Environment Technology Resources Proceedings of the International Scientific and Practical Conference,
Год журнала:
2024,
Номер
3, С. 127 - 132
Опубликована: Июнь 22, 2024
The
scientific
community
is
increasingly
focusing
on
indoor
air
quality
(IAQ)
more
than
ever,
driven
by
on-going
research
and
fresh
perspectives
including
development
of
3D
technologies.
Exposure
dose
(EDa)
resulting
from
inhalation
pollutants
emitted
printers
were
calculated
in
this
study.
consideration
emissions
based
experimental
data,
primarily
sourced
reviewed
literature.
However,
also
includes
some
values,
excluding
the
background
levels
these
pollutants.
Experiments
conducted
using
several
available
(Zortrax
M300
Dual)
to
compare
generated
their
concentrations
with
information
gathered
earlier
research.
In
experiments,
filaments
containing
ABS
(acrylonitrile,
butadiene,
styrene
copolymer
material,
commonly
used
for
printing)
utilized.
EDa
values
styrene,
toluene,
formaldehyde,
acetaldehyde
8-hour
12-hour
shifts
average
maximal
(reported)
literature
data.
determined
calculating
arithmetic
mean,
which
incorporated
concentration
obtained
previous
data
collected
within
It
was
concluded
that
further
investigation
should
focus
aerial
during
printing.
Calculated
studies
exceeded
recommended
guidelines
Tolerable
Daily
Intake
(TDI)
set
World
Health
Organization
(WHO)
at
least
35%.
Further
exploration
imperative
incorporate
additional
pathways
pollutant
exposure,
such
as
skin
contact
ingestion.
This
comprehensive
approach
will
provide
a
thorough
understanding
overall
health
risks
associated
Materials,
Год журнала:
2024,
Номер
17(3), С. 769 - 769
Опубликована: Фев. 5, 2024
Precision
manufacturing
requirements
are
the
key
to
ensuring
quality
and
reliability
of
biomedical
implants.
The
powder
bed
fusion
(PBF)
technique
offers
a
promising
solution,
enabling
creation
complex,
patient-specific
implants
with
high
degree
precision.
This
technology
is
revolutionizing
industry,
paving
way
for
new
era
personalized
medicine.
review
explores
details
3D
printing
its
application
in
field.
It
begins
an
introduction
3D-printing
various
classifications.
Later,
it
analyzes
numerous
fields
which
has
been
successfully
deployed
where
precision
components
required,
including
fabrication
scaffolds
tissue
engineering.
also
discusses
potential
advantages
limitations
using
terms
precision,
customization,
cost
effectiveness.
In
addition,
highlights
current
challenges
prospects
technology.
work
valuable
insights
researchers
engaged
field,
aiming
contribute
advancement
context
applications.
Micromachines,
Год журнала:
2024,
Номер
15(10), С. 1274 - 1274
Опубликована: Окт. 21, 2024
In
recent
years,
the
field
of
micro-
and
nanochannel
fabrication
has
seen
significant
advancements
driven
by
need
for
precision
in
biomedical,
environmental,
industrial
applications.
This
review
provides
a
comprehensive
analysis
emerging
technologies,
including
photolithography,
soft
lithography,
3D
printing,
electron-beam
lithography
(EBL),
wet/dry
etching,
injection
molding,
focused
ion
beam
(FIB)
milling,
laser
micromachining,
micro-milling.
Each
these
methods
offers
unique
advantages
terms
scalability,
precision,
cost-effectiveness,
enabling
creation
highly
customized
structures.
Challenges
related
to
resolution,
high
cost
traditional
techniques
are
addressed
through
innovations
such
as
deep
reactive
etching
(DRIE)
multipass
paper
also
explores
application
potential
technologies
areas
lab-on-a-chip
devices,
biomedical
diagnostics,
energy-efficient
cooling
systems.
