Over
the
last
two
decades,
there
has
been
a
substantial
surge
in
demand
for
medical
products
rooted
biomaterials
and
tissue
engineering.
This
propelled
significant
growth
biomedical
research.
Polymer-based
composites,
constituting
particularly
intriguing
category
of
biomaterials,
have
become
extensively
employed
various
applications.
popularity
is
attributable
to
their
exceptional
physical
mechanical
characteristics.
Bio-polymers,
particular,
are
gaining
widespread
use
owing
inherent
features,
including
low
density,
reduced
thermal
conductivity,
resistance
corrosion,
ease
with
which
complex
shapes
can
be
manufactured.
To
provide
an
overview
development
polymer-based
composites
terms
structure,
characteristics,
methods
manufacture.
Bioactive
covered
this
topic,
those
that
ability
produce
bones,
antibacterial,
magnetic,
electrically
conductive,
release
oxygen.
It
also
explores
non-bioactive
porogens
reinforcing
fillers.
Furthermore,
types
reinforcements,
such
as
natural
fibers,
cellulose,
animal
bio-polymers,
seed
shells,
bioceramics,
bio-chemicals,
examined
role
enhancing
properties
like
tensile
strength,
compressive
flexural
creep
behavior
Young's
modulus
these
composites.
The
narrative
extends
discussion
scaffold
structures
created
through
particle
leaching,
3D
additive
manufacturing
electrospinning.
Each
section
highlights
recent
advancements
utilization
Over
the
last
two
decades,
there
has
been
a
substantial
surge
in
demand
for
medical
products
rooted
biomaterials
and
tissue
engineering.
This
propelled
significant
growth
biomedical
research.
Polymer-based
composites,
constituting
particularly
intriguing
category
of
biomaterials,
have
become
extensively
employed
various
applications.
popularity
is
attributable
to
their
exceptional
physical
mechanical
characteristics.
Bio-polymers,
particular,
are
gaining
widespread
use
owing
inherent
features,
including
low
density,
reduced
thermal
conductivity,
resistance
corrosion,
ease
with
which
complex
shapes
can
be
manufactured.
To
provide
an
overview
development
polymer-based
composites
terms
structure,
characteristics,
methods
manufacture.
Bioactive
covered
this
topic,
those
that
ability
produce
bones,
antibacterial,
magnetic,
electrically
conductive,
release
oxygen.
It
also
explores
non-bioactive
porogens
reinforcing
fillers.
Furthermore,
types
reinforcements,
such
as
natural
fibers,
cellulose,
animal
bio-polymers,
seed
shells,
bioceramics,
bio-chemicals,
examined
role
enhancing
properties
like
tensile
strength,
compressive
flexural
creep
behavior
Young's
modulus
these
composites.
The
narrative
extends
discussion
scaffold
structures
created
through
particle
leaching,
3D
additive
manufacturing
electrospinning.
Each
section
highlights
recent
advancements
utilization
