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Rheology and processing of mozzarella cheeseMuliawan, Edward Budi 05 1900 (has links)
Taken as an engineering material, mozzarella cheese can be considered as a complex food system that has dynamic structure and complex flowproperties. Food scientists have been actively developing methods to characterize mozzarella cheese rheologically, but most of these methods are empirical in nature. In the past decades, there has been a paradigm shift towards the utilization of well-developed rheological methods which have been widely applied in the study of commercial synthetic polymers.
In this work, the rheology of mozzarella cheese was studied using well-developed rheological techniques. Utilizing various rheometers, the linear and non-linear rheology of mozzarella cheese was examined. General practical properties of mozzarella cheese such as meltability, flowability and stretchability were extracted from these results. Capillary flow and rolling experiments were also performed to determine their suitability as innovative post-production processing techniques for mozzarella cheese. Finally, a comparative study on the effect of frozen storage on the rheology of three different brands of mozzarella cheese was performed.
In general, it was found that mozzarella cheese can be classified as a pseudoplastic (shear thinning) semi-solid material possessing a yield stress at room temperature. Upon heating, the yield stress gradually diminishes and it can be considered as a viscoelastic fluid. The results obtained from the various rheometers indicate that the yield stress, duration of experiment, sample geometry and temperature greatly affect the consistency of the results. It was also shown that extrusion can be used as a processing technique for mozzarella cheese above a certain temperature where the cheese is in a melt state. Rolling was also found to be a potentially feasible processing method. Finally, in terms of the effect of frozen storage, in general, the dynamic moduli decrease with the period of storage due to the freezing of the proteins in the cheese.
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Rheology and processing of mozzarella cheeseMuliawan, Edward Budi 05 1900 (has links)
Taken as an engineering material, mozzarella cheese can be considered as a complex food system that has dynamic structure and complex flowproperties. Food scientists have been actively developing methods to characterize mozzarella cheese rheologically, but most of these methods are empirical in nature. In the past decades, there has been a paradigm shift towards the utilization of well-developed rheological methods which have been widely applied in the study of commercial synthetic polymers.
In this work, the rheology of mozzarella cheese was studied using well-developed rheological techniques. Utilizing various rheometers, the linear and non-linear rheology of mozzarella cheese was examined. General practical properties of mozzarella cheese such as meltability, flowability and stretchability were extracted from these results. Capillary flow and rolling experiments were also performed to determine their suitability as innovative post-production processing techniques for mozzarella cheese. Finally, a comparative study on the effect of frozen storage on the rheology of three different brands of mozzarella cheese was performed.
In general, it was found that mozzarella cheese can be classified as a pseudoplastic (shear thinning) semi-solid material possessing a yield stress at room temperature. Upon heating, the yield stress gradually diminishes and it can be considered as a viscoelastic fluid. The results obtained from the various rheometers indicate that the yield stress, duration of experiment, sample geometry and temperature greatly affect the consistency of the results. It was also shown that extrusion can be used as a processing technique for mozzarella cheese above a certain temperature where the cheese is in a melt state. Rolling was also found to be a potentially feasible processing method. Finally, in terms of the effect of frozen storage, in general, the dynamic moduli decrease with the period of storage due to the freezing of the proteins in the cheese.
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Rheology and processing of mozzarella cheeseMuliawan, Edward Budi 05 1900 (has links)
Taken as an engineering material, mozzarella cheese can be considered as a complex food system that has dynamic structure and complex flowproperties. Food scientists have been actively developing methods to characterize mozzarella cheese rheologically, but most of these methods are empirical in nature. In the past decades, there has been a paradigm shift towards the utilization of well-developed rheological methods which have been widely applied in the study of commercial synthetic polymers.
In this work, the rheology of mozzarella cheese was studied using well-developed rheological techniques. Utilizing various rheometers, the linear and non-linear rheology of mozzarella cheese was examined. General practical properties of mozzarella cheese such as meltability, flowability and stretchability were extracted from these results. Capillary flow and rolling experiments were also performed to determine their suitability as innovative post-production processing techniques for mozzarella cheese. Finally, a comparative study on the effect of frozen storage on the rheology of three different brands of mozzarella cheese was performed.
In general, it was found that mozzarella cheese can be classified as a pseudoplastic (shear thinning) semi-solid material possessing a yield stress at room temperature. Upon heating, the yield stress gradually diminishes and it can be considered as a viscoelastic fluid. The results obtained from the various rheometers indicate that the yield stress, duration of experiment, sample geometry and temperature greatly affect the consistency of the results. It was also shown that extrusion can be used as a processing technique for mozzarella cheese above a certain temperature where the cheese is in a melt state. Rolling was also found to be a potentially feasible processing method. Finally, in terms of the effect of frozen storage, in general, the dynamic moduli decrease with the period of storage due to the freezing of the proteins in the cheese. / Applied Science, Faculty of / Chemical and Biological Engineering, Department of / Graduate
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An Evaluation of Characteristics of Baby Food in Correlation to an International Diet Standardization ProtocolPax, Larson Ann 24 April 2019 (has links)
No description available.
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Analyzing Nonlinear Rheological Properties of Food Through Fourier Transform Coupled with Chebyshev Decomposition and Sequential Physical Processes MethodologiesAnh Nghi Minh Le (17585562) 11 December 2023 (has links)
<p dir="ltr">Understanding the nonlinear rheological properties of food is essential for improving processes involving large-amplitude deformation such as pumping, extrusion, and consumer consumption. The development of mathematical analyses for analyzing these nonlinear responses has witnessed a notable upswing in the past decades. A novel mathematical analysis called "Sequence of Physical Processes" (SPP) was developed by Rogers et al. in 2011. Ever since, SPP has shown tremendous potential in characterizing and predicting the nonlinear rheological behavior of soft materials and polymers, yet more investigations are required to validate the efficacy of the SPP approach in the realm of food materials. Therefore, this thesis focuses on applying SPP method onto a range of food materials. Most importantly, we compared the analysis with the results obtained from the well-established Ewoldt-McKinley method of coupling “Fourier Transform with Chebyshev Decomposition” (FTC). As a result, it is found that SPP can provide a detailed picture of the material’s deformation history within an oscillation cycle. The time-dependent nature of SPP data allows a more accurate capture of important rheological transitions, which leads to a higher correlation with compositional and microstructural changes in comparison to the FTC method. Recognizing the potential of SPP analysis in studying food materials, this research emphasizes the necessity for further exploration across a diverse array of food types. The thesis contributes valuable insights to the evolving landscape of nonlinear rheological understanding, with the potential to improving methodologies in food processing.</p>
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