Critical reviews in solid state and materials sciences/CRC critical reviews in solid state and materials sciences,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 42
Published: March 25, 2024
Magnesium
alloys
have
received
a
lot
of
attention
as
prospective
bioimplant
material
due
to
their
biocompatibility,
mechanical
properties,
and
biodegradability.
composites
hold
enormous
promise
replacement
for
permanent
metallic
implants,
there
is
no
need
secondary
surgeries
after
recovery.
To
address
the
corrosion
biodegradation
rate
magnesium,
different
approaches
can
be
adopted,
such
composite
preparation
surface
modification.
This
comprehensive
review
emphasizes
processing
route,
matrix,
reinforcement
Mg
alloy
composite,
with
aim
enhancing
mechanical,
biological,
chemical
properties.
It
also
discusses
biocompatibility
aspects
composites.
The
article
sheds
light
on
potential
magnesium
become
dominant
player
in
field
materials.
Materials Today Bio,
Journal Year:
2023,
Volume and Issue:
23, P. 100823 - 100823
Published: Oct. 1, 2023
Wound
care
and
treatment
can
be
critical
from
a
clinical
standpoint.
While
different
strategies
for
the
management
of
skin
wounds
have
been
developed,
limitations
inherent
in
current
approaches
necessitate
development
more
effective
alternative
strategies.
Advances
tissue
engineering
resulted
novel
promising
accelerating
wound
healing.
The
use
various
biomaterials
capable
regeneration
damaged
is
engineering.
In
this
regard,
cerium
oxide
nanoparticles
(CeO
Advanced Engineering Materials,
Journal Year:
2023,
Volume and Issue:
25(21)
Published: Aug. 29, 2023
Stimuli‐responsive
polymers
(SRPs)
are
special
types
of
soft
materials,
which
have
been
extensively
used
for
developing
flexible
actuators,
robots,
wearable
devices,
sensors,
self‐expanding
structures,
and
biomedical
thanks
to
their
ability
change
shapes
functional
properties
in
response
external
stimuli
including
light,
humidity,
heat,
pH,
electric
field,
solvent,
magnetic
field
or
combinations
two
more
these
stimuli.
In
recent
years,
additive
manufacturing
(AM)
aka
3D
printing
technology
SRPs,
also
known
as
4D
printing,
has
gained
phenomenal
attention
different
engineering
fields,
its
unique
develop
complex,
personalized,
innovative
undergo
twisting,
elongating,
swelling,
rolling,
shrinking,
bending,
spiraling,
other
complex
morphological
transformations.
Herein,
an
effort
made
provide
insightful
information
about
the
AM
techniques,
type
applications
including,
but
not
limited
tissue
engineering,
bionics,
construction,
smart
textiles.
This
article
incorporates
current
challenges
prospects,
hoping
basis
utilization
this
fields.
It
is
expected
that
amalgamation
with
SRPs
would
unparalleled
advantages
arenas.
Corrosion Science,
Journal Year:
2024,
Volume and Issue:
239, P. 112399 - 112399
Published: Aug. 24, 2024
Zn-Mn
alloys
are
considered
promising
biodegradable
metals
for
orthopedic
applications
due
to
their
large
elongation
and
favorable
osteogenicity.
However,
the
corrosion
rate
of
could
be
improved
meet
degradation
requirement
implants.
In
this
study,
a
Zn-1.5Mn
alloy
was
prepared
via
high-pressure
solid-solution
(HPSS)
treatment
at
5
GPa
380
°C
1
h
cast
ingots.
Microstructural
evaluation
revealed
HPSS
caused
phase
transition
from
ζ-MnZn13
an
ε-MnZn3
phase.
The
electrode
potential
difference
between
α-Zn
significantly
larger
than
α-Zn,
leading
accelerated
HPSS-treated
alloy.
It
showed
electrochemical
0.343
mm/y
immersion
0.028
mm/y,
while
as-cast
(AC)
displayed
0.216
0.026
mm/y.
Further,
exhibited
compressive
yield
strength
202
MPa
microhardness
83.48
HV.
addition,
cell
viability
toward
human
umbilical
vein
endothelial
cells
(HUVEC)
comparable
its
AC
atmospheric
pressure
solid-solution-treated
(APSS-treated)
counterparts
HUVEC,
along
with
antibacterial
activity.
Journal of Industrial and Production Engineering,
Journal Year:
2023,
Volume and Issue:
40(6), P. 464 - 505
Published: June 27, 2023
The
use
of
cutting-edge
techniques
is
beneficial
for
the
research
and
development
biomaterials
production
new
sustainable
biomaterials.
Eco-friendly
should
be
promoted.
As
prospective
substitutes
conventional
materials,
a
variety
have
been
conceived
produced
to
date
successfully
used
in
various
biomedical
disciplines.
sustainability
component
additive
manufacturing
main
goal
this
article.
There
discussion
metallic
biomaterials,
including
titanium,
stainless
steel,
magnesium,
cobalt-chromium
alloy,
zinc,
tantalum
etc.
effects
several
on
are
examined.
Also,
properties
manufactured
aspect
discussed
detail.
By
reducing
material
waste
using
time
energy
efficiently,
can
assist
lower
costs
having
less
harmful
environment.
This
article
aspects
different
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(12), P. e32713 - e32713
Published: June 1, 2024
Mg-based
and
Zn-based
biodegradable
materials
have
the
potential
to
become
next-generation
implant
treat
bone
diseases,
because
of
their
desired
degradation
mechanical
properties.
This
article
reviews
status
these
materials.
The
required
properties
such
as
biodegradability,
properties,
biocompatibility
for
performance
evaluation
were
briefly
discussed.
influence
fabrication
techniques,
microstructure,
alloying
elements,
post-processing
techniques
on
Mg
was
addressed.
mechanism
by
dissolution,
oxidation,
interaction
with
human
body
cells
analyzed.
significance
in
vitro
vivo
testing
highlighted,
emphasizing
superiority
results
over
cell
line
studies.
identifies
many
summarizes
key
findings.
