Engineering & Materials Science
Superconducting fault current limiters
100%
Fault current limiters
60%
Electric power systems
48%
Short circuit currents
47%
Limiters
40%
Routers
32%
Finite element method
30%
Tapes
27%
Superconductivity
26%
Topology
20%
Energy storage
20%
Energy management systems
19%
Biomedical equipment
18%
Superconducting coils
17%
Health
16%
Big data
15%
Iron
15%
Artificial intelligence
15%
Sensor networks
14%
Electrodynamics
14%
Education
14%
Particle swarm optimization (PSO)
14%
Electric potential
14%
Temperature
13%
Personnel
13%
Students
12%
Renewable energy resources
12%
Critical currents
12%
Superconducting tapes
12%
Power (Psychology)
11%
Energy resources
11%
Reactive power
10%
Curricula
8%
Modulation
8%
Recommender systems
8%
Pulse modulation
8%
Physical therapy
8%
Interoperability
8%
Monitoring
8%
Muscle
8%
Electric power distribution
7%
Teaching
7%
Punching
7%
Electromagnetic induction
7%
Power transformers
6%
Power management
6%
Geometry
6%
Ferromagnetic materials
5%
Strain gages
5%
Distributed power generation
5%
Physics & Astronomy
transformers
40%
grids
35%
coils
33%
tapes
32%
short circuits
29%
optimization
29%
artificial intelligence
24%
finite element method
23%
methodology
23%
design optimization
21%
structural influence coefficients
20%
high temperature superconductors
20%
low resistance
19%
critical current
18%
health
18%
viability
15%
superconductivity
14%
prototypes
12%
electromagnetism
12%
line current
12%
iron
12%
magnetic properties
12%
magnetic shielding
11%
sensors
10%
void ratio
9%
muscles
9%
electrodynamics
8%
manufacturing
8%
copper
8%
current distribution
7%
industries
7%
performance
6%
economics
6%
engineers
5%
adjusting
5%
renewable energy
5%
ratings
5%
geometry
5%
magnetic induction
5%
alternating current
5%
computer programs
5%
Chemistry
Short Circuit
50%
Coil
49%
Electromagnetic Force
32%
Cutting Process
28%
Superconductivity
20%
Punching
18%
Electrodynamics
17%
Volume
16%
Ferromagnetic Material
13%
Error
12%
Force
11%
Shape
11%
Application
10%
Magnetic Induction
9%
Simulation
9%
Voltage
8%
Contact Resistance
7%
Delamination
6%
Superconductor
6%
Weight
6%
Conductor
5%
