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A viscoelastic cohesive zone model for starch-gluten interface to simulate dough deformation


Citation

Mohammed, Mohd Afandi P. and Mokhtar, Mohd Noriznan and Wakisaka, Minato (2023) A viscoelastic cohesive zone model for starch-gluten interface to simulate dough deformation. Food Structure, 35. pp. 1-10. ISSN 2213-3291

Abstract

A viscoelastic cohesive zone model was proposed to simulate rate-dependent starch-gluten interface debonding. The debonding was believed to influence stress-strain curves of tensile and shear tests at different strain rates. The model was written as a user-defined finite element subroutine codes, which was then included into an interface element geometry between starch filler and gluten matrix. The finite element modelling results showed agreement with experimental data under uniaxial tension and simple shear at different strain rates (5/min and 0.5/min). This was due to the viscoelastic effect of the interface model, which caused difference between traction initiation at different rates for the cohesive zone model (i.e. ~1.1kPa and ~0.5kPa at 5/min and 0.5/min, respectively). In addition, it was shown that critical shear stress is a very important debonding parameter, where slight changes of the shear traction values caused the model stress-strain curve to deviate from the experimental results. Simulations of starch-gluten dough deformation were then conducted at different strain rates to imitate dough processes like baking, extrusion and proving (0.003/s, 1/s and 10/s, respectively). The interface model was shown to influence stress-strain curve at lower strain rate processes like baking and extrusion.


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Additional Metadata

Item Type: Article
Divisions: Faculty of Engineering
DOI Number: https://doi.org/10.1016/j.foostr.2022.100306
Publisher: Elsevier
Keywords: Interface debonding; Food mechanics; Dough rheology; Finite element method; Good health and well-being
Depositing User: Ms. Che Wa Zakaria
Date Deposited: 03 Oct 2024 04:22
Last Modified: 03 Oct 2024 04:22
Altmetrics: http://www.altmetric.com/details.php?domain=psasir.upm.edu.my&doi=10.1016/j.foostr.2022.100306
URI: http://psasir.upm.edu.my/id/eprint/106835
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