INIS
fibers
100%
damage
69%
hybrids
41%
plates
28%
comparative evaluations
25%
fatigue
25%
fiberglass
24%
solutions
22%
applications
21%
investigations
21%
space
20%
fourier transformation
20%
layers
20%
velocity
19%
wave propagation
17%
finite element method
16%
surfaces
15%
cryogenics
15%
thickness
14%
computed tomography
13%
glass
13%
foams
13%
energy levels
12%
variations
12%
modeling
12%
excitation
12%
orientation
11%
incidents
10%
energy
10%
configuration
10%
cooling
10%
esters
9%
metals
9%
performance
9%
loading
8%
density
8%
epoxides
8%
residues
7%
symmetry
7%
capture
7%
wave equations
7%
impact tests
7%
drilling
6%
skin
6%
hybridization
6%
carbon fibers
6%
interfaces
5%
reduction
5%
failures
5%
x radiation
5%
Engineering
Composite
30%
Natural Fibre
29%
Layerwise
25%
Fibre-Reinforced Composite
22%
Delamination
21%
Impact Damage
20%
Hybrid Composite
19%
Low Velocity
19%
Guided Wave Propagation
17%
Natural Fibre Composite
16%
Properties
16%
Flax Fiber
16%
Sandwich Structures
15%
Guided Wave
15%
Thickness
14%
Energy Level
12%
Displacement Component
12%
Discrete Fourier Transform
12%
Induced Surface
12%
Assuming
12%
Fiber Orientation
11%
Hybrid
11%
Characteristics
10%
Two Dimensional
10%
Experimental Result
10%
Damage Mechanism
9%
Impact Resistance
9%
Flexure
8%
Incident Energy
8%
Lamination
8%
Damage Tolerance
7%
Cauchy's Residue Theorem
7%
Inverse Fourier Transform
7%
Robust Solution
7%
Laminated Composite Plate
7%
Transient Analysis
7%
Impact Test
7%
Cryogenic Cooling
6%
Dynamic Loads
6%
Fibre Metal Laminate
6%
Fiber
5%
Reduction
5%
Energy Engineering
5%
Drilling
5%
Infinite Plate
5%
Material System
5%
Aerospace Applications
5%
Dimensional Space
5%
Damage Mode
5%
Analytical Result
5%
Material Science
Flax
36%
Composite Laminate
18%
Semi-Analytical Method
15%
Glass
13%
Fiber Reinforced Material
11%
Tomography
11%
Finite Element Methods
10%
Material
10%
Impact Loads
10%
Laminated Composite
10%
Impact Resistance
9%
Synthetic Fiber
8%
Fiber
8%
Laminate
8%
Glass-Fiber Reinforced Plastic
8%
Foam Material
6%
Skin
6%
Toughness
6%
Fatigue of Materials
6%
Carbon Fiber
6%
Aluminum
6%
Ultimate Tensile Strength
6%
Finite Element Modeling
5%
