Journal
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
Volume 180, Issue -, Pages 782-791Publisher
ELSEVIER
DOI: 10.1016/j.ijbiomac.2021.03.052
Keywords
Extrusion; Rheology; Starch citrate
Funding
- National Research Program for Universities, Higher Education Commission, Islamabad [4741]
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This study prepared two levels of chemically modified starches through extrusion and observed significant structural changes. The extruded starches exhibited different physical properties such as hardness and stability. Dynamic rheology tests revealed that citrate-modified starches had higher viscoelastic properties compared to lactate-modified starches.
Two levels of chemically modified starches (starch citrates and lactates) prepared at 20% and 40% w/v concentration was subjected to extrusion to produce pregelatinized starches (PG). Starch citrates and lactates modified at 20% and 40% level were referred as (SC20 and SC40) and (SL20 and SL40), respectively. These PG starches underwent significant structural changes during extrusion as depicted by scanning electron micrographs. Native starches showed lower swelling power and water binding capacity but formed harder gels compared to chemically modified pregels. The dynamic rheology of these polymers (extruded modified starches) suggested viscoelastic property i.e. (G ' > G '). Citrates demonstrated higher G ' than lactates in both frequency and temperature sweep tests. Stability of storage moduli over entire temperature range confirmed that addition of citrates and lactates led to strengthening of gel structure through cross linking and esterification. Non-newtonian behavior was shown by all samples as determined through steady shear flow test with flow behavior index <1. Starch citrate (SC20-PG) demonstrated higher shear stress values. While, SC40-PG depicted anti-thixotropic behavior as measured through in-shear structural recovery measurements. On the basis of results obtained, the dual modification (chemical followed by extrusion) may impart fruitful applications in various food products. (c) 2021 Elsevier B.V. All rights reserved.
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