Polymer-Based Flexible Materials

Compared to traditional flexible materials, such as metal-based, ceramic-based, and glass-based materials, polymer-based flexible materials have various advantages including low density, easy processing, excellent flexibility, and good environmental stability. Over the past few decades, polymer-base...

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स्वरूप: Online
भाषा:अंग्रेज़ी
प्रकाशित: MDPI - Multidisciplinary Digital Publishing Institute 2024
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ऑनलाइन पहुंच:ONIX_20240704_9783725811663_56
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_version_ 1869515311850455040
collection Directory of Open Access Books
description Compared to traditional flexible materials, such as metal-based, ceramic-based, and glass-based materials, polymer-based flexible materials have various advantages including low density, easy processing, excellent flexibility, and good environmental stability. Over the past few decades, polymer-based flexible materials have received significant attention due to the rapid development of the electronic industry, medical treatment, health, and other fields. For instance, flexible electronic technology shows great potential for reshaping the lives of human beings, but the bottleneck of flexible electronic technology is the availability of flexible substrates or flexible conductive materials, which can be resolved by modifying or doping polymer-based flexible materials. Moreover, it is possible to synthesize new polymer-based flexible materials or modify them for different purposes to endow them with corresponding functionality. This reprint presents a collection of research papers, communications, and review articles on the latest advances in the fields of synthesis, characterization, and the application of polymer-based flexible materials. The fields that will be discussed include: synthesis (organic elastomers, conductive polymers, and flexible organic networks); structural characterization; modeling; and applications (i.e., sensor, energy harvesting, energy storage, electromagnetic shielding, and biomedical).
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language eng
publishDate 2024
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1392602024-07-04T09:33:21Z Polymer-Based Flexible Materials Xu, Jiangtao Zhang, Sihang composite propellant thermal damage treatment thermal weight loss interaction combustion characteristics shear thickening fluid silicone rubber microcapsule impact resistance behavior pressure sensor porous hydrogels natural polymer phase change microcapsules infrared camouflage emissivity intelligent temperature regulation textile composites hyperelastic polymeric materials constitutive model strain energy density function parameter identification flexible capacitance pressure sensor gradient micro-structure polymer barium titanate laser engraving thermoelectric fiber conductive polymer smart textile temperature sensor PEDOT:PSS Fe3O4 GO composite film supercapacitor thermoelectric three-dimensional printing CFRTPCs FDM process parameters mechanical properties electron irradiation high and low temperature polyimide film mechanical property rosin flexible chain film property bio-based epoxy curing agent epoxy vitrimer glass transition temperature epoxy resin E51 phthalic anhydride sebacic acid flexible capacitive pressure sensor gradient micro-cone architecture laser ablation dielectric constant linear response thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues Compared to traditional flexible materials, such as metal-based, ceramic-based, and glass-based materials, polymer-based flexible materials have various advantages including low density, easy processing, excellent flexibility, and good environmental stability. Over the past few decades, polymer-based flexible materials have received significant attention due to the rapid development of the electronic industry, medical treatment, health, and other fields. For instance, flexible electronic technology shows great potential for reshaping the lives of human beings, but the bottleneck of flexible electronic technology is the availability of flexible substrates or flexible conductive materials, which can be resolved by modifying or doping polymer-based flexible materials. Moreover, it is possible to synthesize new polymer-based flexible materials or modify them for different purposes to endow them with corresponding functionality. This reprint presents a collection of research papers, communications, and review articles on the latest advances in the fields of synthesis, characterization, and the application of polymer-based flexible materials. The fields that will be discussed include: synthesis (organic elastomers, conductive polymers, and flexible organic networks); structural characterization; modeling; and applications (i.e., sensor, energy harvesting, energy storage, electromagnetic shielding, and biomedical). 