Cereal Chem. 71:548-552 | VIEW
ARTICLE
Viscoelastic Properties of Rice-Flour Pastes and Their Relationship to Amylose Content and Rice Quality.
K. Radhika Reddy, R. Subramanian, S. Zakiuddin Ali, and K. R. Bhattacharya. Copyright 1994 by the American Association of Cereal Chemists, Inc.
The dynamic viscoelastic behavior of nonwaxy rice-flour pastes (15 varieties) was studied under oscillatory as well as stress- relaxation modes. When cooked to 95 C, the storage (elastic, G'), loss (viscous, G"), and relaxation (G) moduli of the pastes, as well as their relaxation time (T0.75) increased with rise in paste concentration. The increase was greater in high-amylose equivalent (AE) varieties than in low-AE varieties. In pastes of high concentration (13%), G', G", G, and T0.75 were highest in type I (high AE) and lowest in type VII (low AE) rice. Upon continued cooking at 95 C for 60 min, G', G, and T0.75 increased in dilute pastes (7%), but decreased in concentrated (greater than 7%) pastes. Again, these changes were greater in low AE rice. G', G", and G were highly correlated with total AE, as well as with water-insoluble AE content of rice, but not with the water-soluble AE content. The data suggested that starch granules of high AE rice were relatively rigid, elastic, and strong, while those of low AE rice were soft, inelastic, and weak, and broke down more easily. This difference in starch- granule rigidity was probably the cause of varietal difference in cooked-rice texture. Relaxation time, as well as G"/G' (tan (delta)) data, suggested that concentrated rice pastes were more predominantly elastic than viscous.