INIS
fibers
100%
jute
58%
applications
55%
performance
43%
investigations
35%
skin
34%
damage
31%
polyethylenes
30%
mechanical properties
29%
velocity
28%
comparative evaluations
27%
layers
25%
polymers
22%
thickness
21%
thermoplastics
20%
packaging
20%
polypropylene
20%
interfaces
19%
molding
16%
hybrids
16%
matrices
16%
density
15%
surfaces
15%
water
14%
stiffness
14%
fracture properties
13%
industry
13%
blending
13%
fiberglass
13%
epoxides
13%
loading
13%
cracking
13%
fatigue
13%
metals
13%
failures
12%
energy levels
11%
wastes
11%
architecture
10%
pva
10%
weight
10%
storage
10%
range
10%
manufacturing
10%
foams
9%
heat
9%
agricultural residues
9%
increasing
9%
prediction
8%
values
8%
elastomers
8%
Material Science
Jute Fiber
58%
Polyethylene
35%
Polypropylene
20%
Ultimate Tensile Strength
18%
Flax
17%
Natural Fibre
16%
Fiber-Reinforced Composite
16%
Scanning Electron Microscopy
15%
Thermogravimetric Analysis
14%
Thermoplastics
14%
Polymer Matrix
13%
Glass Fiber
13%
Differential Scanning Calorimetry
13%
Biocomposites
13%
Compression Molding
12%
Density
11%
Surface (Surface Science)
10%
Composite Laminate
9%
Thermal Property
9%
Elastic Moduli
8%
Medical Device
8%
Composite Material
8%
Impact Loads
8%
Injection Molding
8%
Contact Angle
8%
Fatigue Behavior
7%
Synthetic Polymer
7%
Impact Resistance
7%
Fracture Toughness
7%
Tomography
7%
Poly Vinyl Alcohol
7%
Flexural Strength
6%
Natural Fiber Composite
6%
Mechanical Testing
6%
Thermoplastic Elastomer
6%
Plastic Material
6%
Residual Strength
6%
Epoxy-Based Composite
6%
Fiber Type
6%
Thermoset Composite
6%
Crystallization
6%
Delamination
6%
Fiber Reinforced Metal
6%
Nanofiber
6%
Morphology
6%
Fiber Spinning
6%
Thermal Conductivity
6%
Polyester
6%
Polymer Blend
6%
Finite Element Methods
6%
Engineering
Sandwich Structures
28%
Fracture Property
19%
Jute Fibre
19%
Biocomposite
19%
Composite Structure
17%
Hybrid Composite
16%
Natural Fibre
16%
Flax Fiber
16%
Fiber Preform
15%
Damage Analysis
14%
Fiber-Reinforced Composite
13%
Impact Behavior
13%
Core Thickness
13%
Flexure
13%
Fatigue Property
13%
Epoxy Composite
13%
Composite Fiber
12%
Rotational Moulding
12%
Mechanical Performance
12%
Blending Process
11%
Impact Loads
10%
Impact Force
9%
Impact Response
9%
Impact Strength
8%
Medical Applications
8%
Thermoplastic Composite
8%
Core Material
8%
Core Layer
7%
Fatigue Behavior
7%
Ultimate Tensile Strength
7%
Plastic Deformation
7%
Short Fiber
7%
Delamination
7%
Composite Material
6%
Layer Thickness
6%
Spray Water
6%
Composite Panel
6%
Peak Heat Release Rate
6%
Amorphous Region
6%
Thermal Mechanical Analysis
6%
Fibre Metal Laminate
6%
Environmental Stress Cracking
6%
Irradiance
6%
Seniors
6%
Thermal Performance
6%
Finite Element Analysis
6%
Advanced Manufacturing
6%
Biomass
6%
Elastomer
6%
Design Engineering
6%