Advanced Materials Technologies,
Journal Year:
2023,
Volume and Issue:
9(4)
Published: Dec. 28, 2023
Abstract
The
increasing
adoption
of
additive
manufacturing
(AM),
also
known
as
3D
printing,
is
revolutionizing
the
production
wearable
electronics
and
energy
storage
devices
(ESD)
such
batteries,
supercapacitors,
fuel
cells.
This
surge
can
be
attributed
to
its
outstanding
process
versatility,
precise
control
over
geometrical
aspects,
potential
reduce
costs
material
waste.
In
this
comprehensive
review,
major
AM
processes
like
inkjet
direct
ink
writing,
fused
deposition
modeling,
selective
laser
sintering/melting
along
with
possible
configurations
architectures,
are
elaborately
discussed
for
each
bespoke
ESD.
application
3D‐printed
in
electronics,
Internet
Things
(IoT)‐based
devices,
electric
vehicles
mentioned
review.
role
facilitating
solid‐state
batteries
has
revolutionized
vehicle
(EV)
industry.
Recent
progress
field
systems
solid
electrolytes
future
directions
4D
printing
incorporate
stimuli‐responsive
behavior
materials,
biomimetic
design
optimization,
ESD
a
micro‐gravity
environment
have
been
highlighted.
Extensive
research
continuous
expected
enhance
longetivity,
industrial
scalability,
electrochemical
performance
future.
InfoMat,
Journal Year:
2024,
Volume and Issue:
6(6)
Published: June 1, 2024
Abstract
The
potential
of
three‐dimensional
(3D)
printing
technology
in
the
fabrication
advanced
polymer
composites
is
becoming
increasingly
evident.
This
review
discusses
latest
research
developments
and
applications
3D
composites.
First,
it
focuses
on
optimization
technology,
that
is,
by
upgrading
equipment
or
components
adjusting
parameters,
to
make
them
more
adaptable
processing
characteristics
improve
comprehensive
performance
products.
Second,
printable
novel
consumables
for
composites,
which
mainly
include
new
filaments,
inks,
photosensitive
resins,
powders,
introducing
unique
properties
different
ways
apply
printing.
Finally,
preparation
functional
(such
as
thermal
conductivity,
electromagnetic
interference
shielding,
biomedicine,
self‐healing,
environmental
responsiveness)
are
explored,
with
a
focus
distribution
fillers
influence
topological
shapes
printed
aim
this
deepen
understanding
convergence
between
anticipate
future
trends
applications.
image
International Journal of Extreme Manufacturing,
Journal Year:
2023,
Volume and Issue:
5(3), P. 032007 - 032007
Published: May 24, 2023
Abstract
Piezoelectricity
in
native
bones
has
been
well
recognized
as
the
key
factor
bone
regeneration.
Thus,
bio-piezoelectric
materials
have
gained
substantial
attention
repairing
damaged
by
mimicking
tissue’s
electrical
microenvironment
(EM).
However,
traditional
manufacturing
strategies
still
encounter
limitations
creating
personalized
scaffolds,
hindering
their
clinical
applications.
Three-dimensional
(3D)/four-dimensional
(4D)
printing
technology
based
on
principle
of
layer-by-layer
forming
and
stacking
discrete
demonstrated
outstanding
advantages
fabricating
scaffolds
a
more
complex-shaped
structure.
Notably,
4D
functionality-shifting
can
provide
time-dependent
programmable
tissue
EM
response
to
external
stimuli
for
In
this
review,
we
first
summarize
physicochemical
properties
commonly
used
(including
polymers,
ceramics,
composites)
representative
biological
findings
Then,
discuss
latest
research
advances
3D
terms
feedstock
selection,
process,
induction
strategies,
potential
Besides,
some
related
challenges
such
scalability,
resolution,
stress-to-polarization
conversion
efficiency,
non-invasive
ability
after
implantation
put
forward.
Finally,
highlight
shape/property/functionality-shifting
smart
engineering
(BTE).
Taken
together,
review
emphasizes
appealing
utility
3D/4D
printed
piezoelectric
next-generation
BTE
implants.
Inventions,
Journal Year:
2023,
Volume and Issue:
8(4), P. 103 - 103
Published: Aug. 11, 2023
This
general
review
paper
presents
a
condensed
view
of
recent
inventions
in
the
Additive
Manufacturing
(AM)
field.
It
outlines
factors
affecting
development
and
commercialization
via
research
collaboration
discusses
breakthroughs
materials
AM
technologies
their
integration
with
emerging
technologies.
The
explores
impact
across
various
sectors,
including
aerospace,
automotive,
healthcare,
food,
construction
industries,
since
1970s.
also
addresses
challenges
future
directions,
such
as
hybrid
manufacturing
bio-printing,
along
socio-economic
environmental
implications.
collaborative
study
provides
concise
understanding
latest
AM,
offering
valuable
insights
for
researchers,
practitioners,
decision
makers
diverse
industries
institutions.
The International Journal of Advanced Manufacturing Technology,
Journal Year:
2023,
Volume and Issue:
127(3-4), P. 987 - 1043
Published: May 27, 2023
Abstract
Surface
roughness
is
gaining
increasing
recognition
in
the
processing
design
methods
of
additive
manufacturing
(AM)
due
to
its
role
many
critical
applications.
This
impact
extends
not
only
various
AM
product
but
also
indirect
applications,
such
as
molding
and
casting.
review
article
discusses
on
surface
AM-printed
polymers
with
limited
post-processing
by
summarizing
recent
advances.
offers
a
benchmark
for
quality
improvement
processes,
considering
polymeric
parts.
For
this
purpose,
it
lists
analyzes
key
processes
printing
parameters
used
monitor
adjust
under
given
constraints.
