Polymeric Foams

Advances in nanotechnology have boosted the development of more efficient materials, with emerging sectors (electronics, energy, aerospace, etc.) demanding novel materials to fulfill the complex technical requirements of their products. This is the case of polymeric foams, which may display good str...

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Egile Nagusiak: Velasco, José Ignacio, Antunes, Marcelo
Formatua: Online
Hizkuntza:ingelesa
Argitaratua: MDPI - Multidisciplinary Digital Publishing Institute 2021
Gaiak:
n/a
1
3
PZT
EMI
PUR
Sarrera elektronikoa:42640
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author Velasco, José Ignacio
Antunes, Marcelo
author_browse Antunes, Marcelo
Velasco, José Ignacio
author_facet Velasco, José Ignacio
Antunes, Marcelo
author_sort Velasco, José Ignacio
collection Directory of Open Access Books
description Advances in nanotechnology have boosted the development of more efficient materials, with emerging sectors (electronics, energy, aerospace, etc.) demanding novel materials to fulfill the complex technical requirements of their products. This is the case of polymeric foams, which may display good structural properties alongside functional characteristics through a complex composition and (micro)structure in which a gas phase is combined with rigid ones, mainly based on nanoparticles, dispersed throughout the polymer matrix. In recent years, there has been an important impulse in the development of nanocomposite foams, extending the concept of nanocomposites to the field of cellular materials. This, alongside developments in new advanced foaming technologies which have allowed the generation of foams with micro, sub-micro, and even nanocellular structures, has extended the applications of more traditional foams in terms of weight reduction, damping, and thermal and/or acoustic insulation to novel possibilities, such as electromagnetic interference (EMI) shielding. This Special Issue, which consists of a total of 22 articles, including one review article written by research groups of experts in the field, considers recent research on novel polymer-based foams in all their aspects: design, composition, processing and fabrication, microstructure, characterization and analysis, applications and service behavior, recycling and reuse, etc.
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publishDate 2021
publishDateRange 2021
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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-566392024-04-09T23:15:50Z Polymeric Foams Velasco, José Ignacio Antunes, Marcelo T1-995 TP155-156 graphene oxide n/a microstructure multi-objective particle swarm optimization electromagnetic wave absorption polyamide lignin expandable microspheres surfactants aluminum microfibers biomaterials permittivity compression properties shock compression syntactic foams 1 impact wedge–peel test phenolic foams 3 foam extrusion energy conservation heat transfer heterogeneous nucleation polyurethane foam leaching test functional cellulose foam impact property foam injection molding itaconic acid composites foaming quality phosphorus flame retardants polymer waste metallic tube 5-benzene-trisamides polyurethane foam composites polyetherimide foams scCO2 Ethylene Propylene Diene Monomer thermal conductivity ethyl cellulose super critical CO2 thermal insulation cell nucleation crystalline polypropylene PZT burning characteristic foams quasi-static compression tests flame-retardant ABS microcellular foams nanotubes conductivity energy absorption capability intrinsic toughness ternary synergistic effect multilayers absorbent PMI foam semi-rigid polyurethane foams phosphorus EMI supramolecular additives MuCell® injection-molding foaming piezocomposite ultrasonication scCO2 foaming automobile structural adhesives thermogravimetric analysis rigid polyurethane foam failure mechanism mechanical properties multifunctional foams SANS fluoelastomer sound absorption coefficient acoustic performances functional foam foam morphology mechanical property polystyrene foams piezoelectric graphene Pluronic epoxy composite foam adhesive polymers flame retardancy core–shell rubber extrusion foaming equation of state cellulose nanofiber epoxy DOPO PUR grey relational analysis activation energies adjacent façade electrical conductivity thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues Advances in nanotechnology have boosted the development of more efficient materials, with emerging sectors (electronics, energy, aerospace, etc.) demanding novel materials to fulfill the complex technical requirements of their products. This is the case of polymeric foams, which may display good structural properties alongside functional characteristics through a complex composition and (micro)structure in which a gas phase is combined with rigid ones, mainly based on nanoparticles, dispersed throughout the polymer matrix. In recent years, there has been an important impulse in the development of nanocomposite foams, extending the concept of nanocomposites to the field of cellular materials. This, alongside developments in new advanced foaming technologies which have allowed the generation of foams with micro, sub-micro, and even nanocellular structures, has extended the applications of more traditional foams in terms of weight reduction, damping, and thermal and/or acoustic insulation to novel possibilities, such as electromagnetic interference (EMI) shielding. This Special Issue, which consists of a total of 22 articles, including one review article written by research groups of experts in the field, considers recent research on novel polymer-based foams in all their aspects: design, composition, processing and fabrication, microstructure, characterization and analysis, applications and service behavior, recycling and reuse, etc. 2021-02-11T23:28:39Z 2021-02-11T23:28:39Z 2019-12-09 11:49:16 2019 book 42640 9783039216321 9783039216338 https://directory.doabooks.org/handle/20.500.12854/56639 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1796 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03921-633-8 10.3390/books978-3-03921-633-8 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039216321 9783039216338 322 open access
