Товарознавчий вісник,
Journal Year:
2024,
Volume and Issue:
17(1), P. 116 - 124
Published: Jan. 24, 2024
The
actuality
of
the
research
is
defined
by
need
creation
means
for
wound
treating,
insufficient
development
methods
use
possibilities
modern
nanomaterials.
purpose
to
substantiate
possibility
creating
materials
a
given
structure
ensure
controlled
liquid
removal
using
magnetic
nanocomponents.
involved
solving
nonlinear
diffusion
equation,
macroexperiments
on
sorption
filled
with
main
approaches
and
boundary
conditions
equations
are
substantiated.
approximate
analytical
solution
equation
clearly
highlighted
finding
basic
coefficient
inhibition
coefficient,
which
determines
nature
process.
Two
experiments
register
reaching
opposite
surface
healing
material
mass
accumulated
at
certain
time.
It
has
been
proven
that
introduction
nanocomponents
into
medical
affects
processes.
addition
initial
moment
reduces
coefficients.
At
same
time,
content
such
components
increases
bacteriostatic
properties
material.
organisation
process
in
variable
field
significantly
An
increase
strength
decreases
braking
coefficient.
dependence
coefficients
article.
These
data
make
it
possible
predict
material,
as
well
determine
parameters
provide
specified
parameters.
practical
value
determined
treatment
wounds
adjustable
intensity
exudate
Товарознавчий вісник,
Journal Year:
2024,
Volume and Issue:
17(1)
Published: May 28, 2024
The
relevance
of
the
present
research
is
determined
by
need
to
replace
imported
raw
materials
for
manufacturing
military
clothing
with
Ukrainian
industrial
hemp
and
oilseed
flax.The
aim
was
analyse
quality
properties
bast
determine
their
potential
use
in
uniforms.In
course
solving
set
goals,
methods
complex
analysis,
synthesis,
observation,
measurement,
comparison
generalisation
obtained
results
information
were
applied,
as
well
standard
generally
accepted
light
industry
implemented.It
noted
that
cottonin
flax
fiber,
contrast
other
natural
fibers,
are
more
durable,
resistant
abrasion,
decay,
characterised
sanitary,
antistatic,
hypoallergenic
antibacterial
properties.It
has
been
revealed
fabrics
made
these
fibers
have
high
resistance
ultraviolet
radiation,
hold
colour
well,
do
not
fade,
etc.The
academic
paper
analyses
scientific
studies
on
this
material
various
types
clothing,
protective
body
armour,
gunpowder
production.By
determining
main
under
study,
possibility
using
some
uniforms
established.The
feature
structure
components
systematic
comprehensive
study
at
all
stages
its
processing.It
proposed
instead
cotton
purposes.This
will
reduce
state's
expenditures
purchase
fabric
defense
sector
and,
same
time,
it
help
bring
a
new
level
increase
competitiveness
manufactured
goods
global
market.Knowledge
can
manufacturers
improve
purposes
Товарознавчий вісник,
Journal Year:
2024,
Volume and Issue:
17(1), P. 116 - 124
Published: Jan. 24, 2024
The
actuality
of
the
research
is
defined
by
need
creation
means
for
wound
treating,
insufficient
development
methods
use
possibilities
modern
nanomaterials.
purpose
to
substantiate
possibility
creating
materials
a
given
structure
ensure
controlled
liquid
removal
using
magnetic
nanocomponents.
involved
solving
nonlinear
diffusion
equation,
macroexperiments
on
sorption
filled
with
main
approaches
and
boundary
conditions
equations
are
substantiated.
approximate
analytical
solution
equation
clearly
highlighted
finding
basic
coefficient
inhibition
coefficient,
which
determines
nature
process.
Two
experiments
register
reaching
opposite
surface
healing
material
mass
accumulated
at
certain
time.
It
has
been
proven
that
introduction
nanocomponents
into
medical
affects
processes.
addition
initial
moment
reduces
coefficients.
At
same
time,
content
such
components
increases
bacteriostatic
properties
material.
organisation
process
in
variable
field
significantly
An
increase
strength
decreases
braking
coefficient.
dependence
coefficients
article.
These
data
make
it
possible
predict
material,
as
well
determine
parameters
provide
specified
parameters.
practical
value
determined
treatment
wounds
adjustable
intensity
exudate
