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Keyphrases
Cohesive Failure
100%
Cohesive Finite Element Method
100%
Cohesive Model
100%
Peridynamics
100%
Failure Law
100%
Finite Element
50%
Fracture Surface
50%
Constitutive Response
50%
Numerical Methods
50%
Crack Propagation
50%
Crack Growth
50%
Cohesive Element
50%
Crack Path
50%
Displacement Jump
50%
Nonlinear Region
50%
Crack Tip Fields
50%
Crack Opening
50%
Dependency Effect
50%
Engineering
Cohesive Model
100%
Peridynamics
100%
Finite Element Analysis
100%
Cohesive Failure
66%
Singularities
33%
Crack Propagation
33%
Fracture Surface
33%
Numerical Methods
33%
Crack Growth
33%
Cohesive Element
33%
Crack Opening
33%
Crack Path
33%
Displacement Jump
33%
Nonlinear Region
33%
Crack Tip Field
33%