Results in Engineering,
Journal Year:
2023,
Volume and Issue:
20, P. 101511 - 101511
Published: Oct. 18, 2023
Eco-friendly
bio-active
materials
designed
from
available
natural
resources
have
been
signified
a
big
challenge
in
the
past
few
decades.
Nevertheless,
deficiency
of
most
essential
knowledge
regarding
effective
processing
starting
which
has
used
to
fabricate
targeted
bio-polymeric
composites
framework
is
considered
foremost
encounter.
However,
cellulosic
fibers
(generally
extracted
different
parts
plants
like
bast/bark,
leaf,
steam)
received
more
attention
researchers,
due
their
outstanding
physiochemical,
thermomechanical,
morphological
properties
and
eco-friendly
nature/sustainability.
Basically,
features
hinge
on
proper
preparation
modification
process.
Conversely,
main
problem
fiber
its
hydrophilic
nature
while
polymeric
matrix
are
hydrophobic
thus
it
urgent
reduce
by
conducting
various
significant
chemical
techniques
so
as
improve
overall
quality
reinforcement
sustainable
biocomposite.
Therefore,
will
be
proposed
with
detailed
overview
focusing
notable
process
modifications
characterization
methods
this
review.
We
also
summarize
important
findings
earlier
literature
effects
treatments
being
emphasized.
Advanced Sustainable Systems,
Journal Year:
2022,
Volume and Issue:
6(11)
Published: Sept. 19, 2022
Abstract
Sustainable
fiber
reinforced
polymer
(FRP)
composites
from
renewable
and
biodegradable
fibrous
materials
matrices
are
of
great
interest,
as
they
can
potentially
reduce
environmental
impacts.
However,
the
overall
properties
such
still
far
high‐performance
conventional
glass
or
carbon
FRP
composites.
Therefore,
a
balance
between
composite
performance
biodegradability
is
required
with
approaches
to
what
one
might
call
an
eco‐friendly
composite.
This
review
provides
overview
sustainable
composites,
their
manufacturing
techniques,
sustainability
in
general
at
materials,
manufacturing,
end‐of‐life
levels.
plant‐based
natural
fibers
also
summarized,
followed
by
modification
techniques
obtain
high‐performance,
multifunctional,
Current
state‐of‐the‐art
mechanical
functional
then
surveyed,
potential
applications
various
industries,
including
automobile,
aerospace,
construction,
medical,
sports,
electronics
provided.
Finally,
future
market
trends,
current
challenges,
perspective
on
discussed.
Polymers,
Journal Year:
2022,
Volume and Issue:
14(17), P. 3698 - 3698
Published: Sept. 5, 2022
The
depletion
of
petroleum-based
resources
and
the
adverse
environmental
problems,
such
as
pollution,
have
stimulated
considerable
interest
in
development
environmentally
sustainable
materials,
which
are
composed
natural
fiber-reinforced
polymer
composites.
These
materials
could
be
tailored
for
a
broad
range
industrial
applications
with
new
surface
functionalities.
However,
there
several
challenges
drawbacks,
composites
processing
production
fiber/matrix
adhesion,
that
need
to
addressed
overcome.
This
review
provide
an
overview
technological
challenges,
techniques,
characterization,
properties,
potential
NFRPC
applications.
Interestingly,
roadmap
move
into
Industry
4.0
was
highlighted
this
review.
Journal of Materials Research and Technology,
Journal Year:
2021,
Volume and Issue:
14, P. 2601 - 2623
Published: July 31, 2021
The
research
interest
in
sustainable
and
eco-friendly
materials
based
on
natural
sources
has
increased
dramatically
due
to
their
recyclability,
biodegradability,
compatibility,
nontoxic
behavior.
Nanocellulose
contains
chains
of
glucose
residue
is
an
abundantly
available
green
material.
Recently,
nanocellulose-based
composites
are
under
extensive
exploration
gained
popularity
among
researchers
owing
lightweight,
lost
cost,
low
density,
excellent
mechanical
physical
characteristics.
These
have
also
shown
tremendous
potential
for
applications
biomedical
numerous
engineering
fields.
properties
these
play
a
vital
role
effective
utilization
future
applications.
This
review
article
comprehensively
presents
current
developments,
results,
findings
the
arena
materials.
