Indentation as a potential mechanical test for textural noodle quality

Creator

K. Wu, The University of Hong Kong
P. W. Lucas, Kuwait University
A. Gunaratne, The University of Hong Kong
L. S. Collado, University of the Philippines Los Banos
H. Corke, The University of Hong Kong
A. S. Almusallam, Kuwait University
L. A. Thai, Kuwait University

Issue Date

12-2015

Abstract

Little research has still been published on gel elasticity. To this end, noodle sheets were indented with spherical probes of differing tip radii. Loads were ramped up to ∼6-8% nominal strain, the displacement then being held constant while the specimen relaxed. Flour-based noodles were significantly less elastic than starch-based ones. Data for tips of 3.175 mm and 1.65 mm radius gave consistent results for the elastic modulus, the variability being least with the latter. The smallest (0.72 mm) indenter was least consistent, often producing higher values. To examine if results with different probe sizes reflected characteristic gel microstructural dimensions, non-indented and post-indented specimens of wet sweet potato noodle sheets were imaged by AFM. Preliminary indications were that 0.72 mm probes more likely contacted swollen (disrupted) starch granules than surrounding matrix. If most deformation in gels takes place within the matrix, an indenter 'size effect' might be explained by granule size.

Source or Periodical Title

Journal of Food Engineering

ISSN

0260-8774

Volume

177

Page

42-49

Document Type

Article

Physical Description

illustrations, tables, graphs

Language

English

Subject

Average relaxation ratio, Blunt indentation, Gel texture, Mechanical behavior, Viscosity

Recommended Citation

Wu, K., Lucas, P.W., Gunaratne, A., Collado, L.S., Corke, H., Almusallam, A.S., Emmanuvel, L. (2015). Indentation as a potential mechanical test for textural noodle quality. Journal of Food Engineering. 177, 42-49. DOI:10.1016/j.jfoodeng.2015.12.016.

Identifier

DOI:10.1016/j.jfoodeng.2015.12.016

Digital Copy

yes