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Rapid crack propagation and arrest in the dcb specimen—an improved numerical analysis
M. Perl
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Dive into the research topics of 'Rapid crack propagation and arrest in the dcb specimen—an improved numerical analysis'. Together they form a unique fingerprint.
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Keyphrases
Crack Arrest
100%
Crack Initiation
50%
Crack Propagation
50%
Crack Tip
50%
DCB Specimen
50%
Dynamic Energy Release Rate
50%
Dynamic Stress Intensity Factor
50%
Elastodynamic Analysis
50%
Generation Mode
50%
Linear Elastodynamics
50%
Material Characteristics
50%
Numerical Analysis
100%
Numerical Results
50%
Rapid Crack Propagation
100%
Specimen Geometry
50%
Engineering
Crack Arrest
100%
Crack Propagation
50%
Crack Tip
50%
Dynamic Stress
50%
Energy Engineering
50%
Energy Release Rate
50%
Experimental Finding
50%
Fastest Crack
50%
Good Agreement
50%
Initiation of Crack
50%
Material Characteristic
50%
Measured Crack
50%
Rapid Crack Propagation
100%
Specimen Geometry
50%
Stress-Intensity Factor
50%
Material Science
Crack Arrest
100%
Crack Initiation
50%
Crack Propagation
100%
Crack Tip
50%
Elastodynamics
50%
Stress Intensity Factor
50%