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TY  - BOOK
ID  - 146209447
TI  - Polymer Composites for Electrical and Electronic Engineering Application
PY  - 2022
PB  - Basel MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Technology: general issues
KW  - History of engineering & technology
KW  - Materials science
KW  - aramid nanofiber
KW  - hydrogen bonds
KW  - electric breakdown strength
KW  - mechanical strength
KW  - alumina nanoplates
KW  - SiC crystal form
KW  - micro-nano compound
KW  - thermal conductivity
KW  - breakdown field strength
KW  - space charge
KW  - polyimide polymer
KW  - unipolar electrical stress
KW  - temperature
KW  - frequency
KW  - surface streamer discharge
KW  - silicone rubber coating
KW  - three-electrode arrangement
KW  - thermally stimulated current method
KW  - surface properties
KW  - dielectric elastomer
KW  - intrinsic property
KW  - energy harvesting
KW  - epoxy resins
KW  - Langmuir
KW  - terahertz
KW  - molecular simulation
KW  - prediction
KW  - epoxy resin
KW  - partial discharge
KW  - active product
KW  - electro-thermal dissociation
KW  - reactive molecular dynamics
KW  - polyimide
KW  - graphitic carbon nitride nanosheets
KW  - polydopamine
KW  - interfacial interaction
KW  - breakdown strength
KW  - molecular dynamics simulation
KW  - damping performance
KW  - nitrile-butadiene rubber
KW  - graphene oxide
KW  - antioxidant 4010NA
KW  - droplet vibration
KW  - high voltage insulator
KW  - polymeric surface
KW  - corona discharge
KW  - arcing
KW  - creepage distance
KW  - streamer discharge
KW  - curved profiles
KW  - streamer propagation “stability” field
KW  - streamer propagation path
KW  - streamer propagation velocity
KW  - Eucommia ulmoides gum
KW  - carbon nanotubes
KW  - graphene
KW  - electromagnetic shielding
KW  - honeycomb sandwich composites
KW  - metamaterial
KW  - radar stealth
KW  - microwave absorbing material
KW  - low frequency
KW  - aramid nanofiber
KW  - hydrogen bonds
KW  - electric breakdown strength
KW  - mechanical strength
KW  - alumina nanoplates
KW  - SiC crystal form
KW  - micro-nano compound
KW  - thermal conductivity
KW  - breakdown field strength
KW  - space charge
KW  - polyimide polymer
KW  - unipolar electrical stress
KW  - temperature
KW  - frequency
KW  - surface streamer discharge
KW  - silicone rubber coating
KW  - three-electrode arrangement
KW  - thermally stimulated current method
KW  - surface properties
KW  - dielectric elastomer
KW  - intrinsic property
KW  - energy harvesting
KW  - epoxy resins
KW  - Langmuir
KW  - terahertz
KW  - molecular simulation
KW  - prediction
KW  - epoxy resin
KW  - partial discharge
KW  - active product
KW  - electro-thermal dissociation
KW  - reactive molecular dynamics
KW  - polyimide
KW  - graphitic carbon nitride nanosheets
KW  - polydopamine
KW  - interfacial interaction
KW  - breakdown strength
KW  - molecular dynamics simulation
KW  - damping performance
KW  - nitrile-butadiene rubber
KW  - graphene oxide
KW  - antioxidant 4010NA
KW  - droplet vibration
KW  - high voltage insulator
KW  - polymeric surface
KW  - corona discharge
KW  - arcing
KW  - creepage distance
KW  - streamer discharge
KW  - curved profiles
KW  - streamer propagation “stability” field
KW  - streamer propagation path
KW  - streamer propagation velocity
KW  - Eucommia ulmoides gum
KW  - carbon nanotubes
KW  - graphene
KW  - electromagnetic shielding
KW  - honeycomb sandwich composites
KW  - metamaterial
KW  - radar stealth
KW  - microwave absorbing material
KW  - low frequency
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:146209447
AB  - Polymer composite materials have attracted great interest for the development of electrical and electronic engineering and technology, and have been widely applied in electrical power systems, electrical insulation equipment, electrical and electronic devices, etc. Due to the significant expansion in the use of newly developed polymer composite materials, it is necessary to understand and accurately describe the relationship between composite structure and material properties, as only based on thorough laboratory characterization is it possible to estimate the properties for their future commercial applications. This book focuses on polymer composites applied in the field of electrical and electronic equipment, including but not limited to synthesis and preparation of new polymeric materials, structure–properties relationship of polymer composites, evaluation of materials application, simulation and modelling of material performance.
ER  -