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Low velocity heavy mass impact response of single curve composites
Opukuro David-West
, David Nash
, William Banks
Centre for Engineering Research
Materials and Structures
School of Physics, Engineering & Computer Science
Department of Engineering and Technology
Energy and Sustainable Manufacturing Research Group
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Citations (Scopus)
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Keyphrases
Mass Impact
100%
Composite Cylinder
100%
Impact Response
100%
Low Velocity
100%
Heavy Masses
100%
Stack Configuration
66%
Ply Orientation
66%
Instrumented Drop Weight
33%
Fiber-reinforced Composite Structure
33%
Impact Study
33%
Bending Stiffness
33%
Hand Lay-up
33%
Energy Absorption Characteristics
33%
Composite Structures
33%
Curved Composite Structure
33%
Damage Degree
33%
Impact Effect
33%
Energy Bending
33%
Prepreg
33%
Structural Applications
33%
Low Energy
33%
Contact Period
33%
Energy Absorption
33%
Composite Panel
33%
Energy Damage
33%
Damage Effect
33%
Stacking Sequence
33%
Impact Behavior
33%
Impact Properties
33%
Curved Fibers
33%
Response Data
33%
Saturation Energy
33%
Engineering
Single Curve
100%
Composite Cylinder
100%
Impact Response
100%
Ply Orientation
66%
Composite Panel
33%
Test Sample
33%
Experimental Investigation
33%
Energy Absorption
33%
Structural Application
33%
Fiber-Reinforced Composite
33%
Bending Stiffness
33%
Impact Behavior
33%
Energy Engineering
33%
Reinforced Composite Structure
33%
Composite Structure
33%
Absorbed Energy
33%
Hand Lay-up
33%
Material Science
Surface (Surface Science)
100%
Prepreg
50%
Fiber-Reinforced Composite
50%