Engineering & Materials Science
Magnetic properties
87%
Heat problems
48%
Niobium
45%
Induction heating
44%
Tempering
40%
Refractory materials
39%
Tungsten
38%
Temperature
38%
Cryogenics
37%
Heating
32%
Data structures
29%
Machining
28%
Ferromagnetic materials
25%
Steel
23%
Ball bearings
22%
Quality control
20%
Surface properties
20%
Product development
18%
Computational efficiency
17%
Skin
15%
Large scale systems
15%
Analytical models
15%
Temperature distribution
14%
Curie temperature
14%
Heat treatment
12%
Heat transfer
12%
Specifications
11%
Set theory
11%
Hardness
11%
Finite element method
11%
Geometry
10%
Cooling
10%
Computer simulation
9%
Electric properties
9%
X ray diffraction analysis
9%
Refractory metals
7%
Microscopic examination
7%
Energy resources
7%
Microhardness
7%
Vacuum furnaces
6%
Characterization (materials science)
6%
Machinability
6%
Alloying elements
5%
Scanning
5%
Superalloys
5%
Electromagnetic simulation
5%
Lasers
5%
Physics & Astronomy
induction heating
100%
carbon fibers
38%
machining
32%
high speed
27%
wire
26%
cooling
24%
characterization
19%
tubes
19%
heating
18%
carbon fiber reinforced plastics
15%
fiber composites
13%
induction
10%
heat resistant alloys
10%
infiltration
10%
engine design
8%
insulation
8%
electrical resistivity
7%
thermal conductivity
7%
fatigue life
6%
electromagnetism
6%
current density
6%
copper
6%
machinery
6%
gas turbines
6%
turbines
5%
surface defects
5%
engines
5%
Mathematics
Induction Heating
61%
Magnetic Properties
58%
Simulation
45%
Experimental Validation
15%
Analytical Modeling
14%
Ferromagnetic Materials
14%
Coil
12%
Analytical Model
12%
Curved Surface
11%
Skin
11%
High Efficiency
10%
Computational Efficiency
9%
Complex Systems
9%
Dependent
8%
Software
8%
Finite Element Method
7%
Model
7%
Prediction
7%
Ball
7%
Finite Element
7%
Curvature
7%
Numerical Simulation
6%
Multiphysics
6%
Furnace
6%
Strategy
6%
Design Methodology
5%
Parametric Representation
5%
Computing
5%
Heating
5%
Interval
5%
