Engineering & Materials Science
Thermal stress
100%
Energy harvesting
92%
Functionally graded materials
68%
Controllers
64%
Temperature
57%
Thermoelasticity
54%
Flaps
49%
Aerodynamics
46%
Engines
46%
Heat conduction
44%
Pipe
43%
Aeroacoustics
38%
MATLAB
38%
Materials properties
36%
Riccati equations
35%
Airfoils
35%
Damping
35%
Stress concentration
32%
Aerodynamic loads
32%
Drag coefficient
32%
Solar collectors
32%
Circular cylinders
31%
Temperature distribution
31%
Acoustic noise
31%
Exergy
30%
Biodiesel
30%
Ceramics industry
29%
Conceptual design
29%
Mirrors
29%
Ethanol
28%
Mechanical properties
27%
Motion planning
27%
Thermodynamic properties
26%
Finite element method
26%
Volume fraction
25%
Numerical analysis
24%
Kalman filters
24%
Loaders
23%
Composition effects
23%
Welding
23%
Transient analysis
23%
Equations of motion
21%
Hot Temperature
20%
Electric potential
19%
Tires
19%
Piezoelectric materials
18%
Geometry
17%
Composite materials
16%
Wheels
14%
Mathematics
Flutter
79%
Energy Harvesting
51%
Controller
45%
Morphing
44%
Path Planning
43%
Energy Model
42%
Aerodynamics
41%
Thermal Stress
40%
Piezoelectric
37%
Modeling and Simulation
36%
Airfoil
35%
Riccati Equation
29%
Limit Cycle
26%
Degree of freedom
25%
Composite
25%
Crack Initiation
25%
Optimal Control
23%
Oscillation
22%
Piezoelectric Material
22%
Composite Plates
21%
Nonlinearity
21%
Review
20%
Cycle
20%
Damper
20%
Path
19%
Dependent
19%
Tire
17%
Material Properties
17%
Composite Materials
17%
Implicit Method
15%
Radius
15%
Mechanical Properties
14%
Energy
14%
Heat
13%
Shape Function
13%
Governing equation
13%
Model
12%
Simulation Environment
12%
Model Verification
12%
Kalman Filter
11%
Matlab Simulation
11%
Motion Control
11%
Performance
11%
State Space
10%
Time Domain
10%
Methodology
10%
Lagrange Method
10%
Linear Response
10%
Experimental Study
9%
Compensator
8%
Physics & Astronomy
thermal stresses
60%
vehicles
56%
orthotropic cylinders
54%
flutter analysis
52%
swept wings
43%
lift coefficients
41%
aeroacoustics
36%
drag coefficients
35%
wings
30%
conductive heat transfer
28%
mirrors
20%
optimization
18%
thermoelasticity
18%
composite materials
17%
flutter
17%
temperature
17%
transient response
16%
crack initiation
16%
aircraft
15%
simulation
15%
stress distribution
13%
viscoelastic damping
12%
histories
11%
temperature distribution
11%
relaxation time
11%
high temperature air
10%
heat
9%
aerodynamic forces
8%
energy
8%
performance
7%
predictions
7%
resources
7%
engines
7%
dynamic stability
6%
determinants
5%
costs
5%
