Институт новых материалов и технологий

  • Мира, 28

    620002 Екатеринбург

    Российская Федерация

Отпечаток Отпечаток основан на индексе взвешенных терминов, извлеченных из документов, связанных с сотрудниками подразделения, и определяет ключевые темы подразделения.

Технические дисциплины и материаловедение

Steel
Temperature
Copper
Pipe
Furnaces
Titanium alloys
Metals
Heating
Blast furnaces
Phase composition
Heat treatment
Chemical analysis
Slags
Cooling
Quenching
Processing
Phase transitions
Titanium
Mechanical properties
Refractory materials
Austenite
Plastic deformation
Smelting
Nickel
Microstructure
Melting
Leaching
Rolling mills
Iron
Aluminum
Ores
Bearings (structural)
Hardening
Gases
Carbon
Liquids
Textures
Air
Zinc
Martensite
Casting
Wire
Raw materials
Hardness
Wear of materials
Chromium
Iron ores
Linings
Oxygen
Metallurgy
Austenitic steel
Crystallization
Annealing
Coatings
Oxides
Friction
Mathematical models
Kinetics
Ingots
Computer simulation
Aging of materials
Defects
Glass
Hot rolling
Viscosity
Nonferrous metals
Bronze
Martensitic transformations
Corrosion
Alloying
Electrolysis
Flotation
Molten materials
Sintering
Industry
Alumina
Brass
Copper alloys
Hot Temperature
Cold rolling
Heat transfer
Physical properties
X rays
Machining
Concretes
Microhardness
Excavators
Intermetallics
Autoclaves
Steel pipe
Zirconium
Continuous casting
Solid solutions
Aluminum alloys
Glass furnaces
Welds
Refractory alloys
Ions
Stamping
Nanocrystalline alloys

Химические соединения

Steel
Temperature
Copper
Metals
Phase composition
Furnaces
Heating
Heat treatment
Titanium alloys
Chemical analysis
Pipe
Blast furnaces
Cooling
Nickel
Slags
Phase transitions
Aluminum Oxide
Quenching
Titanium
Graphite
Refractory materials
Leaching
Aluminum
Mechanical properties
Carbon
Iron
Gases
Processing
Plastic deformation
Microstructure
Zinc
Ores
Crystallization
Smelting
Melting
Raw materials
Liquids
Hardening
Textures
Oxygen
Air
Kinetics
Oxides
Iron ores
Annealing
Powders
Chromium
Martensitic transformations
Metallurgy
Linings
Electrolysis
Molten materials
Flotation
Viscosity
Bearings (structural)
Hardness
Aging of materials
Ions
X rays
Sintering
Coatings
Glass
Alloying
Water
Rolling mills
Microhardness
Electrolytes
Nonferrous metals
Autoclaves
Refractory alloys
Heat transfer
Hot rolling
Ingots
Defects
Sulfides
Friction
Mathematical models
Decomposition
Composite materials
Blow molding
Cold rolling
Hot Temperature
Casting
Wire
Nanocrystalline alloys
Oxidation
Physical properties
Silicates
Solid solutions
Single crystals
Wear of materials
Corrosion
Hydrogen
Shape memory effect
Magnetic properties
Steel pipe
Glass furnaces
Coke
Dissolution
Intermetallics

Физика и астрономия

General

steels
titanium alloys
microstructure
leaching
metals
quenching
hardening
plastic deformation
austenite
products
martensite
cooling
billets
flotation
casts
textures
minerals
slags
surface layers
liquid alloys
smelting
brasses
autoclaves
lasers
corrosion
alloying
transition metals
diagrams
square wells
forecasting
chemical composition
blasts
converters
aluminum alloys
blanks
tubes
nickel alloys
pressing
shear
scanning electron microscopy
grade
torsion
iron ores
entropy
self organizing systems
decomposition
kriging
copper alloys

Chemistry and Materials

copper
mechanical properties
titanium
nickel
zinc
crystallization
microhardness
aluminum
iron
wire
hardness
oxygen
solid solutions
chromium
liquids
air
intermetallics
carbon
gases
refractories
glass
composite materials

Engineering

phase transformations
heat treatment
furnaces
heating
melting
martensitic transformation
coatings
annealing
manufacturing
x rays
ingots
electrical resistivity
cold rolling

Physics

temperature
heat
electrons
diffraction
viscosity
ions
coefficients