Rheological characteristics of different tropical root starches

Moorthy, Subramony N.; Eliasson, Ann-Charlotte; Larsson, Helena

Rheological characteristics of different tropical root starches

Mark

Moorthy, Subramony N. ; Eliasson, Ann-Charlotte ^LU and Larsson, Helena ^LU (2008) In Stärke 60(5). p.233-247

Abstract: The rheological properties of starch extracted from ten different species of tropical tuber crops were examined using a Bohlin rheometer. Suspensions with starch

concentrations of 3, 4 and 5% were gelatinised at 757C and fed into the rheometer cup. A C 25 measuring system was used and the heating rate was 1.57C/min,

heating schedule 75-957C, holding at 957C for 600 s, cooling to 357C at 1.57C/min, holding for 3600 s. For strain sweep tests, the range of strain used was 0-0.2% and

the temperature of test was 357C. The data on viscosity, storage modulus (G0) and phase angle were obtained from the rheograms. The results indicated variability in

the various properties of the different starches. However the... (More); The rheological properties of starch extracted from ten different species of tropical tuber crops were examined using a Bohlin rheometer. Suspensions with starch

concentrations of 3, 4 and 5% were gelatinised at 757C and fed into the rheometer cup. A C 25 measuring system was used and the heating rate was 1.57C/min,

heating schedule 75-957C, holding at 957C for 600 s, cooling to 357C at 1.57C/min, holding for 3600 s. For strain sweep tests, the range of strain used was 0-0.2% and

the temperature of test was 357C. The data on viscosity, storage modulus (G0) and phase angle were obtained from the rheograms. The results indicated variability in

the various properties of the different starches. However the results did not follow a

definite trend. The viscosity of Colocasia starch was low while Canna edulis and

yam starches had high viscosities. The storage modulus was also highest for Canna

starch (70-93 Pa) for 5% and gel strength was comparatively high for Canna edulis,

Dioscorea esculenta and D. rotundata starches. The phase angle values followed

the pattern of G0 and all the starch pastes were found to be elastic in nature at

higher concentration. The wide variability in rheological properties can be useful in

different applications of tuber starches. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/1153008

author

Moorthy, Subramony N. ; Eliasson, Ann-Charlotte ^LU and Larsson, Helena ^LU

organization

Department of Food Technology, Engineering and Nutrition

publishing date

2008

type

Contribution to journal

publication status

published

subject

Food Engineering

keywords

Tuber starches, Rheology, Storage modulus, Loss modulus, Phase angle, Viscosity

in

Stärke

volume

60

issue

5

pages

233 - 247

publisher

John Wiley & Sons Inc.

external identifiers

wos:000256209100002
scopus:44349183305

ISSN

0038-9056

DOI

10.1002/star.200700708

language

English

LU publication?

yes

id

989bdc78-932a-4a1e-87da-089ea5e1b96c (old id 1153008)

date added to LUP

2016-04-01 12:35:17

date last changed

2023-09-02 13:05:51

@article{989bdc78-932a-4a1e-87da-089ea5e1b96c,
  abstract     = {{The rheological properties of starch extracted from ten different species of tropical tuber crops were examined using a Bohlin rheometer. Suspensions with starch<br/><br>
concentrations of 3, 4 and 5% were gelatinised at 757C and fed into the rheometer cup. A C 25 measuring system was used and the heating rate was 1.57C/min,<br/><br>
heating schedule 75-957C, holding at 957C for 600 s, cooling to 357C at 1.57C/min, holding for 3600 s. For strain sweep tests, the range of strain used was 0-0.2% and<br/><br>
the temperature of test was 357C. The data on viscosity, storage modulus (G0) and phase angle were obtained from the rheograms. The results indicated variability in<br/><br>
the various properties of the different starches. However the results did not follow a<br/><br>
definite trend. The viscosity of Colocasia starch was low while Canna edulis and<br/><br>
yam starches had high viscosities. The storage modulus was also highest for Canna<br/><br>
starch (70-93 Pa) for 5% and gel strength was comparatively high for Canna edulis,<br/><br>
Dioscorea esculenta and D. rotundata starches. The phase angle values followed<br/><br>
the pattern of G0 and all the starch pastes were found to be elastic in nature at<br/><br>
higher concentration. The wide variability in rheological properties can be useful in<br/><br>
different applications of tuber starches.}},
  author       = {{Moorthy, Subramony N. and Eliasson, Ann-Charlotte and Larsson, Helena}},
  issn         = {{0038-9056}},
  keywords     = {{Tuber starches; Rheology; Storage modulus; Loss modulus; Phase angle; Viscosity}},
  language     = {{eng}},
  number       = {{5}},
  pages        = {{233--247}},
  publisher    = {{John Wiley & Sons Inc.}},
  series       = {{Stärke}},
  title        = {{Rheological characteristics of different tropical root starches}},
  url          = {{http://dx.doi.org/10.1002/star.200700708}},
  doi          = {{10.1002/star.200700708}},
  volume       = {{60}},
  year         = {{2008}},
}

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Rheological characteristics of different tropical root starches