Four
techniques
parts
are
compared:
fused
filament
fabrication
(FFF),
selective
laser
sintering
(SLS),
vat
photopolymerization
(VPP),
material
jetting
(MJT).
A
discussion
studies
presented,
along
most
process
that
affect
selected
techniques.
To
assist
selecting
appropriate
method
3D
printing,
comparable
research
summaries
presented.
The
outcome
detailed
survey
current
techniques,
parameters,
ranges,
their
applicability
achieving
as-printed
polymers.
Materials,
Journal Year:
2023,
Volume and Issue:
16(5), P. 1860 - 1860
Published: Feb. 24, 2023
Zirconia-based
materials
are
widely
used
in
dentistry
due
to
their
biocompatibility
and
suitable
mechanical
tribological
behavior.
Although
commonly
processed
by
subtractive
manufacturing
(SM),
alternative
techniques
being
explored
reduce
material
waste,
energy
consumption
production
time.
3D
printing
has
received
increasing
interest
for
this
purpose.
This
systematic
review
intends
gather
information
on
the
state
of
art
additive
(AM)
zirconia-based
dental
applications.
As
far
as
authors
know,
is
first
time
that
a
comparative
analysis
these
materials’
properties
been
performed.
It
was
performed
following
PRISMA
guidelines
using
PubMed,
Scopus
Web
Science
databases
select
studies
met
defined
criteria
without
restrictions
publication
year.
Stereolithography
(SLA)
digital
light
processing
(DLP)
were
most
focused
literature
ones
led
promising
outcomes.
However,
other
techniques,
such
robocasting
(RC)
jetting
(MJ),
have
also
good
results.
In
all
cases,
main
concerns
centered
dimensional
accuracy,
resolution,
insufficient
strength
pieces.
Despite
struggles
inherent
different
commitment
adapt
materials,
procedures
workflows
technologies
remarkable.
Overall,
research
topic
can
be
seen
disruptive
technological
progress
with
wide
range
application
possibilities.
Materials & Design,
Journal Year:
2024,
Volume and Issue:
244, P. 113086 - 113086
Published: June 25, 2024
Additive
manufacturing
(AM)
has
undergone
significant
development
over
the
past
decades,
resulting
in
vast
amounts
of
data
that
carry
valuable
information.
Numerous
research
studies
have
been
conducted
to
extract
insights
from
AM
and
utilize
it
for
optimizing
various
aspects
such
as
process,
supply
chain,
real-time
monitoring.
Data
integration
into
proposed
digital
twin
frameworks
application
machine
learning
techniques
is
expected
play
pivotal
roles
advancing
future.
In
this
paper,
we
provide
an
overview
twin-assisted
AM.
On
one
hand,
discuss
domain
highlight
machine-learning
methods
utilized
field,
including
material
analysis,
design
optimization,
process
parameter
defect
detection
monitoring,
sustainability.
other
examine
status
current
technical
approach
offer
future
developments
perspectives
area.
This
review
paper
aims
present
convergence
big
data,
learning,
Although
there
are
numerous
papers
on
additive
others
twins
AM,
no
existing
considered
how
these
concepts
intrinsically
connected
interrelated.
Our
first
integrate
three
propose
a
cohesive
framework
they
can
work
together
improve
efficiency,
accuracy,
sustainability
processes.
By
exploring
latest
advancements
applications
within
domains,
our
objective
emphasize
potential
advantages
possibilities
associated
with
technologies
Additive manufacturing,
Journal Year:
2024,
Volume and Issue:
86, P. 104189 - 104189
Published: April 1, 2024
Vat
photopolymerization
(VP)
3D
printing,
a
subset
of
additive
manufacturing,
is
renowned
for
its
capability
to
create
intricate
structures
with
high
precision,
particularly
useful
in
optical
applications.
The
process
involves
using
photosensitive
resins
cured
layer
by
through
various
light-curing
technologies
like
Stereolithography
(SLA),
Digital
Light
Processing
(DLP),
Two-Photon
Polymerization
(TPP),
Continuous
Liquid
Interface
Production
(CLIP),
and
Crystal
Display
(LCD).
Each
technique
offers
unique
advantages
terms
speed,
resolution,
material
compatibility,
TPP
providing
the
highest
resolution.
This
review
explores
diverse
applications
VP
3D-printed
components,
including
lenses,
waveguides,
gratings,
resonators,
metamaterials,
sensors,
actuators,
demonstrating
their
significant
role
advancing
technology
innovation.
Challenges
selection,
post-processing
requirements,
size
limitations,
support
are
discussed,
alongside
potential
future
research
directions.
These
include
developing
advanced
photopolymer
materials
enhanced
properties,
hardware
improvements
higher
resolution
multi-material
quality
assurance
measures
ensuring
precision.
Despite
some
printing
presents
promising
avenue
rapid
prototyping
production
complex,
multifunctional
devices,
marking
stride
manufacturing
technological
development.
Advances in healthcare information systems and administration book series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 132 - 152
Published: Feb. 14, 2024
Among
the
various
manufacturing
processes
currently
in
use
by
industry,
3D
printing
stands
out
as
a
unique
additive
technique.
It
enables
creation
of
three-dimensional
solid
objects
virtually
any
shape
from
digital
model.
Initially
considered
an
ambitious
concept,
medical
has
become
reality
thanks
to
substantial
time
and
investment.
This
chapter
delves
into
recent
advancements
within
modern
field,
offering
concise
overview
how
why
is
transforming
practices,
education,
research.
serves
introduction
subject,
followed
demonstration
state-of-the-art
through
industry
developments.
The
significance
this
lies
its
comprehensive
coverage
evolving
role
healthcare,
highlighting
not
only
current
applications
challenges
but
also
underscoring
potential
revolutionize
aspects
science
patient
care.
