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Stochastic damage evolution modeling in laminates
Y. A. Dzenis
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Dive into the research topics of 'Stochastic damage evolution modeling in laminates'. Together they form a unique fingerprint.
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Keyphrases
Damage Accumulation
100%
Stochastic Damage Evolution
100%
Loading Rate
100%
Cyclic Loading
100%
Evolution Modeling
100%
Laminated Composites
50%
Damage Evolution
50%
Function Theory
50%
Strain Failure Criterion
50%
Kevlar Composite
50%
Strength Characteristics
50%
Maximum Strain
50%
Random Process
50%
Probability Calculations
50%
Damage Failure
50%
Laminate Strength
50%
Stiffness Degradation
50%
Stochastic Version
50%
Random Function
50%
Laminate Theory
50%
Cyclic Amplitude
50%
Meso-mechanism
50%
Loading Effect
50%
In-plane Loading
50%
Damage Probability
50%
High Cycle Fatigue
50%
Failure Accumulation
50%
Quasi-stationary
50%
Stiffness Characteristics
50%
Accumulation Analysis
50%
Engineering
Damage Evolution
100%
Damage Accumulation
100%
Loading Rate
100%
Cyclic Loading
100%
Failure Criterion
50%
Gaussians
50%
Random Process
50%
Stiffness Degradation
50%
In-Plane Loading
50%
Fatigue Behavior
50%
High Cycle Fatigue
50%
Material Science
Mechanical Strength
100%
Damage Evolution
100%
Laminated Composite
50%
Fatigue Behavior
50%
Kevlar
50%
High-Cycle Fatigue
50%