Keyphrases
Polypropylene
100%
Silica
100%
TRAP Activity
100%
Silane
100%
Charge Trapping
100%
Nanodielectrics
100%
Thermally Stimulated Depolarization Current
100%
Fumed Silica
100%
Polyolefin Elastomer
100%
Surface Modification
50%
Silica Nanoparticles (SiNPs)
50%
X Ray Diffraction
50%
European Commission
50%
Performance Enhancement
50%
Cable
50%
DC-link Capacitor
50%
DC Cable
50%
Crystallinity
50%
Used Material
50%
Nanosilica
50%
Solution Method
50%
Degree of Crystallinity
50%
Silica Surface
50%
Current Measurement
50%
Capacitor Films
50%
Modifying Agent
50%
Deep Traps
50%
Extruded Insulation
50%
Nanocomposite Materials
50%
Modified Nanosilica
50%
Dielectric Nanocomposites
50%
Low Voltage DC
50%
Silica Modification
50%
Deep Trap States
50%
Charge Trapping Properties
50%
Elastomer Blends
50%
Nanosilica Particles
50%
Nanocomposite Samples
50%
Medium Voltage DC
50%
INIS
solutions
100%
charges
100%
silica
100%
trapping
100%
polypropylene
100%
polyolefins
100%
elastomers
100%
surfaces
42%
nanocomposites
42%
modifications
28%
density
28%
traps
28%
cables
28%
silanes
28%
depolarization
28%
performance
14%
levels
14%
applications
14%
nanoparticles
14%
voltage
14%
films
14%
particles
14%
depth
14%
dielectrics
14%
x-ray diffraction
14%
capacitors
14%
Material Science
Polypropylene
100%
Polyolefin
100%
Charge Trapping
100%
Elastomer
100%
Silicon Dioxide
100%
Nanocomposite
75%
Silane
50%
Thermally Stimulated Depolarization Current
50%
Density
50%
Surface (Surface Science)
50%
Silica Nanoparticle
50%
Capacitor
25%
Film
25%
X-Ray Diffraction
25%
Nanosilica
25%
Surface Treatment
25%
Dielectric Material
25%
Engineering
Elastomer
100%
Polyolefin
100%
Fumed Silica
100%
Silicon Dioxide
100%
Nanocomposites
75%
Silica Nanoparticle
50%
Crystallinity
50%
Modified Surface
25%
Current Measurement
25%
Solution Method
25%
Ray Diffraction
25%
Dielectrics
25%
Nano Silica
25%
Chemical Engineering
Polypropylene
100%
Silane
100%
Polyolefin
100%
Elastomer
100%
Electric Current Measurement
50%
Nanoparticle
50%
Film
50%