Study on Creep Properties of Japonica Cooked Rice and Its Relationship with Rice Chemical Compositions and Sensory Evaluation

Date

2009-01-01

Author

Chang, Su-qiang
Li, Dong
Lan, Yubin
Özkan, Necati
Shi, John
Chen, Xiao Dong
Mao, Zhi-huai

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Creep properties of four varieties japonica cooked rice were tested using a dynamic mechanical analyzer (DMA Q800). The creep curve was described by Burgers model. The creep process of japonica cooked rice mainly consisted of retarded elastic deformation, epsilon R and viscous flow deformation, epsilon V, and negligible instantaneous elastic deformation, epsilon E. The retarded elastic modulus, E-2, relaxation time, tau, and the viscosity coefficient, eta 1, of the cooked rice according to the Burger model were estimated through nonlinear regression. The effect of the chemical compositions on the rheological parameters based on creep behavior of cooked rice was assessed. Correlation analysis indicated that the retarded elastic modulus, E-2, had positive correlations with protein (r = 0.952, P = 0.048). The relaxation time, tau, had negative correlation with protein content (r = -0.909, P = 0.091). The viscosity coefficient, eta 1, was negatively correlated to amylose (r = -0.915, P = 0.085). The analysis between creep parameters and sensory evaluation showed that the viscosity coefficient, eta 1, positively correlated to stickiness and total evaluation of cooked rice. So it can be used to evaluate the eating quality of cooked rice.

Subject Keywords

Creep properties, Cooked rice, DMA, Protein and amylose content, Sensory evaluation

URI

https://hdl.handle.net/11511/32413

Journal

INTERNATIONAL JOURNAL OF FOOD ENGINEERING

DOI

https://doi.org/10.2202/1556-3758.1561

Collections

Graduate School of Natural and Applied Sciences, Article

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Citation Formats

S.-q. Chang et al., “Study on Creep Properties of Japonica Cooked Rice and Its Relationship with Rice Chemical Compositions and Sensory Evaluation,” INTERNATIONAL JOURNAL OF FOOD ENGINEERING, pp. 0–0, 2009, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/32413.