The mechanical behaviour of dough and gluten was studied in an effort to investigate whether bread dough can be treated as a two phase (starch and gluten) composite material. The dough and gluten show rate dependent behaviour under tension, compression and shear tests, and non-linear unloading-reloading curves under cyclic compression tests. There is evidence from cryo-Scanning Electron Microscopy (SEM) that damage in the form of debonding between starch and gluten occurs when the sample is stretched. A composite finite element model was developed using starch as filler and gluten as matrix. The interaction between the starch and gluten was modelled as cohesive contact. The finite element analysis predictions agree with trends seen in experimental test data on dough and gluten, further evidence that debonding of starch and gluten is a possible damage mechanism in dough.
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22 January 2015
PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2010 (ICCMSE-2010)
3–8 October 2010
Kos, Greece
Research Article|
January 22 2015
A micromechanics model for bread dough
M. A. P Mohammed;
M. A. P Mohammed
Imperial College London, Mechanical Engineering Department, London SW7 2AZ,
United Kingdom
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E. Tarleton;
E. Tarleton
Imperial College London, Mechanical Engineering Department, London SW7 2AZ,
United Kingdom
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M. N. Charalambides;
M. N. Charalambides
Imperial College London, Mechanical Engineering Department, London SW7 2AZ,
United Kingdom
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J. G. Williams
J. G. Williams
Imperial College London, Mechanical Engineering Department, London SW7 2AZ,
United Kingdom
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AIP Conf. Proc. 1642, 305–309 (2015)
Citation
M. A. P Mohammed, E. Tarleton, M. N. Charalambides, J. G. Williams; A micromechanics model for bread dough. AIP Conf. Proc. 22 January 2015; 1642 (1): 305–309. https://doi.org/10.1063/1.4906679
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