Keyphrases
Weld Line
100%
Coupons
100%
Carbon Fiber Composite
100%
Induced Failures
100%
Component Level
100%
Discontinuous Carbon Fiber
100%
Failure Mode Transition
100%
Brittle Failure
66%
Computed Tomography
33%
Local Fiber Orientation
33%
High-resolution X-ray Computed Tomography
33%
Non-destructive Characterization
33%
Platelets
33%
Fiber Length
33%
Stiffness
33%
Failure Behavior
33%
Pseudo-ductile
33%
Crack Arrest
33%
Structure Formation
33%
Deflection
33%
Material Flow
33%
Energy Absorption Capacity
33%
Flow Condition
33%
Fiber Waviness
33%
Damage Mechanism
33%
Thermosetting
33%
Prepreg
33%
In-mould
33%
Strength Reduction
33%
Damage Crack
33%
Large Deflection
33%
Material Flow System
33%
Pseudo-ductility
33%
High Energy Absorption
33%
Asymmetric Distribution
33%
Low Flow
33%
Fiber Orientation State
33%
Defect Distribution
33%
Mechanical Bending Test
33%
Mesoscale Damage
33%
Damage Tolerant
33%
Maximum Load
33%
Energy Reduction
33%
Fiber Porosity
33%
Ductile-to-brittle
33%
Nonlinear Response
33%
Carbon Fiber Sheet
33%
Porosity Distribution
33%
Material Configuration
33%
Sheet Molding Compound
33%
Apparent Fracture Toughness
33%
Work Study
33%
Reduced Components
33%
Load Value
33%
Deflection Value
33%
Engineering
Welds
100%
Failure Mode
100%
Carbon Fibre Composite
100%
Induced Failure
100%
Component Level
100%
Material Flow
66%
Brittle Failure
66%
High Resolution
33%
Fibre Length
33%
Fiber Orientation
33%
Scale Damage
33%
Failure Behavior
33%
Arresting Crack
33%
Full Scale
33%
Flow Condition
33%
Damage Mechanism
33%
Apparent Fracture Toughness
33%
Component Model
33%
Experimental Finding
33%
Mesoscale
33%
Absorbing Capacity
33%
Platelet
33%
Bending Tests
33%
Nonlinear Response
33%
Porosity
33%
Sheet Molding Compounds
33%
Energy Absorption
33%
Rigidity
33%
Material Science
Carbon Fiber
100%
Composite Material
100%
Fiber Reinforced Material
33%
Prepreg
33%
Sheet Molding Compounds
33%
Fracture Toughness
33%
Molding Compound
33%
Platelet
33%
X-Ray Computed Tomography
33%