İYONLAŞTIRICI RADYASYONLA KSANTAN SAKIZI ESASLI SÜPER EMİCİ POLİMERLERİN HAZIRLANMASI
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Date
2017Author
Hayrabolulu, Hande
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The main purpose of this study is to determine the
optimum irradiation dose rate, dose,
polymer concentration, the type and concentration of the chemicals that will
affect
the
crosslinking process and to investigate the usability of the obtained natural polymer
(xanthan gum) based hydrogels
as a potential
substitute of commercially available
synthetic
polymer
based SAPs.
It has been determined that many polysaccharides can be cross
-
linked with a synthetic
monomer in the presence of a sensitizing chemical or when irradiated under conditions
called paste
like
state
. However, there is no comprehensive study of the interaction, cross
-
linking and preparation of
superabsorbent polymers
with ioni
zing radiation of xanthan
gum
,
which
studied in this work
,
a polysaccharide commonly used in the food
industry,
which
obt
ained
through
fer
mentation of glucose or sucrose
.
In addition
to these
, the Kuhn
-
Mark
-
Houwink
-
Sakura (KMHS) constants in various solvent systems, one of the most
important parameters for determining the molecular weight of a polymer, are limited to a
singl
e solvent and low temperature for xanthan gum
in literature.
For these
reason
s, in this study, first
, the effect of ionizing radiation on pure
xanthan gum
was investigated. The fundamental changes in chemical structure and chain structure of
xanthan gum
irradiated
at different conditions (in the powder form and in solution form
with various concentrations)
were investigated by spectroscopic, chromatographic and
rheological analyzes.
Spectroscopic
analyze
s
have
shown
that the main effects
of
ionizing
radia
tion o
n
xanthan
gum
occur
red
on
main chain.