Engineering & Materials Science
Missiles
100%
Hopf bifurcation
96%
Fatigue of materials
79%
Health
64%
Aluminum alloys
62%
Control surfaces
57%
Monitoring
49%
Integrodifferential equations
47%
Aerospace vehicles
45%
Perturbation techniques
43%
Supersonic flow
40%
Crack closure
40%
Hardening
40%
Aerospace applications
38%
Ice
33%
Computer science
32%
Airfoils
32%
Mach number
31%
Air
29%
Plastic deformation
29%
Compliance
28%
Physics
28%
Dynamic response
28%
Nonlinear systems
27%
Accelerometers
25%
Structural integrity
23%
Damage tolerance
22%
Dynamic loads
21%
Aerodynamics
18%
Discrete Fourier transforms
17%
Aircraft
15%
Wind tunnels
12%
Polynomials
12%
Damping
12%
Aerospace industry
12%
Machine learning
12%
Stiffness
11%
Fast Fourier transforms
10%
Service life
10%
Torque
10%
Differential equations
9%
Electromagnetic fields
9%
Taguchi methods
9%
Electric currents
9%
Glazes
9%
Casting
9%
Electric Conductivity
9%
Transmission electron microscopy
8%
Guided missiles
8%
Microhardness
8%
Mathematics
Limit Cycle
61%
Degree of freedom
58%
Aluminum Alloy
53%
Fatigue
53%
Harmonic Balance
50%
Missile
47%
Analytical Approximation
43%
Inverse Method
42%
Pseudo-inverse
41%
Perturbation Technique
39%
Resistance
34%
Nonlinearity
30%
Higher Order Approximation
25%
Approximation
21%
Fatigue Life
20%
Hopf Bifurcation
18%
Time Domain
18%
Roots
16%
Electromagnetic Fields
14%
Discrete Fourier transform
12%
Health Monitoring
12%
Stiffness
12%
Polynomial equation
11%
Crack Initiation
11%
Prediction
11%
Accelerometer
11%
Monitoring System
10%
Dynamic Load
10%
Domain of Attraction
10%
Damping
10%
Analytical Solution
9%
Refinement
9%
Cantilever
9%
Harmonic
9%
Crystal Structure
9%
Discrete Dynamics
8%
Integrity
8%
Oscillation
8%
Integro-differential Equation
8%
Finite Element Model
8%
Experimental Study
8%
Aircraft
8%
Dislocation
8%
Normal Modes
8%
Perturbation
7%
Rearrangement
7%
Simulation
6%
Frequency Domain
6%
Fundamental Frequency
6%
Industry
6%
Physics & Astronomy
control surfaces
46%
supersonic flow
38%
contact resistance
34%
aluminum alloys
30%
heat transfer
25%
nonlinearity
24%
attraction
24%
engineering
18%
Taguchi methods
16%
cycles
16%
fatigue life
14%
aerospace vehicles
13%
flight conditions
12%
boundary conditions
11%
electric current
11%
microhardness
10%
repetition
9%
geometry
9%
pulse duration
8%
predictions
8%
nonlinear systems
8%
Mach number
8%
flight
7%
hardening
7%
indication
7%
estimating
7%
transmission electron microscopy
7%
scanning electron microscopy
7%
electrical resistivity
6%
moments
5%
magnetic fields
5%
thresholds
5%