With
continued
research
technological
refinement,
poised
significantly
impact
future
microfluidic
nanofluidic
Biomimetics,
Год журнала:
2024,
Номер
9(5), С. 273 - 273
Опубликована: Апрель 30, 2024
Recent
advancements
in
biomimetics
have
spurred
significant
innovations
prosthetic
limb
development
by
leveraging
the
intricate
designs
and
mechanisms
found
nature.
Biomimetics,
also
known
as
“nature-inspired
engineering”,
involves
studying
emulating
biological
systems
to
address
complex
human
challenges.
This
comprehensive
review
provides
insights
into
latest
trends
biomimetic
prosthetics,
focusing
on
knowledge
from
natural
biomechanics,
sensory
feedback
mechanisms,
control
closely
mimic
appendages.
Highlighted
breakthroughs
include
integration
of
cutting-edge
materials
manufacturing
techniques
such
3D
printing,
facilitating
seamless
anatomical
limbs.
Additionally,
incorporation
neural
interfaces
enhances
movement,
while
technologies
like
scanning
enable
personalized
customization,
optimizing
comfort
functionality
for
individual
users.
Ongoing
research
efforts
hold
promise
further
advancements,
offering
enhanced
mobility
individuals
with
loss
or
impairment.
illuminates
dynamic
landscape
technology,
emphasizing
its
transformative
potential
rehabilitation
assistive
technologies.
It
envisions
a
future
where
solutions
seamlessly
integrate
body,
augmenting
both
quality
life.
Journal of Functional Biomaterials,
Год журнала:
2025,
Номер
16(1), С. 28 - 28
Опубликована: Янв. 16, 2025
The
application
of
three-dimensional
(3D)
printing/bioprinting
technologies
and
cell
therapies
has
garnered
significant
attention
due
to
their
potential
in
the
field
regenerative
medicine.
This
paper
aims
provide
a
comprehensive
overview
3D
technology
therapies,
highlighting
results
diverse
medical
applications,
while
also
discussing
capabilities
limitations
combined
use.
synergistic
combination
printing
cellular
been
recognised
as
promising
innovative
approach,
it
is
expected
that
these
will
progressively
assume
crucial
role
treatment
various
diseases
conditions
foreseeable
future.
review
concludes
with
forward-looking
perspective
on
future
impact
technologies,
revolutionize
medicine
through
enhanced
tissue
repair
organ
replacement
strategies.
IGI Global eBooks,
Год журнала:
2025,
Номер
unknown, С. 339 - 364
Опубликована: Фев. 5, 2025
This
chapter
examines
the
critical
role
of
social
innovation
in
advancing
societal
well-being
through
R&D.
It
begins
by
defining
and
its
significance
solving
pressing
global
challenges.
highlights
key
drivers
innovation,
including
increased
public
awareness,
shifting
values,
technological
advancements,
while
contrasting
it
with
traditional
CSR.
Through
various
case
studies,
article
illustrates
how
R&D
fosters
innovative
solutions
across
Healthcare,
Education,
Sustainability,
emphasizing
importance
collaboration
among
stakeholders.
also
explores
future
focusing
on
3D
printing,
blockchain,
artificial
intelligence
other
emerging
technologies.
However,
acknowledges
ethical,
social,
economic
challenges
that
accompany
these
advancements
proposes
strategies
to
overcome
them.
Ultimately,
underscores
necessity
a
supportive
policy
environment
responsible
governance
maximize
impact
ensuring
benefits
all
segments
society.
IntechOpen eBooks,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 7, 2025
Biomaterials
have
experienced
significant
growth
in
recent
decades.
Porous
biomaterials
demonstrated
the
ability
to
create
intricate
spatial
configurations
with
three
dimensions,
duplicate
physical
characteristics
of
natural
tissues,
enhance
transport
large
molecular
structures
and
cells
through
interconnected
structures,
serve
as
biologically
compatible
implants
that
may
or
not
interact
host
organism.
This
section
will
present
a
historical
perspective
on
evolution
discuss
latest
advancements
production
porous
biomaterials.
The
utilization
these
materials
spans
wide
range
clinical
applications,
along
their
associated
benefits
obstacles.
