INIS
polymers
100%
modifications
100%
mechanical properties
100%
resins
100%
basalt
87%
glass
75%
fibers
50%
epoxides
50%
hybrids
37%
carbon nanotubes
37%
matrices
25%
scanning electron microscopy
25%
impact strength
25%
performance
12%
cost
12%
surfaces
12%
failures
12%
velocity
12%
information
12%
acetone
12%
yields
12%
surfactants
12%
compression
12%
molding
12%
flexural strength
12%
hands
12%
bonding
12%
stirring
12%
hybridization
12%
mechanical tests
12%
cracking
12%
Engineering
Carbon Nanotubes
100%
Epoxy Composite
100%
Tensiles
66%
Impact Strength
66%
Hand Lay-up
33%
Material System
33%
Compression Molding
33%
Micrograph
33%
Delamination
33%
Basalt Fibre
33%
Matrix Cracking
33%
Surfactant
33%
Fibre Breakage
33%
Bending Strength
33%
Material Science
Polymer Composite
100%
Carbon Nanotubes
100%
Scanning Electron Microscopy
66%
Impact Strength
66%
Compression Molding
33%
Flexural Strength
33%
Mechanical Testing
33%
Surface Active Agent
33%
Epoxy
33%
Molding
33%
Matrix Cracking
33%
Surface (Surface Science)
33%
Delamination
33%