Materials,
Год журнала:
2025,
Номер
18(1), С. 144 - 144
Опубликована: Янв. 2, 2025
This
study
focuses
on
selecting
a
suitable
3D
printer
and
defining
experimental
methods
to
gather
the
necessary
data
for
determining
optimal
filament
material
printing
components
of
VEX
GO
IQ
robotic
kits.
The
aim
is
obtain
required
identify
an
appropriate
set
parameters
achieve
desired
mechanical
properties
parts
while
maintaining
cost-effectiveness.
Another
key
objective
achieving
operational
functionality,
ensuring
part
performance
with
minimal
costs.
It
desirable
modeled
printed
exhibit
economic
efficiency.
crucial
aspect
functionality
produced
will
be
assessed
by
analyzing
impact
technology
parameters,
focusing
in
this
research
phase
selection.
criteria
materials
include
ease
printability
under
conditions
primary
secondary
schools,
simplicity
printing,
need
post-processing,
adequate
verified
through
measurements
destructive
tests
original
from
analyzed
various
filaments
regarding
their
properties,
printability,
most
significant
practical
contribution
tested
tests,
emphasizing
real-life
application
parts.
includes
repetitive
assembly
disassembly
model
constructions
activation
demonstration
purposes
applications
STEM/STEAM/STREAM
educational
process
components.
Additionally,
aims
up
such
that
even
beginner-level
operator,
as
or
school
student
supervision
teacher
knowledge
experience
can
successfully
execute
it.
Further
ongoing
evaluating
effects
characteristic
infill
perimeter,
3D-printed
additional
analyses.
Abstract
This
review
explores
recent
advancements
and
applications
of
3D
printing
in
healthcare,
with
a
focus
on
personalized
medicine,
tissue
engineering,
medical
device
production.
It
also
assesses
economic,
environmental,
ethical
considerations.
In
our
the
literature,
we
employed
comprehensive
search
strategy,
utilizing
well-known
databases
like
PubMed
Google
Scholar.
Our
chosen
keywords
encompassed
essential
topics,
including
printing,
nanotechnology,
related
areas.
We
first
screened
article
titles
abstracts
then
conducted
detailed
examination
selected
articles
without
imposing
any
date
limitations.
The
for
inclusion,
comprising
research
studies,
clinical
investigations,
expert
opinions,
underwent
meticulous
quality
assessment.
methodology
ensured
incorporation
high-quality
sources,
contributing
to
robust
exploration
role
realm
healthcare.
highlights
printing's
potential
customized
drug
delivery
systems,
patient-specific
implants,
prosthetics,
biofabrication
organs.
These
innovations
have
significantly
improved
patient
outcomes.
Integration
nanotechnology
has
enhanced
precision
biocompatibility.
demonstrates
cost-effectiveness
sustainability
through
optimized
material
usage
recycling.
healthcare
sector
witnessed
remarkable
progress
promoting
patient-centric
approach.
From
implants
radiation
shielding
offers
tailored
solutions.
Its
transformative
applications,
coupled
economic
viability
sustainability,
revolutionize
Addressing
biocompatibility,
standardization,
concerns
is
responsible
adoption.
Graphical
Progress in Materials Science,
Год журнала:
2024,
Номер
146, С. 101336 - 101336
Опубликована: Июль 9, 2024
This
review
paper
comprehensively
examines
the
dynamic
landscape
of
3D
printing
and
Machine
Learning
utilizing
biodegradable
polymers
their
composites,
presenting
a
panoramic
synthesis
research
developments,
technological
achievements,
emerging
applications.
By
investigating
multitude
polymer
types,
delineates
suitability
compatibility
with
diverse
methodologies
demonstrates
merit
machine
learning
techniques,
in
future
manufacturing
processes.
Moreover,
this
focuses
on
intricacies
material
preparation,
design
adaptation
as
well
post-processing
techniques
tailored
for
polymers,
elucidating
pivotal
role
achieving
structural
integrity
functional
excellence.
From
biomedical
implants
sustainable
packaging
solutions
to
artistic
creations,
unveils
expansive
spectrum
practical
implementations,
thus
portraying
multifaceted
impact
technology.
Whilst
outlining
prevalent
challenges
such
mechanical
properties
recycling,
concurrently
surveys
ongoing
endeavors
aimed
at
addressing
these
limitations.
In
essence,
encapsulates
transformative
potential
providing
roadmap
advancements
underscoring
its
fostering
manufacturing/consumption
future.
Abstract
Recent
advances
in
solar‐driven
interfacial
evaporation
(SDIE)
have
led
to
high
rates
that
open
promising
avenues
for
practical
utilization
freshwater
production
and
industrial
application
pollutant
nutrient
concentration,
resource
recovery.
Breakthroughs
overcoming
the
theoretical
limitation
of
2D
allowed
developing
systems
with
rates.
This
study
presents
a
comprehensive
review
various
evaporator
designs
achieved
pure
beyond
4
kg
m
−2
h
−1
,
including
structural
material
allowing
rapid
evaporation,
passive
3D
designs,
coupled
alternative
energy
sources
wind
joule
heating.
The
operational
mechanisms
each
design
are
outlined
together
discussion
on
current
benefits
areas
improvement.
overarching
challenges
encountered
by
SDIE
concerning
feasibility
direct
integration
into
contemporary
settings
assessed,
issues
relating
sustaining
elevated
under
diverse
environmental
conditions
addressed.
