Gel point studies for chemically modified biopolymer networks using small amplitude oscillatory rheometry
Solutions of xanthan gum form a strong gel upon the addition of aluminum ions (Al(III)). Previous studies have reported that the addition of chromium and ferric ions induces gelation in xanthan solutions; this study presents a characterisation of the transition from solution to gel for xanthan in th...
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Veröffentlicht in: | Polymer (Guilford) 2001, Vol.42 (1), p.185-198 |
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description | Solutions of xanthan gum form a strong gel upon the addition of aluminum ions (Al(III)). Previous studies have reported that the addition of chromium and ferric ions induces gelation in xanthan solutions; this study presents a characterisation of the transition from solution to gel for xanthan in the presence of Al(III). Xanthan-Al(III) solutions are shown rheologically to undergo a sol-gel transition upon heating, the extent of gelation is controlled by the temperature at which the system equilibrates. The rapid thermal equilibration of xanthan-AI(III) provides an ideal system to test the applicability of 2 established gelation criteria. At the gel point, congruency is observed over 2-3 decades of frequency. The difficulties associated with determining an equilibrium relaxation modulus as a criterion for gelation are discussed. The gelation behaviour of xanthan-Al(III) gels is characterised for a range of polymer crosslinker combinations (stoichiometric ratios) and a limiting stoichiometric ratio below which gelation does not occur is determined. The relaxation exponent is determined at the limiting stoichiometric ratio. The relaxation exponent is found to vary between 0.22 and 0.16 for a 0.5 wt% xanthan and a range of Al(III) concentrations. The temperature at which the gel point is observed, follows an asymptotic relationship with stoichiometric ratio suggesting the importance of the order - disorder transition of xanthan molecules on the gelation process of xanthan-Al(III) gels. (Original abstract - amended) |
doi_str_mv | 10.1016/s0032-3861(00)00311-6 |
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The difficulties associated with determining an equilibrium relaxation modulus as a criterion for gelation are discussed. The gelation behaviour of xanthan-Al(III) gels is characterised for a range of polymer crosslinker combinations (stoichiometric ratios) and a limiting stoichiometric ratio below which gelation does not occur is determined. The relaxation exponent is determined at the limiting stoichiometric ratio. The relaxation exponent is found to vary between 0.22 and 0.16 for a 0.5 wt% xanthan and a range of Al(III) concentrations. The temperature at which the gel point is observed, follows an asymptotic relationship with stoichiometric ratio suggesting the importance of the order - disorder transition of xanthan molecules on the gelation process of xanthan-Al(III) gels. 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At the gel point, congruency is observed over 2-3 decades of frequency. The difficulties associated with determining an equilibrium relaxation modulus as a criterion for gelation are discussed. The gelation behaviour of xanthan-Al(III) gels is characterised for a range of polymer crosslinker combinations (stoichiometric ratios) and a limiting stoichiometric ratio below which gelation does not occur is determined. The relaxation exponent is determined at the limiting stoichiometric ratio. The relaxation exponent is found to vary between 0.22 and 0.16 for a 0.5 wt% xanthan and a range of Al(III) concentrations. The temperature at which the gel point is observed, follows an asymptotic relationship with stoichiometric ratio suggesting the importance of the order - disorder transition of xanthan molecules on the gelation process of xanthan-Al(III) gels. 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The rapid thermal equilibration of xanthan-AI(III) provides an ideal system to test the applicability of 2 established gelation criteria. At the gel point, congruency is observed over 2-3 decades of frequency. The difficulties associated with determining an equilibrium relaxation modulus as a criterion for gelation are discussed. The gelation behaviour of xanthan-Al(III) gels is characterised for a range of polymer crosslinker combinations (stoichiometric ratios) and a limiting stoichiometric ratio below which gelation does not occur is determined. The relaxation exponent is determined at the limiting stoichiometric ratio. The relaxation exponent is found to vary between 0.22 and 0.16 for a 0.5 wt% xanthan and a range of Al(III) concentrations. The temperature at which the gel point is observed, follows an asymptotic relationship with stoichiometric ratio suggesting the importance of the order - disorder transition of xanthan molecules on the gelation process of xanthan-Al(III) gels. 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subjects | Applied sciences Exact sciences and technology Organic polymers Physicochemistry of polymers Properties and characterization Solution and gel properties |
title | Gel point studies for chemically modified biopolymer networks using small amplitude oscillatory rheometry |
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