Applied Sciences,
Journal Year:
2025,
Volume and Issue:
15(6), P. 2962 - 2962
Published: March 10, 2025
Additive
manufacturing
must
be
highlighted
as
an
innovative
technology
with
the
capacity
to
produce
objects
complex
and
customized
geometries
using
a
diverse
range
of
raw
materials.
Despite
its
significant
potential,
research
compiling
evaluating
specific
contributions
additive
in
field
chemical
engineering
was
scarce
both
quantitative
qualitative
terms.
Similarly,
application
tools
has
not
been
specifically
reviewed.
Therefore,
this
work
conducted
comprehensive
review
scientific
literature
covering
these
issues
bibliometric
analysis.
The
search
encompassed
entirety
up
year
2023,
yielding
3761
documents
Scopus
database.
principal
findings
analysis
indicated
exponential
growth
number
publications,
which
suggests
rising
interest
field.
revealed
that
English
dominant
language
documents,
articles
constituted
most
common
document
type,
indicating
quality
maturity
research.
thematic
distribution
proved
multidisciplinary,
primary
focus
on
materials
science,
well
basic
sciences.
United
States
foremost
contributor
production,
followed
by
China
Germany.
Keyword
scrutiny
cited
enabled
identification
main
topics,
were
found
include
biofabrication
biomedical
applications.
Moreover,
network
software
SciMAT
(v
1.1.06)
yielded
corresponding
strategic
diagrams,
evolution
maps,
networks,
provided
overview
trends
gaps.
considerable
other
purposes
overshadowed
applications
within
field,
while
potential
could
make
have
eclipsed
too.
On
one
hand,
focused
process
intensification
benefit
from
design
advanced
microreactors
miniaturized
devices
or
more
efficient
heat
exchangers,
catalysts,
adsorbents
separation
membranes
structures.
life
cycle
assessment
optimization
are
established
should
extensively
employed
context
ensure
sustainable
outcome.
Micromachines,
Journal Year:
2025,
Volume and Issue:
16(2), P. 226 - 226
Published: Feb. 16, 2025
Fused
Deposition
Modeling
(FDM)
is
a
prominent
additive
manufacturing
technique
known
for
its
ability
to
provide
cost-effective
and
fast
printing
solutions.
FDM
enables
the
production
of
computer-aided
3D
designs
as
solid
objects
at
macro
scales
with
high-precision
alignment
while
sacrificing
excellent
surface
smoothness
compared
other
techniques
such
SLA
(Stereolithography)
SLS
(Selective
Laser
Sintering).
Electro-Spinning
(ES)
another
producing
soft-structured
nonwoven
micro-scale
materials,
nanofibers.
However,
technique,
it
has
limited
accuracy
sensitivity
regarding
alignment.
The
need
micro-scaled
soft
structures
during
process
raises
question
whether
ES
can
be
combined.
Today,
capability
called
Melt
Electro
Writing
(MEW),
in
practice,
refers
basic
working
principle
on
which
bio-printers
are
based.
This
paper
aims
examine
how
these
two
combined
affordably.
Comparatively,
presents
output
processes,
design
components,
parameters,
materials
used
production.
It
discusses
limitations
advantages
hybrid
platform,
specifically
from
perspective
engineering
biomedical
applications.
Applied Sciences,
Journal Year:
2025,
Volume and Issue:
15(6), P. 2962 - 2962
Published: March 10, 2025
Additive
manufacturing
must
be
highlighted
as
an
innovative
technology
with
the
capacity
to
produce
objects
complex
and
customized
geometries
using
a
diverse
range
of
raw
materials.
Despite
its
significant
potential,
research
compiling
evaluating
specific
contributions
additive
in
field
chemical
engineering
was
scarce
both
quantitative
qualitative
terms.
Similarly,
application
tools
has
not
been
specifically
reviewed.
Therefore,
this
work
conducted
comprehensive
review
scientific
literature
covering
these
issues
bibliometric
analysis.
The
search
encompassed
entirety
up
year
2023,
yielding
3761
documents
Scopus
database.
principal
findings
analysis
indicated
exponential
growth
number
publications,
which
suggests
rising
interest
field.
revealed
that
English
dominant
language
documents,
articles
constituted
most
common
document
type,
indicating
quality
maturity
research.
thematic
distribution
proved
multidisciplinary,
primary
focus
on
materials
science,
well
basic
sciences.
United
States
foremost
contributor
production,
followed
by
China
Germany.
Keyword
scrutiny
cited
enabled
identification
main
topics,
were
found
include
biofabrication
biomedical
applications.
Moreover,
network
software
SciMAT
(v
1.1.06)
yielded
corresponding
strategic
diagrams,
evolution
maps,
networks,
provided
overview
trends
gaps.
considerable
other
purposes
overshadowed
applications
within
field,
while
potential
could
make
have
eclipsed
too.
On
one
hand,
focused
process
intensification
benefit
from
design
advanced
microreactors
miniaturized
devices
or
more
efficient
heat
exchangers,
catalysts,
adsorbents
separation
membranes
structures.
life
cycle
assessment
optimization
are
established
should
extensively
employed
context
ensure
sustainable
outcome.
