Исследовательская лаборатория механики перспективных массивных наноматериалов для инновационных инженерных приложений

Отпечаток Узнайте самые подробные результаты анализа активности Исследовательская лаборатория механики перспективных массивных наноматериалов для инновационных инженерных приложений. Указанные в этом разделе метки относятся к действиям этих участников организации. Вместе они формируют уникальную картину их активности.

Технические дисциплины и материаловедение

Torsional stress
Plastic deformation
Grain boundaries
Microstructure
Mechanical properties
Equal channel angular pressing
Aluminum alloys
Processing
Temperature
Annealing
Grain boundary sliding
Ductility
Strain rate
Cracks
Nanostructured materials
Shear bands
Aging of materials
Metals
Metallic glass
Grain refinement
Dislocations (crystals)
Microhardness
Graphene
Yield stress
Composite materials
Fatigue of materials
Nanocrystalline materials
Strengthening (metal)
Strength of materials
Shape memory effect
Precipitates
Hardening
Aluminum
Nanostructures
Nanocrystalline alloys
Transmission electron microscopy
Steel
Amorphous alloys
Martensitic transformations
Nucleation
Crystal microstructure
Heat treatment
Titanium alloys
Tensile strength
Explosive welding
Atoms
Erosion
Superplasticity
Hardness
Solid solutions
Electric properties
Titanium
Copper
Twinning
Stainless steel
Austenitic stainless steel
Irradiation
Crack propagation
Extrusion
Scanning electron microscopy
Nanocomposites
Corrosion resistance
Tomography
Elongation
Stacking faults
Plastics
Phase transitions
Powder metallurgy
Cold rolling
Dynamic recrystallization
Defects
Micromechanics
Thermomechanical treatment

Химические соединения

Torsional stress
Plastic deformation
Grain boundaries
Microstructure
Mechanical properties
Aluminum alloys
Equal channel angular pressing
Processing
Temperature
Annealing
Grain boundary sliding
Metals
Ductility
Graphite
Ultrafine
Steel
Strain rate
Aluminum
Shear bands
Metallic glass
Microhardness
Aging of materials
Composite materials
Cracks
Dislocations (crystals)
Nanostructured materials
Nanostructures
Grain refinement
Yield stress
Shape memory effect
Nanocrystalline alloys
Amorphous alloys
Martensitic transformations
Hardening
Strength of materials
Precipitates
Stainless Steel
Crystal microstructure
Transmission electron microscopy
Heat treatment
Explosive welding
Superplasticity
Atoms
Fatigue of materials
Solid solutions
Copper
Hardness
Nanocrystalline materials
Electric properties
Twinning
Erosion
Austenitic stainless steel
Tensile strength
Titanium alloys
Corrosion resistance
Elongation
Crack propagation
Irradiation
Nucleation
Extrusion
Scanning electron microscopy
Stacking faults
Nanocomposites
Tomography
Phase transitions
Powder metallurgy
Thermomechanical treatment
asphalt
Dynamic recrystallization
Plasticity
Oxides

Физика и астрономия

General

plastic deformation
torsion
grain boundaries
aluminum alloys
pressing
microstructure
grain size
cracks
metals
sliding
steels
hardening
transmission electron microscopy
plastics
shear
stainless steels
titanium alloys
elongation
erosion
powder metallurgy
grade
micromechanics
solutes

Chemistry and Materials

mechanical properties
high strength
ductility
superplasticity
metallic glasses
microhardness
composite materials
tensile strength
aluminum
hardness
twinning
ceramics
yield strength
fracture strength
yttria-stabilized zirconia
plastic properties
nanocomposites
titanium
oxidation resistance

Physics

strain rate
room temperature
temperature
diffraction

Engineering

annealing
graphene
nucleation
heat treatment
cold rolling
martensitic transformation
critical loading
crack tips
electrical resistivity