Технические дисциплины и материаловедение
Magnetic fields
Liquid metals
Reluctance motors
Synchronous motors
Magnetohydrodynamics
Shape optimization
Magnetic cores
Computer simulation
Electrodynamics
Hydrodynamics
Frequency modulation
Continuous casting
Flow of fluids
Pumps
Magnets
Finite element method
Software packages
Titanium
Impurities
Induction motors
Vortex flow
Mathematical models
Heating
Silicon
Liquids
Heat problems
Magnetic materials
Electromagnetic induction
Levitation melting
Temperature
Composite materials
Computer aided engineering
Spatial distribution
Quartz
Melting point
Linings
Electromagnetic fields
Velocity measurement
Turbulent flow
Hot Temperature
Flow control
Multiobjective optimization
Crucibles
Ultrasonics
Reynolds number
Temperature distribution
Power inductors
Modulation
Aluminum
Exothermic reactions
Физика и астрономия
electromagnetism
inductors
stirring
shape optimization
liquid metals
magnetic cores
induction
levitation
finite element method
ingots
hydrodynamics
optimization
titanium
coils
levitation melting
Stokes law
pilot plants
magnetic fields
impurities
pushing
magnetic induction
inserts
crucibles
linings
silicon
power supplies
heating
metals
installing
turbulent flow
magnetic flux
gradients
electromagnetic fields
descent
flux density
simulation
economics
temperature
aluminum
conduction
magnetohydrodynamics
electrical resistivity
quartz
temperature distribution
configurations
liquids
Химические соединения
Magnetic fields
Liquid metals
Magnetohydrodynamics
Magnetic cores
Shape optimization
Silicon
Frequency modulation
Flow of fluids
Titanium
Finite element method
Computer simulation
Impurities
Vortex flow
Hydrodynamics
Quartz
Liquids
Heat problems
Electromagnetic induction
Levitation melting
Temperature
Heating
Aluminum
Spatial distribution
Melting point
Linings
Velocity measurement
Turbulent flow
Multiobjective optimization
Crucibles
Metals
Ultrasonics
Reynolds number
Temperature distribution
Power inductors
Modulation
Multilayers
Economics
Crystallization
Phase shift
