Polymeric Materials and Their Application in 3D Printing

In the last decade, additive manufacturing’s ability to produce customized parts with complex shapes has led to increased global demand for this technology as a manufacturing solution in various engineering fields, from consumer goods, medicine, electronics, and construction to automotive and aerosp...

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Utgiven: MDPI - Multidisciplinary Digital Publishing Institute 2024
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wax
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_version_ 1869514689838317568
collection Directory of Open Access Books
description In the last decade, additive manufacturing’s ability to produce customized parts with complex shapes has led to increased global demand for this technology as a manufacturing solution in various engineering fields, from consumer goods, medicine, electronics, and construction to automotive and aerospace. Three-dimensional-printing-based technologies using polymeric materials offer cost-effectiveness, customized geometries, complex design, high-precision manufacturing, and reduced processing time while using highly sustainable materials.This Special Issue aimed to gather the latest research in the field of 3D-printed polymers designed for application in the fields in which this technology attracts the most attention. Papers were expected to take experimental or simulation approaches to challenges in polymer and polymeric composite 3D-printing techniques encountered in each engineering field. Overcoming 3D printing challenges will greatly contribute to advancing development in topics related to transport, engineering, medicine, and the environment. This Special Issue will focus on both fundamental and applied research aimed at the development, characterization, and application of polymers for 3D-printing technologies implemented in, but not limited to, the following: aerospace, automotive, construction, medicine, prototyping, and consumer goods (including electronics, sports, devices, and spare parts).
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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-1437642024-09-06T08:20:27Z Polymeric Materials and Their Application in 3D Printing Pelin, Cristina-Elisabeta Ficai, Anton 3D-printing polymers ABS-PC PCABS accelerated aging ultraviolet UV-C 3D printing ABS short carbon fiber mechanical tests FE model elastic characteristics strength fracture toughness wood-based biopolymer surface quality tensile strength machinability additive manufacturing PLA annealing mechanical proprieties flexible composites with piezoelectric features 3D printable flexible piezoelectric devices energy harvesting refractive index measurement photocurable resin vat-photopolymerization micro-optics microfluidics thermoforming wrist–hand orthosis mechanical behavior customization flexural fatigue 3D Printing Point-of-Care metal material extrusion fused filament fabrication aluminium feedstock printability binder system rheological properties chain link polymers tensile testing influence factors empirical mathematical models polymethylmethacrylate polyether-ether-ketone custom medical device finite element analysis nerve tissue engineering biocompatibility biomaterials nanomaterials hydrogels process optimization compressive properties surface smoothness self-healing polymers and composites smart polymers fused deposition modeling boron nitride polylactic acid dimensional accuracy wear selective laser sintering porosity pure polymers blended polymers micro-hole quality analysis material jetting thermoplastic polymers mechanical properties warpage wax FFF rheometer hydrolysis Ultem 9085 amorphous solid dispersion solubility polymer pharmaceutical three-dimensional printing CFR-PEEK material addition rate energy consumption powder bed fusion polyamide-12 Avrami polycondensation cross-linking powder re-use 3D-printed molds polymeric materials Material Extrusion carbon-reinforced Polyether Ether Ketone MCDM Fuzzy-AHP-TOPSIS process parameter selection optimization smart materials shape memory polymer 4D printing thermo-mechanical experiments thema EDItEUR::P Mathematics and Science thema EDItEUR::P Mathematics and Science::PH Physics thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter In the last decade, additive manufacturing’s ability to produce customized parts with complex shapes has led to increased global demand for this technology as a manufacturing solution in various engineering fields, from consumer goods, medicine, electronics, and construction to automotive and aerospace. Three-dimensional-printing-based technologies using polymeric materials offer cost-effectiveness, customized geometries, complex design, high-precision manufacturing, and reduced processing time while using highly sustainable materials.This Special Issue aimed to gather the latest research in the field of 3D-printed polymers designed for application in the fields in which this technology attracts the most attention. Papers were expected to take experimental or simulation approaches to challenges in polymer and polymeric composite 3D-printing techniques encountered in each engineering field. Overcoming 3D printing challenges will greatly contribute to advancing development in topics related to transport, engineering, medicine, and the environment. This Special Issue will focus on both fundamental and applied research aimed at the development, characterization, and application of polymers for 3D-printing technologies implemented in, but not limited to, the following: aerospace, automotive, construction, medicine, prototyping, and consumer goods (including electronics, sports, devices, and spare parts). 2024-09-06T08:20:20Z 2024-09-06T08:20:20Z 2024 book ONIX_20240906_9783725814060_126 9783725814060 9783725814053 https://directory.doabooks.org/handle/20.500.12854/143764 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9495 https://mdpi.com/books/pdfview/book/9495 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-1405-3 10.3390/books978-3-7258-1405-3 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725814060 9783725814053 open access
spellingShingle 3D-printing polymers
ABS-PC
PCABS
accelerated aging
ultraviolet
UV-C
3D printing
ABS
short carbon fiber
mechanical tests
FE model
elastic characteristics
