Engineering
Rotors
100%
Permanent Magnet
61%
Permanent Magnet Synchronous Motor
47%
Temperature Field
40%
Finite Element Method
38%
Induction Motor
36%
Temperature Distribution
34%
Electrical Machine
34%
Power Density
26%
Thermal Performance
26%
Thermal Fluid
20%
Eddy Current Loss
18%
Cooling System
17%
Electromagnetic Transient
16%
Harmonics
16%
Heat Pipes
15%
Generation System
14%
Ventilation System
14%
Based Design Optimization
14%
Two Dimensional
12%
Flux Density
11%
Distributed Power Generation
11%
Mathematical Model
11%
Transients
11%
Motor Drive
10%
Electric Vehicle
10%
Electric Machine
10%
Traction Motors
10%
Heat Source
10%
Copper Loss
9%
Thermal Field
9%
Integrated Control
9%
Turbine Generator
9%
Simulation Result
8%
Electromagnetic Analysis
8%
Flowing Fluid
8%
Cooling Air
8%
Temperature Rise
7%
Micro Turbine
7%
Design Optimization
7%
Thermal Conductivity
7%
Inclination Angle
7%
Synchronous Machine
6%
Metro
6%
Ant Colony Optimization
6%
Circuit Faults
6%
Thermal Barrier
6%
Synchronous Motor
6%
Energy Conservation
6%
Common Mode Voltage
6%
Keyphrases
Rotor
38%
Temperature Field
33%
Permanent Magnetic
31%
Magnetic Generator
31%
Electrical Machines
28%
PM Generator
27%
Induction Motor
27%
Permanent Magnet Synchronous Motor
26%
High-speed Permanent Magnet Generator
26%
Temperature Distribution
25%
Electromagnetic Field
25%
Eddy Current Loss
23%
Design Optimization
19%
Thermal Performance
19%
Solid Rotor
19%
Cage Rotor
18%
Stator
17%
Heat pipe
15%
Thermal Analysis
15%
High Power Density
14%
Rotor-permanent Magnet
13%
Permanent Magnet Linear Synchronous Motor (PMLSM)
13%
Rotor Sleeve
13%
Loss Distribution
13%
Heat Transfer
12%
Cooling System
12%
Distributed Generation System
11%
Fluid-solid Coupling
11%
Finite Element Method
11%
Thermal Optimization
11%
Air-cooled
11%
Electromagnetic Performance
11%
Permanent Magnet
11%
Coupling Analysis
10%
Electric Vehicle
10%
High-temperature Superconductivity
9%
Rotor Structure
9%
Transient Electromagnetic Field
9%
Loss Calculation
9%
High Efficiency
9%
Generator System
9%
Hybrid Ventilation
9%
Numerical Analysis
9%
Motor Drives
9%
AC Loss
9%
System Level
9%
Electric Machines
9%
Operating Performance
8%
Motor Performance
8%
Temperature Rise
8%