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Fracture in glass/epoxy multilayers from low-velocity impact
H. Chai
*
, G. Ravichandran
*
Corresponding author for this work
School of Mechanical Engineering
California Institute of Technology Division of Engineering and Applied Science
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Keyphrases
Radial Crack
100%
Epoxy Glass
100%
Low-velocity Impact
100%
Impact Energy
66%
Crack Instability
66%
Stiffness
33%
Equations of Motion
33%
Damage Tolerance
33%
High-speed Camera
33%
Toughness
33%
Crack Propagation
33%
Surface Crack
33%
Crack Length
33%
Layered Structure
33%
Flat Surface
33%
Flexure
33%
Induced Cracking
33%
Load Transfer
33%
Contact Load
33%
Cone Crack
33%
Quasi-static Load
33%
Flexural Deformation
33%
Surface Target
33%
Bluntness
33%
Spherical Projectile
33%
Median Crack
33%
Glass Plate
33%
Model Glass
33%
Growth History
33%
Glass Block
33%
Contact Deformation
33%
Engineering
Subsurface
100%
Epoxy Glass
100%
Impact Energy
100%
Flexure
50%
Crack Length
50%
Speed Camera
50%
Load Transfer
50%
Layered Structure
50%
Glass Plate
50%
Damage Tolerance
50%
Flat Surface
50%