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Effects of electrical conductivity on poling of ferroelectric composites
Kin Wing Kwok
, S. T. Lau
, C. K. Wong
, F. G. Shin
Department of Applied Physics
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
13
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Citations (Scopus)
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Keyphrases
Electrical Conductivity
100%
Ferroelectric Composites
100%
Polymer Matrix
66%
AC Field
66%
Interfacial Charge
66%
Polyurethane
33%
Relaxation Time
33%
Poling Time
33%
Remanent Polarization
33%
Ceramic Phase
33%
Increasing Trends
33%
Ceramic Particles
33%
Lead Zirconate Titanate Ceramic
33%
High Electric Field
33%
Space Charge
33%
High Conductivity
33%
Poling Process
33%
Conducting Polymer
33%
Poling Field
33%
Ferroelectric Polymer
33%
Matrix-particle Interface
33%
Polyethylene
33%
Crucial Parameters
33%
Poling Efficiency
33%
Aligned Dipoles
33%
Engineering
Experimental Result
100%
Polymer Matrix
100%
Electrical Conductivity
100%
Polyurethan
50%
High Electric Field
50%
Matrix Interface
50%
Ceramic Particle
50%
Titanate
50%
Ferroelectric Polymers
50%
Lead Zirconate
50%
Space Charge
50%
Relaxation Time
50%
Material Science
Composite Material
100%
Ferroelectric Material
100%
Electrical Conductivity
100%
Polymer Matrix
40%
Polyurethane
20%
Polyethylene
20%
Lead Zirconate Titanate Ceramics
20%