Keyphrases
Corona
100%
Polymer Film
100%
Charge Separation
100%
Internal Charge
100%
Partial Discharge
100%
Electromechanical Transducer
100%
Cellular Polymers
100%
Piezoelectric Response
66%
Cellular Film
66%
Film Surface
33%
Potential Coefficients
33%
Sensor Applications
33%
Threshold Voltage
33%
Charging Time
33%
Polymer Materials
33%
Non-porous
33%
Piezoelectric Coefficient
33%
Piezoelectric Film
33%
Physical Effects
33%
Surface Potential
33%
Internal Gases
33%
Orientation Process
33%
Electrical Discharge
33%
Actuator Application
33%
Corona Charging
33%
Charging Voltage
33%
Piezoelectric Polymer
33%
Dipole Orientation
33%
Electromechanical Effects
33%
Charge-dipole Interaction
33%
Cellular Polypropylene
33%
Electroluminescence
33%
Gas-filled
33%
Porous Polymers
33%
INIS
polymers
100%
charges
100%
films
100%
transducers
100%
piezoelectricity
62%
thickness
25%
voltage
25%
porous materials
25%
comparative evaluations
12%
surfaces
12%
applications
12%
sensors
12%
gases
12%
actuators
12%
orientation
12%
polypropylene
12%
dipoles
12%
electroluminescence
12%
electric discharges
12%
surface potential
12%
Engineering
Piezoelectric
100%
Electromechanical Transducer
100%
Internals
100%
Film Surface
33%
Charging Time
33%
Polymer Material
33%
Potential Coefficient
33%
Charging Voltage
33%
Electrical Discharge
33%
Piezoelectric Polymer
33%
Piezoelectric Coefficient
33%
Surface Potential
33%
Material Science
Polymer Films
100%
Film
100%
Piezoelectricity
83%
Polypropylene
16%
Actuator
16%
Electroluminescence
16%