INIS
fibers
100%
epoxides
69%
mechanical properties
43%
hybrids
40%
jute
30%
glass
29%
fillers
21%
shells
20%
tensile strength
20%
computerized tomography
19%
matrices
17%
resins
16%
polyethylenes
16%
molecular weight
16%
flexural strength
16%
fabrication
15%
formaldehyde
15%
fruits
15%
polyesters
15%
scanning electron microscopy
15%
liquids
14%
nuts
14%
pressure range mega pa
14%
molding
14%
failures
12%
impact strength
11%
compression
11%
layers
10%
hybridization
10%
investigations
10%
comparative evaluations
10%
nylon
9%
melamine
9%
wear
9%
bananas
9%
evaluation
9%
basalt
9%
testing
9%
assessments
9%
fiberglass
9%
shear strength
9%
hands
9%
stacks
8%
polymers
8%
modifications
7%
panels
7%
design
6%
surfaces
6%
speed
6%
sodium hydroxides
6%
Material Science
Ultimate Tensile Strength
48%
Scanning Electron Microscopy
37%
Impact Strength
32%
Jute Fiber
32%
Natural Fibre
26%
Flexural Strength
25%
Mechanical Property
23%
Compression Molding
23%
Surface (Surface Science)
21%
Tomography
19%
Polyethylene
19%
Molding
18%
Polyester
16%
Shear Strength
15%
Polymer Composite
13%
Sodium
12%
Glass Fiber
12%
Delamination
11%
Density
9%
Composite Laminate
9%
Mechanical Testing
9%
Morphology
9%
Flax
9%
Fiber-Reinforced Composite
8%
Microhardness
8%
Potassium
7%
Fourier Transform Infrared Spectroscopy
7%
Impact Loads
7%
Matrix Cracking
6%
Engineering
Epoxy Composite
27%
Hybrid Composite
24%
Impact Strength
20%
Natural Fibre
19%
Compression Molding
16%
Mechanical Property
16%
Ultimate Tensile Strength
15%
Failure Mechanism
14%
Interlaminar Shear Strength
14%
Bending Strength
13%
Jute Fibre
12%
Flax Fiber
11%
Delamination
11%
Sliding Speed
9%
High Molecular Weight Polyethylene
9%
Molecular Weight
9%
Molecular Mass
9%
Tensiles
8%
Hand Lay-up
7%
Sliding Distance
7%
Strand
7%
Phenol Formaldehyde
7%
Matrix Cracking
7%
Composite Panel
6%
Fiber-Reinforced Composite
6%
Micrograph
6%