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Fatigue of cord-rubber composites: V. Cord reinforcement effect
J. H. Song
,
F. Costanzo
, B. L. Lee
Engineering Science and Mechanics
Center for Interdisciplinary Mathematics
Center for Neural Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
6
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Scopus citations
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Dive into the research topics of 'Fatigue of cord-rubber composites: V. Cord reinforcement effect'. Together they form a unique fingerprint.
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Engineering
Reinforcement Effect
100%
Stress Amplitude
100%
Shear Strain
66%
Fatigue Lifetime
66%
Belts
66%
Cyclic Strain
66%
Delamination
66%
Circumferential
33%
Creep
33%
Fatigue Behavior
33%
Fatigue Life
33%
Failure Mode
33%
Pneumatics
33%
Debonding
33%
Material Composition
33%
Single Cycle
33%
Temperature Rise
33%
Specimen Temperature
33%
Rubber Matrix
33%
Critical Level
33%
Failure Strain
33%
Creep Rate
33%
Composite Material
33%
Dominated Failure
33%
Keyphrases
Composite Laminates
100%
Cord
100%
Reinforcement Effect
100%
Fatigue Life
42%
Stress Amplitude
42%
Shear Strain
28%
Delamination
28%
Cyclic Strain
28%
Interply
28%
Material Composition
14%
Tire
14%
Stress Level
14%
Fatigue Behavior
14%
Temperature Rise
14%
Total Strain
14%
Failure Mode
14%
Creep Rate
14%
Linear Correlation
14%
Material Construction
14%
Debonding
14%
Strain Accumulation
14%
Temperature History
14%
Strain at Failure
14%
Pneumatic Tire
14%
Stress Temperature
14%
Material Forming
14%
Rubber Matrix
14%
Symmetric Laminate
14%
All-composite
14%
Failure Strain
14%
Material Science
Composite Laminate
100%
Composite Material
100%
Shear Strain
28%
Creep
28%
Delamination
28%
Fatigue Behavior
14%
Composite Material
14%
Fatigue of Materials
14%
Debonding
14%
Phase Composition
14%