INIS
polyesters
100%
nanocomposites
63%
fibers
57%
matrices
46%
mechanical properties
44%
damage
43%
water
43%
absorption
42%
clays
41%
comparative evaluations
37%
fiberglass
36%
strains
35%
performance
29%
evaluation
29%
polymers
28%
deformation
28%
silicates
28%
resins
25%
applications
25%
epoxides
22%
coatings
21%
creep
21%
glass
20%
velocity
18%
levels
17%
impact strength
16%
weight
15%
dispersions
15%
energy
14%
rubbers
14%
fires
14%
fatigue
14%
relaxation
14%
butadiene
14%
polyurethanes
14%
polystyrene
14%
environment
14%
polyamides
14%
thermal degradation
14%
kevlar
14%
stress relaxation
14%
moisture
13%
volume
13%
hardness
13%
surfaces
12%
impact tests
11%
relaxation time
11%
chains
11%
loading
11%
aging
10%
Engineering
Nanoclays
70%
Nanocomposite
63%
Gelcoat
42%
Hemp Fiber
30%
Measurement System
28%
Layered Silicate
28%
Impact Response
28%
Elevated Temperature
26%
Internals
24%
Creep
24%
Mechanical Performance
23%
Engineering Application
23%
Structural Integrity
21%
Fiber Volume Fraction
21%
Failure Mechanism
18%
Polymer Matrix
17%
Impact Energy
17%
Impact Test
17%
Marine Applications
16%
Composite Specimen
16%
Impact Strength
16%
Tensiles
15%
Fire Exposure
14%
Organoclay
14%
Polymer Matrix Composite
14%
Natural Fibre
14%
Fatigue Damage
14%
Barely Visible Impact Damage
14%
Reinforced Plastic
14%
Microphase Separation
14%
Relaxation Time
14%
Matrix Material
14%
Polyamide
14%
Thermal Degradation
14%
Damage Analysis
14%
Coating System
14%
Polyurethan
14%
Composite Fiber
14%
Epoxy Matrix
14%
Shielding Property
14%
Fibre Coating
14%
Stress Relaxation
14%
Soft Segment
10%
Fibre Reinforcement
8%
Butadiene Rubber
8%
Absorbed Energy
8%
Polymer System
8%
Room Temperature
8%
Nanoscale
7%
Test Machine
7%
Material Science
Polyester
83%
Nanoclay
67%
Nanocomposite
63%
Hemp Fiber
33%
Glass Fiber
30%
Silicate
28%
Creep Property
21%
Volume Fraction
18%
Creep
17%
Nanoindentation
16%
Impact Strength
16%
Fatigue Damage
14%
Surface Roughness
14%
Natural Fibre
14%
Thermal Degradation
14%
Surface (Surface Science)
14%
Polyurethane
14%
Stress Relaxation
14%
Polyamide
14%
Polystyrene
14%
Polybutadiene
14%
Kevlar
14%
Impact Testing
9%
Epoxy
8%
Fiber Reinforced Material
8%
Scanning Electron Microscopy
7%
Polymer Matrix
7%
Nano-Coating
7%
Nanoparticle
7%
Surface Property
7%
Vulcanization
7%
Creep Resistance
7%
Silane
6%
Composite Material
6%
Glass Transition Temperature
5%
Differential Scanning Calorimetry
5%