INIS
fibers
100%
skin
60%
polyethylenes
57%
jute
47%
thickness
47%
layers
42%
damage
42%
applications
36%
cracking
31%
failures
31%
fatigue
30%
comparative evaluations
29%
polymers
27%
density
27%
performance
26%
water
26%
velocity
24%
polypropylene
22%
foams
21%
molding
20%
peaks
20%
thermoplastics
20%
hybrids
19%
cross-linking
18%
aluminum
18%
aging
18%
panels
18%
energy levels
17%
range
17%
interfaces
16%
universities
15%
manufacturing
15%
pva
15%
surfaces
15%
elastomers
14%
combustion
13%
industry
13%
investigations
13%
molecular weight
13%
weight
12%
dynamics
11%
increasing
11%
heat
11%
mechanical properties
11%
energy
11%
fiberglass
11%
metals
10%
nanofibers
10%
methanol
10%
stability
10%
Engineering
Sandwich Structures
52%
Properties
42%
Environmental Stress Cracking
29%
Low Velocity
24%
Thickness
21%
Failure (Mechanical)
20%
Fracture Toughness
18%
Energy Level
17%
Applications
17%
Rotational Moulding
14%
Core Thickness
14%
Composite
14%
Combustion
13%
Natural Fibre
13%
Polymer
12%
Composite Structure
12%
Core Material
12%
Fibre-Reinforced Composite
11%
Layer Thickness
11%
Core Layer
11%
Impact Force
10%
Flexure
10%
Impact Response
10%
Low Density Poly-Ethylene
10%
Temperature
9%
Impact Behavior
9%
Testing
9%
Spray Water
9%
Composite Panel
9%
Irradiance
9%
Peak Heat Release Rate
9%
Calcium
9%
Aluminum Alloys
9%
Research
8%
Dynamic Loads
8%
Amorphous Region
8%
Flax Fiber
7%
Acrylonitrile Butadiene Styrene
7%
Impact Damage
7%
Residual Stress
7%
Assembly
7%
Thermal Mechanical Analysis
7%
Fibre Metal Laminate
7%
Damage Mechanism
7%
Impact Energy
7%
Fracture Property
7%
Performance
6%
Density
6%
Plastic Deformation
6%
Foam Core
5%
Material Science
Skin
53%
Jute Fiber
47%
Composite Material
40%
Material
32%
Fiber
30%
Yarn
30%
Polymer
24%
Flax
19%
Thermoplastics
18%
Aluminum
16%
Aluminum Composite
13%
Plastics
12%
Polyethylene
11%
Ultimate Tensile Strength
9%
Medical Device
9%
Mechanical Property
9%
Thermoplastic Elastomer
9%
Plastic Material
9%
Composite Structure
8%
Polypropylene
8%
Glass
8%
Foam Material
7%
Solvent
7%
Bearing
7%
Fatigue of Materials
7%
Amino Acids
7%
Differential Scanning Calorimetry
7%
Impact Loads
6%
Delamination
6%
Stiffness
6%
Temperature
6%
Residual Strength
5%
Bearing Capacity
5%
Foam
5%