Polymers,
Journal Year:
2022,
Volume and Issue:
14(1), P. 180 - 180
Published: Jan. 3, 2022
Sustainable
technologies
are
vital
due
to
the
efforts
of
researchers
and
investors
who
have
allocated
significant
amounts
money
time
their
development.
Nowadays,
3D
printing
has
been
accepted
by
main
industry
players,
since
its
first
establishment
almost
30
years
ago.
It
is
obvious
that
every
related
technology,
which
proves
technology
a
bright
future.
Many
studies
shown
changed
methods
for
developing
particular
products.
Three-dimensional
evolved
tremendously,
currently,
many
new
types
machines
introduced.
In
this
paper,
we
describe
historical
development
including
process,
printing,
applications
on
polymer
materials.
Chemical Reviews,
Journal Year:
2020,
Volume and Issue:
120(19), P. 11028 - 11055
Published: Aug. 28, 2020
Three-dimensional
bioprinting
uses
additive
manufacturing
techniques
for
the
automated
fabrication
of
hierarchically
organized
living
constructs.
The
building
blocks
are
often
hydrogel-based
bioinks,
which
need
to
be
printed
into
structures
with
high
shape
fidelity
intended
computer-aided
design.
For
optimal
cell
performance,
relatively
soft
and
printable
inks
preferred,
although
these
undergo
significant
deformation
during
printing
process,
may
impair
fidelity.
While
concept
good
or
poor
printability
seems
rather
intuitive,
its
quantitative
definition
lacks
consensus
depends
on
multiple
rheological
chemical
parameters
ink.
This
review
discusses
qualitative
methodologies
evaluate
bioinks
extrusion-
lithography-based
bioprinting.
physicochemical
influencing
discussed,
together
their
importance
in
establishing
new
models,
predictive
tools
methods
that
deemed
instrumental
design
next-generation
reproducible
comparison
structural
performance.
Advanced Materials,
Journal Year:
2022,
Volume and Issue:
34(28)
Published: March 5, 2022
Additive
manufacturing
(AM)
has
gained
significant
attention
due
to
its
ability
drive
technological
development
as
a
sustainable,
flexible,
and
customizable
scheme.
Among
the
various
AM
techniques,
direct
ink
writing
(DIW)
emerged
most
versatile
3D
printing
technique
for
broadest
range
of
materials.
DIW
allows
practically
any
material,
long
precursor
can
be
engineered
demonstrate
appropriate
rheological
behavior.
This
acts
unique
pathway
introduce
design
freedom,
multifunctionality,
stability
simultaneously
into
printed
structures.
Here,
comprehensive
review
complex
structures
from
materials,
including
polymers,
ceramics,
glass,
cement,
graphene,
metals,
their
combinations
through
multimaterial
is
presented.
The
begins
with
an
overview
fundamentals
rheology,
followed
by
in-depth
discussion
methods
tailor
different
classes
Then,
diverse
applications
ranging
electronics
food
biomedical
industries
are
discussed.
Finally,
current
challenges
limitations
this
highlighted,
prospects
guideline
toward
possible
futuristic
innovations.
Biomolecules,
Journal Year:
2019,
Volume and Issue:
9(9), P. 470 - 470
Published: Sept. 10, 2019
Over
the
last
few
decades,
chitosan
has
become
a
good
candidate
for
tissue
engineering
applications.
Derived
from
chitin,
is
unique
natural
polysaccharide
with
outstanding
properties
in
line
excellent
biodegradability,
biocompatibility,
and
antimicrobial
activity.
Due
to
presence
of
free
amine
groups
its
backbone
chain,
could
be
further
chemically
modified
possess
additional
functional
useful
development
different
biomaterials
regenerative
medicine.
In
current
review,
we
will
highlight
progress
made
chitosan-containing
bioscaffolds,
such
as
gels,
sponges,
films,
fibers,
their
possible
applications
repair
regeneration,
well
use
component
drug
delivery
Coatings,
Journal Year:
2021,
Volume and Issue:
11(4), P. 390 - 390
Published: March 29, 2021
Polylactic
acid
(PLA)
is
the
most
widely
used
raw
material
in
extrusion-based
three-dimensional
(3D)
printing
(fused
deposition
modeling,
FDM
approach)
many
areas
since
it
biodegradable
and
environmentally
friendly,
however
its
utilization
limited
due
to
some
of
disadvantages
such
as
mechanical
weakness,
water
solubility
rate,
etc.
a
simple
more
cost-effective
fabrication
process
compared
other
3D
techniques.
Unfortunately,
there
are
deficiencies
approach,
weakness
parts
produced
by
conventional
injection
compression
molding
methods.
Preparation
PLA
composites
with
suitable
additives
useful
technique
improve
properties
3D-printed
obtained
method.
In
last
decade,
newly
developed
find
large
usage
both
academic
industrial
circles.
This
review
focuses
on
chemistry
pure
also
preparation
methods
which
will
be
printers.
The
main
drawbacks
filaments
necessity
for
employed
FDM-based
applications
discussed
first
part.
current
obtain
materials
given
second
novel
utilizing
technology
fields
biomedical,
tissue
engineering,
human
bone
repair,
antibacterial,
bioprinting,
electrical
conductivity,
electromagnetic,
sensor,
battery,
automotive,
aviation,
four-dimensional
(4D)
printing,
smart
textile,
environmental,
luminescence
presented
critically
third
part
this
review.
