Engineering
Rotors
100%
Magnetic Bearing
100%
Eccentricity
100%
Neodymium
50%
Models
37%
Bearing System
25%
Cylinder
25%
Experimental Investigation
12%
Amplitudes
12%
Phase Shift
12%
Magnetic Fields
12%
Stabilisation
12%
Imbalance
12%
Dynamic Response
12%
Theoretical Investigation
12%
Frequency Response
12%
Rigid Rotors
12%
Magnetic Force
12%
Static Response
12%
Bearing Housing
12%
Gyroscopic Effect
12%
Elastic Beam
12%
Design
12%
Experiments
12%
Validation
12%
Mountings
12%
Foundations
12%
Harmonics
12%
Requirements
12%
Motors
12%
Housing
12%
Nonlinear System
12%
Balancing
12%
Earth and Planetary Sciences
Eccentricity
100%
Shaft
50%
Magnet
37%
Stiffness
37%
Model
37%
Neodymium
25%
Investigation
25%
Set
25%
Housing
25%
Stabilization
12%
Magnetic Field
12%
Damping
12%
Friction
12%
Dynamic Response
12%
Phase Shift
12%
Mounting
12%
Magnetization
12%
Frequency Response
12%
Harmonics
12%
Static Response
12%
Order
12%
Balancing
12%
Proving
12%
Stable
12%
Foci
12%
Show
12%
Comparison
12%
Distance
12%
Experiment
12%
Requirement
12%
Amplitude
12%
Motor
12%
Foundation
12%
Physics
Eccentricity
100%
Magnets
37%
Theoretical Model
25%
Neodymium
25%
Work
25%
Amplitudes
12%
Friction
12%
Magnetic Fields
12%
Magnetization
12%
Dynamic Response
12%
Phase Angle
12%
Harmonics
12%
Foci
12%
Model
12%
Responses
12%
Frequencies
12%
Statics
12%
Distance
12%
Yaw
12%
Motors
12%
Stabilization
12%
Material Science
Magnetic Bearing
100%
Bearing
75%
Shaft
50%
Stiffness
37%
Magnet
37%
Friction
25%
Beam
12%