2024-07-04T09:33:19Z 2024-07-04T09:33:19Z 2024 book ONIX_20240704_9783725811663_56 9783725811663 9783725811656 https://directory.doabooks.org/handle/20.500.12854/139260 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9255 https://mdpi.com/books/pdfview/book/9255 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-1165-6 10.3390/books978-3-7258-1165-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725811663 9783725811656 216 open access
spellingShingle composite propellant
thermal damage treatment
thermal weight loss
interaction
combustion characteristics
shear thickening fluid
silicone rubber
microcapsule
impact resistance behavior
pressure sensor
porous hydrogels
natural polymer
phase change microcapsules
infrared camouflage
emissivity
intelligent temperature regulation
textile composites
hyperelastic
polymeric materials
constitutive model
strain energy density function
parameter identification
flexible capacitance pressure sensor
gradient micro-structure
polymer
barium titanate
laser engraving
thermoelectric fiber
conductive polymer
smart textile
temperature sensor
PEDOT:PSS
Fe3O4
GO
composite film
supercapacitor
thermoelectric
three-dimensional printing
CFRTPCs
FDM
process parameters
mechanical properties
electron irradiation
high and low temperature
polyimide film
mechanical property
rosin
flexible chain
film property
bio-based epoxy
curing agent
epoxy vitrimer
glass transition temperature
epoxy resin E51
phthalic anhydride
sebacic acid
flexible capacitive pressure sensor
gradient micro-cone architecture
laser ablation
dielectric constant
linear response
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Polymer-Based Flexible Materials
title Polymer-Based Flexible Materials
title_full Polymer-Based Flexible Materials
title_fullStr Polymer-Based Flexible Materials
title_full_unstemmed Polymer-Based Flexible Materials
title_short Polymer-Based Flexible Materials
title_sort polymer based flexible materials
topic composite propellant
thermal damage treatment
thermal weight loss
interaction
combustion characteristics
shear thickening fluid
silicone rubber
microcapsule
impact resistance behavior
pressure sensor
porous hydrogels
natural polymer
phase change microcapsules
infrared camouflage
emissivity
intelligent temperature regulation
textile composites
hyperelastic
polymeric materials
constitutive model
strain energy density function
parameter identification
flexible capacitance pressure sensor
gradient micro-structure
polymer
barium titanate
laser engraving
thermoelectric fiber
conductive polymer
smart textile
temperature sensor
PEDOT:PSS
Fe3O4
GO
composite film
supercapacitor
thermoelectric
three-dimensional printing
CFRTPCs
FDM
process parameters
mechanical properties
electron irradiation
high and low temperature
polyimide film
mechanical property
rosin
flexible chain
film property
bio-based epoxy
curing agent
epoxy vitrimer
glass transition temperature
epoxy resin E51
phthalic anhydride
sebacic acid
flexible capacitive pressure sensor
gradient micro-cone architecture
laser ablation
dielectric constant
linear response
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet composite propellant
thermal damage treatment
thermal weight loss
interaction
combustion characteristics
shear thickening fluid
silicone rubber
microcapsule
impact resistance behavior
pressure sensor
porous hydrogels
natural polymer
phase change microcapsules
infrared camouflage
emissivity
intelligent temperature regulation
textile composites
hyperelastic
polymeric materials
constitutive model
strain energy density function
parameter identification
flexible capacitance pressure sensor
gradient micro-structure
polymer
barium titanate
laser engraving
thermoelectric fiber
conductive polymer
smart textile
temperature sensor
PEDOT:PSS
Fe3O4
GO
composite film
supercapacitor
thermoelectric
three-dimensional printing
CFRTPCs
FDM
process parameters
mechanical properties
electron irradiation
high and low temperature
polyimide film
mechanical property
rosin
flexible chain
film property
bio-based epoxy
curing agent
epoxy vitrimer
glass transition temperature
epoxy resin E51
phthalic anhydride
sebacic acid
flexible capacitive pressure sensor
gradient micro-cone architecture
laser ablation
dielectric constant
linear response
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20240704_9783725811663_56