Engineering & Materials Science
Composite materials
100%
Laminates
50%
Delamination
48%
Structural health monitoring
32%
Composite structures
28%
Fatigue of materials
28%
Carbon nanotubes
28%
Nanocomposites
24%
Damage detection
23%
Polymer matrix composites
23%
Sensors
22%
Guided electromagnetic wave propagation
22%
Micromechanics
21%
Cracks
21%
Polymers
20%
Actuators
19%
Piezoelectric actuators
18%
Fatigue damage
18%
Aerodynamics
17%
Fibers
17%
Molecular dynamics
16%
Ceramic matrix composites
15%
Laminated composites
14%
Aircraft
14%
Rotors
13%
Strain rate
13%
Characterization (materials science)
13%
Epoxy resins
12%
Buckling
12%
Carbon fibers
12%
Crack propagation
12%
Surface waves
12%
Temperature
11%
Wave propagation
11%
Multiobjective optimization
11%
Polymer matrix
11%
Thermosets
10%
Fatigue crack propagation
10%
Decomposition
10%
Physics
9%
Shear deformation
9%
Piezoelectric transducers
9%
Damping
9%
Anthracene
8%
Ultrasonics
8%
Boundary conditions
8%
Dynamic response
8%
Mechanical properties
8%
Turbomachine blades
8%
Shear stress
8%
Chemical Compounds
Composite Material
52%
Strain
26%
Reinforced Plastic
21%
Delamination
20%
Simulation
18%
Wave
18%
Plate Like Crystal
18%
Carbon Nanotube
15%
Surface Wave
15%
Shear
13%
Length
11%
Displacement
11%
Nanocomposite
10%
Fiber
9%
Crack Propagation
9%
Carbon Fiber
9%
Molecular Dynamics
7%
Tension
7%
Volume
7%
Epoxy Resin
7%
Ceramic
6%
Microstructure
6%
Crack Initiation
6%
Surface
5%
Shear Stress
5%
Fiber-Reinforced Composite
5%
Application
5%
Decomposition
5%
Mathematics
Damage
30%
Composite
14%
Blade
11%
Delamination
11%
Composite Plates
10%
Damage Detection
10%
Sensor
10%
Structural Health Monitoring
9%
Sensing
9%
Fatigue Damage
8%
Rotor
8%
Design
8%
Piezoelectric
7%
Optimization
7%
Aerodynamics
7%
Guided Waves
7%
Lamb Waves
7%
Fatigue
6%
Fatigue Crack
6%
Composite Structures
6%
Composite Laminates
6%
Nanocomposites
6%
High Speed
5%
Actuator
5%
Crack
5%
Carbon Nanotubes
5%
Modeling
5%