Keyphrases
Biaxially Oriented Polypropylene
100%
Dielectric Characterization
100%
Polypropylene Insulation
100%
Dielectric Materials
18%
High Energy Density
18%
Testing Procedures
18%
Breakdown Voltage
18%
Dielectric Properties
18%
Oriented Thin Films
18%
Material Behavior
9%
Temperature Range
9%
Self-healing Property
9%
Repeatability
9%
Error Sources
9%
Humidity
9%
Polymer Properties
9%
Possible Sources
9%
Dielectric
9%
Energy Density
9%
Material Characteristics
9%
Capacitors
9%
Permittivity
9%
Sample Preparation
9%
Dielectric Thin Films
9%
Aging
9%
Uncertainty Sources
9%
Physical Condition
9%
Temperature Test
9%
Material Composition
9%
Recent Advancements
9%
Dielectric Film
9%
Dielectric Behavior
9%
Polymer Materials
9%
Metallized
9%
Moisture Effect
9%
Moisture Absorption
9%
Thermoelectric Properties
9%
Ambient Humidity
9%
High Voltage Insulation
9%
Thermomechanical Properties
9%
Dielectric Spectroscopy
9%
Low Dielectric Loss
9%
Dielectric Insulation
9%
Dielectric Response
9%
High Energy Density Capacitor
9%
High Voltage Application
9%
Continuous Application
9%
Polypropylene Dielectric
9%
Thin Film Polymer
9%
Tempera-ture
9%
Voltage Endurance
9%
Physical Potential
9%
Microcomposites
9%
Thin Film Properties
9%
Polymer Insulation
9%
Material Science
Polypropylene
100%
Dielectric Material
100%
Thin Films
72%
Nanocomposite
54%
Capacitor
18%
Dielectric Property
18%
High Energy Density
18%
Dielectric Spectroscopy
9%
Composite Material
9%
Permittivity
9%
Energy Density
9%
Dielectric Films
9%
Phase Composition
9%