Rheological Properties of Rice Protein-Dextran Composite System

Xiang Hong Li; Yong Le Liu; Na Li

doi:10.4028/www.scientific.net/AMR.774-776.807

Paper Titles

Microstructure and Mechanical Properties of Mg-Zn-Ca-Zr Alloy for Biomedical Application
p.791

Preparation and Characterization of CMC-PVA/PVA-SA-MePc (COOH)₈/CS-PVA Bipolar Membrane Using Electrospinning Technique
p.795

Effect of Specimen Preparation Method on Transmission Electron Microscope Investigation in a Bulk Metallic Glass
p.799

The Electrical Conductivity Stability of Polyaniline Doped with Three Different Acids
p.803

Rheological Properties of Rice Protein-Dextran Composite System
p.807

Spectroscopic Investigation of V³⁺:YAG Crystal
p.811

Tunneling Recombination Mechanism in n-Type a-Si:H Steady State Regime
p.816

Growth and Characterization of Vapor Deposited Polyimide Thin Films
p.824

The Study of Matching Flotation in Shandong Copper Mine
p.828

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 774-776Rheological Properties of Rice Protein-Dextran...

Rheological Properties of Rice Protein-Dextran Composite System

Abstract:

Rheological properties of rice protein-dextran composite system were studied. The formation of gel network-like structure appeared to have occurred through the interaction of rice protein and dextran at certain biopolymer concentration. An increase in the protein and/or polysaccharide concentration of the mixtures would contribute to the mechanical properties of mixed gels. The differences in fracture forces among samples as noticed in experiments also suggested the difference in microstructures.