2017
DOI: 10.1007/s11483-017-9472-9
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The Impact of Water Content and Mixing Time on the Linear and Non-Linear Rheology of Wheat Flour Dough

Abstract: The viscoelastic properties of wheat flour dough are known to be very sensitive to small changes in water content and mixing time. In this study the simple scaling law originally proposed by [Rheol. Acta 9, 497-500] to capture the water dependency of the dynamic moduli in small amplitude oscillatory shear, was also applied to creep-recovery shear tests and extensional tests. The scaling law turns out to be valid not only in the linear region, but to a certain extent also in the non-linear region. At sufficien… Show more

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Cited by 52 publications
(58 citation statements)
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References 47 publications
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“…5b shows that the extensional viscosity decreases as well, but predominantly for the small strains. These changes in rheological behaviour resemble very closely the rheological impact of an increase in the amount of water used in the dough recipe, which we have studied in a previous publication (Meerts et al, 2017b). When preparing the dough, sucrose is added as an aqueous solution to the wheat flour, while keeping the total amount of water used in the dough preparation the same for all dough samples.…”
Section: Unfermented Doughsupporting
confidence: 71%
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“…5b shows that the extensional viscosity decreases as well, but predominantly for the small strains. These changes in rheological behaviour resemble very closely the rheological impact of an increase in the amount of water used in the dough recipe, which we have studied in a previous publication (Meerts et al, 2017b). When preparing the dough, sucrose is added as an aqueous solution to the wheat flour, while keeping the total amount of water used in the dough preparation the same for all dough samples.…”
Section: Unfermented Doughsupporting
confidence: 71%
“…5b indicates, the dough prepared with sucrose still exhibits a substantial degree of strain-hardening. Changes in the water content do not impair the strain-hardening properties of dough (Meerts et al, 2017b), and so the results obtained in this study seem to point mainly to a volume effect for sucrose.…”
Section: Unfermented Doughsupporting
confidence: 52%
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“…The linear viscoelastic range was defined as the value of strain, for which storage modulus (G 0 ) has dropped to 95% of the plateau value for small amplitudes (Schiedt et al 2013). According to this definition, the linearity limits of the doughs of 37%, 42% and 47% water content were found to be 0.038%, 0.035% and 0.031%, respectively, which were quite similar to others from 0.01 to 0.08% (Hardt et al 2014;Meerts et al 2017). Subsequently, all time sweep tests were performed at a strain amplitude of 0.02%.…”
Section: Dynamic Viscoelastic Responses During 3itsmentioning
confidence: 63%
“…Dynamic oscillation methods are now intensively used for exploring rheological relations of wheat flour dough with its polymeric protein characteristics (Katyal et al 2018;Singh et al 2011), chemical compositions (Hardt et al 2014;Watanabe et al 2002), network structure (Davidou et al 2008), mixing treatment (Kim et al 2008;Meerts et al 2017) and product quality (van Bockstaele et al 2008). Before conducting an amplitude or frequency sweep measurement in linear viscoelastic range, the first consideration is to determine if the material is stable before data collection.…”
Section: Introductionmentioning
confidence: 99%