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Size effect on branched sideways cracks in orthotropic fiber composites
Abdullah Dönmez,
Zdeněk P. Bažant
*
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Corresponding author for this work
Civil and Environmental Engineering
Research output
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Contribution to journal
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Article
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peer-review
8
Scopus citations
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Dive into the research topics of 'Size effect on branched sideways cracks in orthotropic fiber composites'. Together they form a unique fingerprint.
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Keyphrases
Orthotropic
100%
Size Effect
100%
Fiber Composites
100%
Transverse Crack
66%
Transverse Notch
66%
Finite Element Simulation
33%
Law
33%
Structure Size
33%
Material Parameters
33%
Tensorial
33%
Crack Tip
33%
Damage Model
33%
Notch Depth
33%
Crack Band Model
33%
Fracture Process Zone
33%
Stress Relief Zone
33%
Cohesive Crack Model
33%
Strength Criterion
33%
Approximate Analytical Solution
33%
Initial Crack
33%
Zone Diameter
33%
Fracture Energy
33%
Stress Separation
33%
J-integral
33%
Orthotropic Composite
33%
Fibre-polymer Composites
33%
Cohesive Crack
33%
Unidirectional Fiber
33%
Inclined Fiber
33%
Scalar Stress
33%
Engineering
Composite Fiber
100%
Size Effect
100%
Cohesive Crack
66%
Transverse Crack
66%
Damage Model
33%
Band Model
33%
Crack Tip
33%
Process Zone
33%
Structure Size
33%
Stress Relief
33%
Finite Element Simulation
33%
Material Parameter
33%
Initial Crack
33%
Strength Criterion
33%
Separation Law
33%
J-Integral
33%
Polymer Fiber
33%
Fracture Energy
33%