strength
fracture toughness
wood-based biopolymer
surface quality
tensile strength
machinability
additive manufacturing
PLA
annealing
mechanical proprieties
flexible composites with piezoelectric features
3D printable flexible piezoelectric devices
energy harvesting
refractive index measurement
photocurable resin
vat-photopolymerization
micro-optics
microfluidics
thermoforming
wrist–hand orthosis
mechanical behavior
customization
flexural fatigue
3D Printing Point-of-Care
metal material extrusion
fused filament fabrication
aluminium feedstock
printability
binder system
rheological properties
chain link
polymers
tensile testing
influence factors
empirical mathematical models
polymethylmethacrylate
polyether-ether-ketone
custom medical device
finite element analysis
nerve tissue engineering
biocompatibility
biomaterials
nanomaterials
hydrogels
process optimization
compressive properties
surface smoothness
self-healing
polymers and composites
smart polymers
fused deposition modeling
boron nitride
polylactic acid
dimensional accuracy
wear
selective laser sintering
porosity
pure polymers
blended polymers
micro-hole
quality analysis
material jetting
thermoplastic polymers
mechanical properties
warpage
wax
FFF
rheometer
hydrolysis
Ultem 9085
amorphous solid dispersion
solubility
polymer
pharmaceutical
three-dimensional printing
CFR-PEEK
material addition rate
energy consumption
powder bed fusion
polyamide-12
Avrami
polycondensation
cross-linking
powder re-use
3D-printed molds
polymeric materials
Material Extrusion
carbon-reinforced Polyether Ether Ketone
MCDM
Fuzzy-AHP-TOPSIS
process parameter selection
optimization
smart materials
shape memory polymer
4D printing
thermo-mechanical experiments
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PH Physics
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter
Polymeric Materials and Their Application in 3D Printing
title Polymeric Materials and Their Application in 3D Printing
title_full Polymeric Materials and Their Application in 3D Printing
title_fullStr Polymeric Materials and Their Application in 3D Printing
title_full_unstemmed Polymeric Materials and Their Application in 3D Printing
title_short Polymeric Materials and Their Application in 3D Printing
title_sort polymeric materials and their application in 3d printing
topic 3D-printing polymers
ABS-PC
PCABS
accelerated aging
ultraviolet
UV-C
3D printing
ABS
short carbon fiber
mechanical tests
FE model
elastic characteristics
strength
fracture toughness
wood-based biopolymer
surface quality
tensile strength
machinability
additive manufacturing
PLA
annealing
mechanical proprieties
flexible composites with piezoelectric features
3D printable flexible piezoelectric devices
energy harvesting
refractive index measurement
photocurable resin
vat-photopolymerization
micro-optics
microfluidics
thermoforming
wrist–hand orthosis
mechanical behavior
customization
flexural fatigue
3D Printing Point-of-Care
metal material extrusion
fused filament fabrication
aluminium feedstock
printability
binder system
rheological properties
chain link
polymers
tensile testing
influence factors
empirical mathematical models
polymethylmethacrylate
polyether-ether-ketone
custom medical device
finite element analysis
nerve tissue engineering
biocompatibility
biomaterials
nanomaterials
hydrogels
process optimization
compressive properties
surface smoothness
self-healing
polymers and composites
smart polymers
fused deposition modeling
boron nitride
polylactic acid
dimensional accuracy
wear
selective laser sintering
porosity
pure polymers
blended polymers
micro-hole
quality analysis
material jetting
thermoplastic polymers
mechanical properties
warpage
wax
FFF
rheometer
hydrolysis
Ultem 9085
amorphous solid dispersion
solubility
polymer
pharmaceutical
three-dimensional printing
CFR-PEEK
material addition rate
energy consumption
powder bed fusion
polyamide-12
Avrami
polycondensation
cross-linking
powder re-use
3D-printed molds
polymeric materials
Material Extrusion
carbon-reinforced Polyether Ether Ketone
MCDM
Fuzzy-AHP-TOPSIS
process parameter selection
optimization
smart materials
shape memory polymer
4D printing
thermo-mechanical experiments
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PH Physics
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter
topic_facet 3D-printing polymers
ABS-PC
PCABS
accelerated aging
ultraviolet
UV-C
3D printing
ABS
short carbon fiber
mechanical tests
FE model
elastic characteristics
strength
fracture toughness
wood-based biopolymer
surface quality
tensile strength
machinability
additive manufacturing
PLA
annealing
mechanical proprieties
flexible composites with piezoelectric features
3D printable flexible piezoelectric devices
energy harvesting
refractive index measurement
photocurable resin
vat-photopolymerization
micro-optics
microfluidics
thermoforming
wrist–hand orthosis
mechanical behavior
customization
flexural fatigue
3D Printing Point-of-Care
metal material extrusion
fused filament fabrication
aluminium feedstock
printability
binder system
rheological properties
chain link
polymers
tensile testing
influence factors
empirical mathematical models
polymethylmethacrylate
polyether-ether-ketone
custom medical device
finite element analysis
nerve tissue engineering
biocompatibility
biomaterials
nanomaterials
hydrogels
process optimization
compressive properties
surface smoothness
self-healing
polymers and composites
smart polymers
fused deposition modeling
boron nitride
polylactic acid
dimensional accuracy
wear
selective laser sintering
porosity
pure polymers
blended polymers
micro-hole
quality analysis
material jetting
thermoplastic polymers
mechanical properties
warpage
wax
FFF
rheometer
hydrolysis
Ultem 9085
amorphous solid dispersion
solubility
polymer
pharmaceutical
three-dimensional printing
CFR-PEEK
material addition rate
energy consumption
powder bed fusion
polyamide-12
Avrami
polycondensation
cross-linking
powder re-use
3D-printed molds
polymeric materials
Material Extrusion
carbon-reinforced Polyether Ether Ketone
MCDM
Fuzzy-AHP-TOPSIS
process parameter selection
optimization
smart materials
shape memory polymer
4D printing
thermo-mechanical experiments
thema EDItEUR::P Mathematics and Science
thema EDItEUR::P Mathematics and Science::PH Physics
thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter
url ONIX_20240906_9783725814060_126