Three-dimensional
(3D)
printing
technology
has
revolutionized
dentistry,
particularly
in
fabricating
provisional
restorations.
This
systematic
review
and
meta-analysis
aimed
to
thoroughly
evaluate
the
flexural
strength
of
restorations
produced
using
3D
while
considering
impact
different
resin
materials.
Virtual and Physical Prototyping,
Год журнала:
2024,
Номер
19(1)
Опубликована: Авг. 19, 2024
A
detailed
analysis
of
cutting-edge
3D
printing
technology
and
composite
materials'
transformational
potential
in
numerous
industries.
These
mixes
outperform
single-substance
composites
mechanical,
thermal,
electrical
properties,
aerospace,
medical,
construction.
This
study
vividly
depicts
technology's
creativity
excitement,
investigating
future
possibilities.
It
examines
how
print
speeds
affect
quality
efficiency.
From
40
to
150
(mm/s),
Fused
Deposition
Modelling
(FDM)
tests
speed
output
quality,
including
layer
adhesion
resolution.
different
methods.
Speed
aspects
like
laser
power
material
characteristics
are
investigated
powder-based
technologies
selective
sintering
(SLS)
Multi
Jet
Fusion
(MJF),
where
processing
times
used.
According
the
study,
speed,
qualities,
goal
must
be
balanced
improve
production
efficiency
product
performance.
extensive
illuminates
improving
settings
for
increased
commercial
industrial
production,
highlighting
printing's
potential.
Applied Sciences,
Год журнала:
2024,
Номер
14(21), С. 9919 - 9919
Опубликована: Окт. 30, 2024
In
the
era
of
Industry
4.0,
3D
printing,
or
additive
manufacturing
(AM),
has
revolutionized
product
design
and
across
various
sectors.
This
review
explores
evolution
printing
technology
its
impact
on
industrial
innovation,
highlighting
advancements
in
aeronautics,
automotive
industry,
biomedicine.
Various
AM
processes,
such
as
binder
jetting,
direct
energy
deposition,
powder
bed
fusion,
materials
like
metals,
polymers,
ceramics,
composites,
are
discussed.
Innovations
high-speed
sintering,
continuous
liquid
interface
production,
bioprinting
demonstrate
ongoing
advancements.
The
potential
personalized
medical
applications
is
emphasized
due
to
flexibility
geometry
materials.
Despite
progress,
challenges
standardization,
material
quality,
recycling,
sustainability,
economic
feasibility
hinder
widespread
adoption.
Overcoming
these
crucial
for
optimizing
technologies,
ensuring
high-quality,
efficient,
affordable
production.
also
addresses
future
prospects
4D
5D
technologies
their
industries.
overview
underscores
printing’s
role
shaping
within
context
5.0,
emphasizing
human–machine
collaboration
sustainability.
Journal of Electrical Engineering,
Год журнала:
2025,
Номер
76(1), С. 72 - 79
Опубликована: Фев. 1, 2025
Abstract
This
paper
presents
an
approach
based
on
eddy
currents
induced
by
suitable
magnetic
induction
fields
to
test,
estimate,
and
classify
subsurface
delaminations
in
Carbon
Fibre
Reinforced
Polymer
(CFRP)
plates
for
biomedical
devices.
The
two-dimensional
maps
obtained,
characterised
high
fuzziness,
required
the
software
development
of
a
procedure
highly
efficient
fuzzy
classifier
that
exploits
similarity
computations
with
reduced
computational
load
collecting
similar
(deriving
from
equally
defects)
specific
defects.
hardware
implementation
what
is
designed
(plate-probe
system)
detects
evaluates
entity
defects
due
classification
percentage
comparable
performances
obtained
more
sophisticated
classifiers,
providing
possible
tool
evaluating
potentially
useful
assess
aircraft
compliance
applicable
safety
standards.
Polymers,
Год журнала:
2025,
Номер
17(3), С. 316 - 316
Опубликована: Янв. 24, 2025
Additive
manufacturing
(3D
printing)
has
transformed
dentistry
by
providing
solutions
with
high
precision
and
accuracy
achieved
through
digital
workflows,
which
facilitate
the
creation
of
intricate
personalized
structures.
Additionally,
3D
printing
promotes
cost
efficiency
reducing
material
waste
errors
while
enabling
on-demand
production,
minimizing
need
for
extensive
inventories.
Recent
advancements
in
3D-printed
resin
materials
have
enhanced
their
clinical
applications
improving
mechanical
strength,
biocompatibility,
esthetics,
durability.
These
innovations
facilitated
fabrication
complex
patient-specific
structures,
such
as
dental
prostheses,
surgical
guides,
orthodontic
appliances,
significantly
production
time
waste.
Ongoing
research
innovation
are
expected
to
strengthen
properties,
including
translucency,
durability,
broadening
applications.
The
ongoing
evolution
technology
is
poised
play
a
critical
role
driving
treatments,
streamlining
shaping
future
care.
This
narrative
review
comprehensively
examines
techniques
photopolymer
resins
across
various
specialties,
prosthodontics,
orthodontics,
pediatric
dentistry,
maxillofacial
surgery,
periodontology,
endodontics,
conservative
dentistry.
provides
insight
into
transformative
impact
these
technologies
on
patient
care,
highlights
existing
challenges,
suggests
directions
advancing
properties
integration
routine
practice.
