Advanced Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 25, 2025
This
review
article
explores
the
transformative
potential
of
smart
dust
systems
by
examining
how
existing
chemical
sensing
technologies
can
be
adapted
and
advanced
to
realize
their
full
capabilities.
Smart
dust,
characterized
submillimeter-scale
autonomous
platforms,
offers
unparalleled
opportunities
for
real-time,
spatiotemporal
mapping
across
diverse
environments.
introduces
technological
advancements
underpinning
these
systems,
critically
evaluates
current
limitations,
outlines
new
avenues
development.
Key
challenges,
including
multi-compound
detection,
system
control,
environmental
impact,
cost,
are
discussed
alongside
solutions.
By
leveraging
innovations
in
miniaturization,
wireless
communication,
AI-driven
data
analysis,
sustainable
materials,
this
highlights
promise
address
critical
challenges
monitoring,
healthcare,
agriculture,
defense
sectors.
Through
lens,
provides
a
strategic
roadmap
advancing
from
concept
practical
application,
emphasizing
its
role
transforming
understanding
management
complex
systems.
Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials,
Год журнала:
2024,
Номер
157, С. 106646 - 106646
Materials,
Год журнала:
2024,
Номер
17(15), С. 3851 - 3851
Опубликована: Авг. 3, 2024
Magnesium
alloys,
renowned
for
their
lightweight
yet
high-strength
characteristics,
with
exceptional
mechanical
properties,
are
highly
coveted
numerous
applications.
The
emergence
of
magnesium
alloy
additive
manufacturing
(Mg
AM)
has
further
propelled
popularity,
offering
advantages
such
as
unparalleled
precision,
swift
production
rates,
enhanced
design
freedom,
and
optimized
material
utilization.
This
technology
holds
immense
potential
in
fabricating
intricate
geometries,
complex
internal
structures,
performance-tailored
microstructures,
enabling
groundbreaking
In
this
paper,
we
delve
into
the
core
processes
pivotal
influencing
factors
current
techniques
employed
Mg
AM,
including
selective
laser
melting
(SLM),
electron
beam
(EBM),
wire
arc
(WAAM),
binder
jetting
(BJ),
friction
stir
(FSAM),
indirect
(I-AM).
Laser
powder
bed
fusion
(LPBF)
excels
precision
but
is
limited
by
a
low
deposition
rate
chamber
size;
WAAM
offers
cost-effectiveness,
high
efficiency,
scalability
large
components;
BJ
enables
precise
customized
parts
environmental
benefits;
FSAM
achieves
fine
grain
sizes,
defect
products;
I-AM
boasts
build
industrial
adaptability
less
studied
recently.
paper
attempts
to
explore
possibilities
challenges
future
research
AM.
Among
them,
two
issues
how
mix
different
AM
applications
use
integration
Internet
technologies,
machine
learning,
process
modeling
which
innovative
breakthroughs
International Journal of Extreme Manufacturing,
Год журнала:
2024,
Номер
7(2), С. 022002 - 022002
Опубликована: Ноя. 14, 2024
Highlights
Exploring
personalized
biomedical
metal
implants
through
additive
manufacturing
(AM).
Presenting
new
load-bearing
and
biodegradable
alloys
for
implants.
Showcasing
AI
4D
printing
advancements
in
material
properties.
AM’s
roles
various
medical
fields.
Highlighting
perspectives
of
implant
technology
improved
patient
care.
Journal of Orthopaedic Translation,
Год журнала:
2025,
Номер
50, С. 306 - 332
Опубликована: Янв. 1, 2025
Internal
fixation
is
the
most
common
and
effective
fracture
treatment,
design
of
Fixation
Implants
(IFI)
important
for
healing.
In
recent
decades,
IFI
have
been
designed
from
aspects
materials,
geometry,
methods
functional
characteristics.
However,
there
has
no
comprehensive
summary
on
evaluation
method
IFI.
This
paper
aims
to
review
analyze
key
issues
involved
in
IFI,
provide
references
design.
Firstly,
main
factors
affecting
healing
effect
are
summarized
requirements
put
forward
through
analysis
process.
Secondly,
compared
summarized,
importance
based
theory
emphasized.
Subsequently,
properties
application
scopes
biomaterials
introduced.
And
which
used
widely,
such
as
bone
plate,
intramedullary
nail
embracing
device,
summed
up
methods.
Highlight
distinctive
contributions
additive
manufacturing
fabrication
implants
surface
treatment
improving
multifunctionality
implants.
Finally,
concept
ideal
potential
research
content
future
proposed
existing
studies.
study
summarizes
analyzes
A
discussion
directions
suggestion
were
made,
expected
advance
this
field.
Journal of Materials Research and Technology,
Год журнала:
2024,
Номер
30, С. 8316 - 8344
Опубликована: Май 1, 2024
Over
the
last
ten
years,
magnesium
(Mg)-based
syntactic
foams
(SFs)
have
gained
significant
attention
and
their
popularity
continues
to
grow.
This
is
because
they
possess
unique
properties
such
as
high
mechanical
strength
are
lightweight,
making
them
potential
candidates
for
applications
in
various
industries,
including
aerospace,
automotive,
biomedical
(especially
orthopedics).
article
reviews
discusses
different
fabrication
techniques
used
producing
magnesium-matrix
(Mg-MSFs).
These
include
stir
casting,
disintegrated
melt
deposition,
powder
metallurgy,
infiltration.
The
review
comprehensively
analyzes
microstructure
specifications,
properties,
corrosion
behavior
exhibited
by
Mg-MSFs
fabricated
date.
findings
suggest
that
of
these
foams,
microstructural
characteristics,
behavior,
significantly
influenced
factors
filler
particle
amounts
Mg
alloy-matrix
techniques,
process
parameters,
post-processing
treatments
(such
annealing
sintering).
play
a
crucial
role
determining
final
characteristics
foams.
While
hold
substantial
importance
potential,
limited
body
research
exists
this
area.
Therefore,
more
necessary
understand
structures,
which
will
facilitate
effective
utilization
both
industrial
applications.
