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Uncertainty quantification of pure and mixed mode interlaminar fracture of fibre-reinforced composites via a stochastic reduced order model
S. Pouresmaeeli, B. G. Falzon
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Corresponding author for this work
School of Mechanical and Aerospace Engineering
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peer-review
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Citations (Scopus)
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Dive into the research topics of 'Uncertainty quantification of pure and mixed mode interlaminar fracture of fibre-reinforced composites via a stochastic reduced order model'. Together they form a unique fingerprint.
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Engineering
Mixed Mode
100%
Pure Mode
100%
Fracture
100%
Reduced Order Model
100%
Fibre-Reinforced Composite
100%
Uncertainty Quantification
100%
Accuracy
66%
Quantity
66%
Composite
66%
Fiber-Reinforced Polymer
66%
Cohesive Zone Model
66%
Crack Extension
33%
Limited Number
33%
Characteristics
33%
Finite Element Modeling
33%
Mixed-Mode Bending
33%
Double-Cantilever Beam
33%
Computational Cost
33%
Bending Tests
33%
Surrogate Model
33%
Flexure
33%
Cohesive Strength
33%
Critical Force
33%
Fracture Toughness
33%
Physics
Model
100%
Fracture
100%
Uncertainty Quantification
100%
Cracks
25%
Fracture Strength
25%
Monte Carlo Method
25%
Sampling
25%
Flexing
25%