Currently,
main
problem
large
variability
qualities.
influenced
by
various
factors,
including
fiber
type,
ecological
conditions,
manufacturing
methods,
any
alteration
surface.
Finally,
incorporates
challenges
opportunities
field
nano
cellulosic
Asian Journal of Pharmaceutical Sciences,
Journal Year:
2023,
Volume and Issue:
18(3), P. 100812 - 100812
Published: April 27, 2023
Biopolymers
are
promising
environmentally
benign
materials
applicable
in
multifarious
applications.
They
especially
favorable
implantable
biomedical
devices
thanks
to
their
excellent
unique
properties,
including
bioactivity,
renewability,
bioresorbability,
biocompatibility,
biodegradability
and
hydrophilicity.
Additive
manufacturing
(AM)
is
a
flexible
intricate
technology,
which
widely
used
fabricate
biopolymer-based
customized
products
structures
for
advanced
healthcare
systems.
Three-dimensional
(3D)
printing
of
these
sustainable
applied
functional
clinical
settings
wound
dressing,
drug
delivery
systems,
medical
implants
tissue
engineering.
The
present
review
highlights
recent
advancements
different
types
biopolymers,
such
as
proteins
polysaccharides,
employed
develop
by
using
extrusion,
vat
polymerization,
laser
inkjet
3D
techniques
addition
normal
bioprinting
four-dimensional
(4D)
techniques.
This
also
incorporates
the
influence
nanoparticles
on
biological
mechanical
performances
3D-printed
scaffolds.
work
addresses
current
challenges
well
future
developments
friendly
polymeric
manufactured
through
AM
Ideally,
there
need
more
focused
research
adequate
blending
biodegradable
biopolymers
achieving
useful
results
targeted
areas.
We
envision
that
composites
have
potential
revolutionize
sector
near
future.
Reactive and Functional Polymers,
Journal Year:
2022,
Volume and Issue:
179, P. 105374 - 105374
Published: Aug. 10, 2022
4D
bioprinting
is
the
next-generation
additive
manufacturing-based
fabrication
platform
employed
to
construct
intricate,
adaptive,
and
dynamic
soft
hard
tissue
structures
as
well
biomedical
devices.
It
achieved
by
using
stimuli-responsive
materials,
especially
shape
memory
polymers
(SMPs)
hydrogels,
which
possess
desirable
biomechanical
characteristics.
In
last
few
years,
numerous
efforts
have
been
made
printing
community
develop
novel
polymeric
materials
considering
their
perspective.
This
review
presents
an
up-to-date
overview
of
technology
incorporating
functionalities
biomaterials
focused
approach
towards
different
engineering
regenerative
medicine
(TERM)
applications.
includes
bone,
cardiac,
neural,
cartilage,
drug
delivery
systems,
other
high-value
also
addresses
current
limitations
challenges
in
provide
a
basis
for
foreseeable
advancements
TERM
applications
that
could
be
helpful
successful
utilization
clinical
settings.
Polymer Composites,
Journal Year:
2023,
Volume and Issue:
44(5), P. 2598 - 2633
Published: Feb. 17, 2023
Abstract
Natural
fiber‐reinforced
polymer
composites
(NFPCs)
have
gained
limelight
in
many
applications
during
the
recent
years,
owing
to
their
availability,
as
well
superior
mechanical
characteristics,
cost‐effectiveness,
biodegradability,
and
lightweight.
A
comprehensive
understanding
of
manufacturing
methods,
proeprties
characteristics
natural
fibers
pave
way
for
begetting
a
wide
spectrum
NFPCs
automobile,
aerospace,
electronics,
other
engineering
fields.
The
current
review
article
is
about
composites,
commonly
used
fabrication
including
fiber
pre‐treatments,
numerous
intermediate
steps
added
achieve
improved
bonding,
processability
these
properties
application
prospects.
Various
state‐of‐the‐art
methods
like
additive
manufacturing,
vaccum
bag
molding,
autoclave
has
also
been
discussed.
obtained
through
various
reinforcements
accordance
with
process
parameters
substantial
impact
industrial
NFPCs.
tribological
are
becoming
increasingly
important
order
deal
chemical
wear
tear
service
life
contact
applications.
Flammability
behavior
biodegradability
assessment
high‐temperature
outdoor
environmental
materials.
includes
discussion
trending
future
prospects