spellingShingle T1-995
TP155-156
graphene oxide
n/a
microstructure
multi-objective particle swarm optimization
electromagnetic wave absorption
polyamide
lignin
expandable microspheres
surfactants
aluminum microfibers
biomaterials
permittivity
compression properties
shock compression
syntactic foams
1
impact wedge–peel test
phenolic foams
3
foam extrusion
energy conservation
heat transfer
heterogeneous nucleation
polyurethane foam
leaching test
functional
cellulose foam
impact property
foam injection molding
itaconic acid
composites
foaming quality
phosphorus flame retardants
polymer waste
metallic tube
5-benzene-trisamides
polyurethane foam composites
polyetherimide foams
scCO2
Ethylene Propylene Diene Monomer
thermal conductivity
ethyl cellulose
super critical CO2
thermal insulation
cell nucleation
crystalline
polypropylene
PZT
burning characteristic
foams
quasi-static compression tests
flame-retardant ABS microcellular foams
nanotubes
conductivity
energy absorption capability
intrinsic toughness
ternary synergistic effect
multilayers
absorbent PMI foam
semi-rigid polyurethane foams
phosphorus
EMI
supramolecular additives
MuCell® injection-molding foaming
piezocomposite
ultrasonication
scCO2 foaming
automobile structural adhesives
thermogravimetric analysis
rigid polyurethane foam
failure mechanism
mechanical properties
multifunctional foams
SANS
fluoelastomer
sound absorption coefficient
acoustic performances
functional foam
foam morphology
mechanical property
polystyrene foams
piezoelectric
graphene
Pluronic
epoxy composite foam adhesive
polymers
flame retardancy
core–shell rubber
extrusion foaming
equation of state
cellulose nanofiber
epoxy
DOPO
PUR
grey relational analysis
activation energies
adjacent façade
electrical conductivity
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Velasco, José Ignacio
Antunes, Marcelo
Polymeric Foams
title Polymeric Foams
title_full Polymeric Foams
title_fullStr Polymeric Foams
title_full_unstemmed Polymeric Foams
title_short Polymeric Foams
title_sort polymeric foams
topic T1-995
TP155-156
graphene oxide
n/a
microstructure
multi-objective particle swarm optimization
electromagnetic wave absorption
polyamide
lignin
expandable microspheres
surfactants
aluminum microfibers
biomaterials
permittivity
compression properties
shock compression
syntactic foams
1
impact wedge–peel test
phenolic foams
3
foam extrusion
energy conservation
heat transfer
heterogeneous nucleation
polyurethane foam
leaching test
functional
cellulose foam
impact property
foam injection molding
itaconic acid
composites
foaming quality
phosphorus flame retardants
polymer waste
metallic tube
5-benzene-trisamides
polyurethane foam composites
polyetherimide foams
scCO2
Ethylene Propylene Diene Monomer
thermal conductivity
ethyl cellulose
super critical CO2
thermal insulation
cell nucleation
crystalline
polypropylene
PZT
burning characteristic
foams
quasi-static compression tests
flame-retardant ABS microcellular foams
nanotubes
conductivity
energy absorption capability
intrinsic toughness
ternary synergistic effect
multilayers
absorbent PMI foam
semi-rigid polyurethane foams
phosphorus
EMI
supramolecular additives
MuCell® injection-molding foaming
piezocomposite
ultrasonication
scCO2 foaming
automobile structural adhesives
thermogravimetric analysis
rigid polyurethane foam
failure mechanism
mechanical properties
multifunctional foams
SANS
fluoelastomer
sound absorption coefficient
acoustic performances
functional foam
foam morphology
mechanical property
polystyrene foams
piezoelectric
graphene
Pluronic
epoxy composite foam adhesive
polymers
flame retardancy
core–shell rubber
extrusion foaming
equation of state
cellulose nanofiber
epoxy
DOPO
PUR
grey relational analysis
activation energies
adjacent façade
electrical conductivity
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet T1-995
TP155-156
graphene oxide
n/a
microstructure
multi-objective particle swarm optimization
electromagnetic wave absorption
polyamide
lignin
expandable microspheres
surfactants
aluminum microfibers
biomaterials
permittivity
compression properties
shock compression
syntactic foams
1
impact wedge–peel test
phenolic foams
3
foam extrusion
energy conservation
heat transfer
heterogeneous nucleation
polyurethane foam
leaching test
functional
cellulose foam
impact property
foam injection molding
itaconic acid
composites
foaming quality
phosphorus flame retardants
polymer waste
metallic tube
5-benzene-trisamides
polyurethane foam composites
polyetherimide foams
scCO2
Ethylene Propylene Diene Monomer
thermal conductivity
ethyl cellulose
super critical CO2
thermal insulation
cell nucleation
crystalline
polypropylene
PZT
burning characteristic
foams
quasi-static compression tests
flame-retardant ABS microcellular foams
nanotubes
conductivity
energy absorption capability
intrinsic toughness
ternary synergistic effect
multilayers
absorbent PMI foam
semi-rigid polyurethane foams
phosphorus
EMI
supramolecular additives
MuCell® injection-molding foaming
piezocomposite
ultrasonication
scCO2 foaming
automobile structural adhesives
thermogravimetric analysis
rigid polyurethane foam
failure mechanism
mechanical properties
multifunctional foams
SANS
fluoelastomer
sound absorption coefficient
acoustic performances
functional foam
foam morphology
mechanical property
polystyrene foams
piezoelectric
graphene
Pluronic
epoxy composite foam adhesive
polymers
flame retardancy
core–shell rubber
extrusion foaming
equation of state
cellulose nanofiber
epoxy
DOPO
PUR
grey relational analysis
activation energies
adjacent façade
electrical conductivity
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url 42640
work_keys_str_mv AT velascojoseignacio polymericfoams
AT antunesmarcelo polymericfoams