Research Center for Technologies in Space Materials Science

Fingerprint The fingerprint is based on mining the text of the research documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit.

Engineering & Materials Science

Permittivity
Insulation
Composite materials
Electric fields
Low density polyethylenes
Electric breakdown
Electric potential
Polymers
Partial discharges
Friction stir welding
Electric space charge
Polarization
Dielectric spectroscopy
Ferroelectric ceramics
Cables
Dielectric relaxation
Service life
Temperature
Polycarbonates
Friction
Microstructure
Linear low density polyethylenes
Needles
Powders
Protons
Metals
Aluminum alloys
Vibrations (mechanical)
Lactic acid
Acoustic emissions
Rubber
Polyethylenes
Synthetic rubber
Proton irradiation
Fillers
Thermodynamic properties
Defects
Polymer films
Electrodes
Electric properties
Carbon fibers
Ignition
Polymethyl methacrylates
Aging of materials
Welds
Melting point
Ultrasonic applications
Printing
Ultrasonics
Acoustics
Boundary layers
Thermal conductivity
Decomposition
Microhardness
Burnishing
Monitoring
Wear of materials
Conductive materials
Dielectric properties
Ultrahigh molecular weight polyethylenes
Prestressing
Stacking faults
Carbon nanotubes
Beam plasma interactions
Brass
Cutting tools
Modal analysis
Hot pressing
Current voltage characteristics
Synchrotron radiation
Biocompatibility
Polytetrafluoroethylenes
Processing
Elastomers
Irradiation
Probability density function
Lattice constants
Carbon steel
Experiments
Lasers
Extrusion
Electron beams
Thermal diffusivity
Diamonds
Mechanical properties
Nanocomposites
Statistical methods
Wheels
Energy conservation
Multilayers
Casting
Fusion reactions
Stainless steel
Microstructural evolution
Electric insulation
Physical properties
Particle size
Nickel
Yield stress
Graphite

Physics & Astronomy

Engineering

friction stir welding
electric current
permittivity
welding
manufacturing
electrical faults
welded joints
milling machines
space charge
carbon nanotubes
dielectric properties
electrical properties
butt joints

Chemistry and Materials

composite materials
polymers
carbon fibers
vinylidene
PEEK
fluorides
microhardness
tensile strength
mechanical properties
copper
nickel fluorides
graphite
insulation
lactic acid
polycarbonates
high strength
polymethyl methacrylate
tungsten carbides
tungsten
elastic properties
copper oxides
nickel
polymer matrix composites
oxides
iron oxides
adhesion
carbon
cementite

Physics

friction
current density
thermal conductivity
temperature
metal powder
acoustics
thermal diffusivity
protons
polarization

General

aluminum alloys
sliding
carbon steels
steels
surface layers
deterioration
breakdown
thermophysical properties
defects
thermodynamic properties
ultrasonics
electric fields
microstructure
tensile tests
ultrasonic processing
stacking fault energy
metals
brasses
composite structures
acoustic emission
metallography
heavy metals
low weight
reinforcement
fillers
fibers
scanning electron microscopy
wear tests
decarburization
tendencies
electrical engineering
magnification

Chemical Compounds

Friction stir welding
Permittivity
Composite materials
Electric breakdown
Polymers
Friction
polycarbonate
Aluminum alloys
Electric fields
Vibrations (mechanical)
Polymethyl Methacrylate
Acoustic emissions
Microstructure
Metals
Dielectric spectroscopy
Defects
Welds
Insulation
Ultrasonic applications
Carbon Nanotubes
Dielectric relaxation
Ultrasonics
Microhardness
Burnishing
Wear of materials
Diamond
Steel
Partial discharges
Stacking faults
Electric properties
Cutting tools
Modal analysis
Polarization
Synchrotron radiation
Nickel
Printing
Biocompatibility
Boundary layers
Dielectric properties
Elastomers
Carbon steel
Aging of materials
Protons
Lasers
Thermal conductivity
Wheels
Electric potential
Thermodynamic properties
Microstructural evolution
Physical properties
Powders
Particle size
Polyethylene
Processing
Monitoring
Cooling