Mh. Ong et al., GLASS TRANSITION-RELATED OR CRYSTALLINE FORMS IN THE STRUCTURAL-PROPERTIES OF GELATIN OXIDIZED STARCH GLUCOSE SYRUP MIXTURES, Food hydrocolloids, 12(3), 1998, pp. 273-281
The structural properties of acid pigskin gelatin/oxidised waxy maize
starch/glucose syrup mixtures at a 70% total level of solids were inve
stigated. Depending on polymer composition and pH, mixtures form phase
-separated gels with a gelatin or an oxidised starch continuous matrix
. It was found that the continuous phase determined the mechanical beh
aviour of a mixture. Thus gelatin/glucose syrup systems or gelatin con
tinuous mixtures show a three-fold transformation in viscoelasticity,
namely: from solutions at high temperature (>35 degrees C) and rubbery
solids at ambient temperature to high modulus viscoelastic liquids at
subzero temperatures (e.g, > 10(6) Pa at 10 Hz and -20 degrees C). In
the language of polymer physics a transition was observed from rubber
-like to glass-like consistency. By contrast, oxidised starch/glucose
syrup systems and oxidised starch continuous mixtures show a transform
ation from liquid-like to solid-like behaviour at subzero temperatures
due to water crystallisation. Concentrated oxidised starch (approxima
te to 31%) with glucose syrup (approximate to 39%) systems are capable
of forming intermolecular amylose-like structures at high temperature
s (e.g. 80 degrees C), which remain solid-like throughout the cooling
run (down to -20 degrees C). Therefore the development of crystallinit
y (water/polymeric aggregates) in starch-dominated systems prevents th
em from exhibiting glass-related viscoelasticity. The investigative ap
proach in general, and this mixture in particular (with its multitude
of structures) might provide guidance for development work in the conf
ectionery industry. (C) 1998 Published by Elsevier Science Ltd. All ri
ghts reserved.