Applied Sciences,
Journal Year:
2024,
Volume and Issue:
14(16), P. 7299 - 7299
Published: Aug. 19, 2024
Three-dimensional
printing
has
become
a
fast-growing
industry.
The
first
phase
of
this
technology
is
the
design
3D
object
to
personalize
it
and
optimize
its
production.
This
paper
explores
procedural
generation
model.
article
aims
present
method
procedurally
generating
objects
in
Python.
Procedural
content
automated
creation
using
algorithms.
Most
often,
as
part
generation,
small
number
input
parameters
pseudo-random
processes
are
used
generate
that
will
meet
requirements.
programming
techniques
for
customization
Python
manufacturing
process.
Moreover,
speeds
up
model
design,
if
developers
use
scanning
methods
artificial
intelligence,
production
can
be
personalized,
which
line
with
concept
Industry
4.0.
Journal of Materials Research and Technology,
Journal Year:
2024,
Volume and Issue:
32, P. 4136 - 4197
Published: Sept. 1, 2024
Exploring
shape
memory
alloys
(SMAs)
is
like
diving
into
a
world
of
material
magic,
especially
when
combined
with
additive
manufacturing
techniques.
This
detailed
review
delves
the
fascinating
realm
manufactured
SMAs,
examining
their
complex
fabrication
processes,
captivating
internal
structures,
wide-ranging
applications,
and
unique
properties.
It
remarkable
to
observe
how
combination
metals,
particularly
nickel
titanium,
creates
very
essence
SMA's
capabilities
various
other
for
novel
SMAs.
Additional
insights
are
provided
regarding
parameters
appropriate
post-treatments
can
enable
these
materials
accomplish
extraordinary
functionalities.
These
SMAs
also
possess
ability
recollect
move,
demonstrating
superelasticity
capacity
regain
original
in
capacities.
However,
there
promising
prospects
development
SMA
mixtures,
enhanced
methods,
even
more
intelligent
responsive
products
dimensional
accuracy
uniformity.
work
presents
on
opportunities
industries
resilient
materials,
ranging
from
everyday
devices
immense
expanse
space
human
body.
Even
advancements,
still
be
done
continuously
improving
design
pocket
comfort.
not
only
information
but
envisions
future
which
central
advancements
engineering
fields.
Applied and Computational Engineering,
Journal Year:
2025,
Volume and Issue:
117(1), P. 34 - 43
Published: Jan. 15, 2025
As
a
new
manufacturing
technology,
3D
printing
technology
has
shown
great
potential
in
healthcare.
The
current
study
attempts
to
provide
comprehensive
review
of
the
research
landscape
regarding
utilization
healthcare
sector.
Nowadays,
three-dimensional
is
applied
tissue
engineering
manufacture
complex
and
functionalized
scaffolds,
hence
providing
strong
support
for
regenerative
medicine
enabling
more
precise
replacement
vivo.
In
context
medical
models,
can
reproduce
with
accuracy
diseased
organs
or
structures
question
by
patient;
this
respect,
even
bones
are
included.
That
gives
intuitive
physical
models
surgical
planning,
simulation
training,
thereby
improving
success
rate
surgery
reducing
complications.
bespoke
devices,
facilitates
personalization
such
as
prosthetics
implants,
greater
degree
fit
individual
patient
requirements.
pharmaceutical
sector,
being
employed
develop
personalised
medicines,
objective
optimising
drug
release
profiles
innovative
ways.
However,
application
also
encounters
obstacles,
including
necessity
enhance
biocompatibility
materials,
achieve
precision
printing,
establish
standards
regulations.
Nevertheless,
rapid
development
wide
spread
use
health
cannot
be
ruled
out;
so,
it
likely
change
face
times
come
Journal of Manufacturing and Materials Processing,
Journal Year:
2025,
Volume and Issue:
9(4), P. 129 - 129
Published: April 14, 2025
Three-dimensional
(3D)
bioprinting
using
biocompatible
polymers
has
emerged
as
a
revolutionary
technique
in
tissue
engineering
and
regenerative
medicine.
These
biopolymers
mimic
the
extracellular
matrix
(ECM)
enhance
cellular
behavior.
The
current
review
presents
recent
advancements
additive
manufacturing
processes
including
Stereolithography
(SLA),
Fused
Filament
Fabrication
(FFF),
Selective
Laser
Sintering
(SLS),
inkjet
printing.
It
also
explores
fundamentals
of
3D
printing
properties
for
bioprinting.
By
mixing
biopolymers,
enhancing
rheological
characteristics,
adding
bioactive
components,
further
have
been
made
organ
transplantation,
drug
development,
engineering.
As
research
progresses,
potential
to
fundamentally
transform
healthcare
system
is
becoming
obvious
clear.
However,
therapeutic
printed
structures
hindered
by
issues
such
material
anisotropy,
poor
mechanical
properties,
need
more
biodegradable
architectures.
Future
should
concentrate
on
optimizing
process
sophisticated
computational
techniques,
systematically
examining
characteristics
customizing
bioinks
different
cell
types,
exploring
sustainable
materials.
Journal of Biomaterials Applications,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 16, 2025
Fused
deposition
modeling
(FDM)
is
emerging
as
a
promising
technique
for
manufacturing
bioresorbable
stents
(BRS),
particularly
coronary
artery
disease
treatment.
Polycaprolactone
(PCL)
has
emerged
favored
material
due
to
its
biocompatibility,
controlled
degradation
rate
and
mechanical
properties.
This
review
provides
comprehensive
analysis
of
the
effects
key
FDM
printing
parameters
on
quality
aspects
PCL-based
BRS,
focusing
morphological,
biological
characteristics.
also
highlights
inconsistencies
in
previous
studies,
impact
these
stent
dimensions
properties,
emphasizing
need
standardization
experimental
methodologies.
Additionally,
current
gaps
research
related
performances
BRS
are
discussed,
with
call
further
studies
long-term
effects.
aims
guide
future
by
offering
insights
into
optimizing
improving
overall
performance
clinical
outcomes
BRS.
