Polymers and Their Application in 3D Printing

Polymers and Their Application in 3D Printing

Dear Colleagues, Fused filament fabrication, also known as 3D printing, is extensively used to produce prototypes for applications in, e.g., the aerospace, medical, and automotive industries. In this process, a thermoplastic polymer is fed into a liquefier that extrudes a filament while moving in...

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Bibliographic Details
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Chemistry
Organic chemistry
Research & information: general
3D bioprinting
3D helicoidal architecture
3D lattice structure
3D printing
3D-printed membranes
45S5 Bioglass
4D printing
ABS
ABS simple beam
additive manufacturing
annealing
bending deflection
cell culture
creep
cyclic loading
double cantilever beam test
embedded structure
FFF
fiber-based polymer composite
finite element analysis
flexible oscillating heat pipe
flexural properties
fused deposition modelling
fused deposition modelling (FDM)
fused filament fabrication
grid structure
hatch orientation
high-structured carbon black (KB)
hyaluronic acid
hyperelastic
impact resistance
laser power
lightweight photovoltaics (PV)
maxillary defect
membrane process
multi-walled carbon nanotubes (MWNT)
NinjaFlex®
numerical modeling
PA12
PCL/β-TCP
piezoresistive properties
PLA
plate-based lattice
poly(lactic acid)
polycaprolactone
polyethylene
polylactic acid (PLA)
polymer processing
polyolefins
polypropylene
post-UV-curing
printability
pulp-dentin
relaxation
scaffold
selective laser sintering
self-healing mechanism
shape transformation
shell-based lattice
simple cubic lattice structures
steel-filled PLA
thermal performance
thermal resistance
thermoplastic polyurethane
tissue engineering
TPU
TPU origami capsule
tricalcium phosphate
truss-based lattice
viscoelastic behavior
Online Access:Open Access: DOAB: description of the publication
Open Access: DOAB, download the publication
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520 |a Dear Colleagues, Fused filament fabrication, also known as 3D printing, is extensively used to produce prototypes for applications in, e.g., the aerospace, medical, and automotive industries. In this process, a thermoplastic polymer is fed into a liquefier that extrudes a filament while moving in successive X-Y planes along the Z direction to fabricate a 3D part in a layer-by-layer process. Due to the progressive advances of this process in industry, the application of polymeric (or even composite) materials have received much attention. Researchers and industries now engage in 3D printing by implementing numerous polymeric materials in their domain. In this Special Issue, we will present a collection of recent and novel works regarding the application of polymers in 3D printing. 
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546 |a English 
650 7 |a Chemistry  |2 bicssc 
650 7 |a Organic chemistry  |2 bicssc 
650 7 |a Research & information: general  |2 bicssc 
653 |a 3D bioprinting 
653 |a 3D helicoidal architecture 
653 |a 3D lattice structure 
653 |a 3D printing 
653 |a 3D-printed membranes 
653 |a 45S5 Bioglass 
653 |a 4D printing 
653 |a ABS 
653 |a ABS simple beam 
653 |a additive manufacturing 
653 |a annealing 
653 |a bending deflection 
653 |a cell culture 
653 |a creep 
653 |a cyclic loading 
653 |a double cantilever beam test 
653 |a embedded structure 
653 |a FFF 
653 |a fiber-based polymer composite 
653 |a finite element analysis 
653 |a flexible oscillating heat pipe 
653 |a flexural properties 
653 |a fused deposition modelling 
653 |a fused deposition modelling (FDM) 
653 |a fused filament fabrication 
653 |a grid structure 
653 |a hatch orientation 
653 |a high-structured carbon black (KB) 
653 |a hyaluronic acid 
653 |a hyperelastic 
653 |a impact resistance 
653 |a laser power 
653 |a lightweight photovoltaics (PV) 
653 |a maxillary defect 
653 |a membrane process 
653 |a multi-walled carbon nanotubes (MWNT) 
653 |a NinjaFlex® 
653 |a numerical modeling 
653 |a PA12 
653 |a PCL/β-TCP 
653 |a piezoresistive properties 
653 |a PLA 
653 |a plate-based lattice 
653 |a poly(lactic acid) 
653 |a polycaprolactone 
653 |a polyethylene 
653 |a polylactic acid (PLA) 
653 |a polymer processing 
653 |a polyolefins 
653 |a polypropylene 
653 |a post-UV-curing 
653 |a printability 
653 |a pulp-dentin 
653 |a relaxation 
653 |a scaffold 
653 |a selective laser sintering 
653 |a self-healing mechanism 
653 |a shape transformation 
653 |a shell-based lattice 
653 |a simple cubic lattice structures 
653 |a steel-filled PLA 
653 |a thermal performance 
653 |a thermal resistance 
653 |a thermoplastic polyurethane 
653 |a tissue engineering 
653 |a TPU 
653 |a TPU origami capsule 
653 |a tricalcium phosphate 
653 |a truss-based lattice 
653 |a viscoelastic behavior 
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856 4 0 |u https://directory.doabooks.org/handle/20.500.12854/96663  |7 0  |z Open Access: DOAB: description of the publication 
856 4 0 |u https://mdpi.com/books/pdfview/book/6608  |7 0  |z Open Access: DOAB, download the publication 

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