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Updated in [September 25th, 2023]

We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it: (Please note that our content is optimized through artificial intelligence tools and carefully reviewed by our editorial staff.) What skills and knowledge will you acquire during this course? During this course, students will acquire the following skills and knowledge:

1. Understanding of rheology: Students will learn what rheology is and gain an understanding of the behavior of materials with interesting rheological properties.

2. Fundamentals of rheology: Students will revise the fundamentals of rheology, including Newtonian fluid behavior. They will also learn about rheometry, which involves measuring the material properties of fluids, and extensional behavior.

3. Viscoelasticity: Students will study the phenomenon of viscoelasticity. They will derive the simple Maxwell model and discuss its strengths and weaknesses. The course will also cover the development of the model to overcome its shortcomings, leading to the introduction of convected viscoelastic constitutive equations.

4. Viscoplastic materials: The course will examine viscoplastic materials and teach students how to perform calculations with fluids that have a yield stress. This includes pressure drop calculations and the study of perfect plasticity and extrusion.

5. Rheology of multiphase materials: Students will learn about the rheology of multiphase materials, starting with the property of thixotropy. The course will derive the Cross model as a mathematical description of thixotropy. Additionally, students will gain an understanding of the rheology of particle suspensions and two-phase emulsions.

Overall, this course will provide students with a comprehensive understanding of rheology, including its fundamentals, viscoelasticity, viscoplastic materials, and the rheology of multiphase materials. Who will benefit from this course? This course in rheology will benefit individuals who are interested in or working in the fields of chemical engineering, biotechnology, and materials science. Specifically, it will be valuable for:
1. Chemical Engineers: This course will provide chemical engineers with a comprehensive understanding of the behavior and properties of fluids, including Newtonian and non-Newtonian fluids. It will also cover rheometry, which is essential for measuring material properties, and extensional behavior.
2. Biotechnologists: The course will be beneficial for biotechnologists who work with fluids and need to understand their rheological properties. It will cover viscoelasticity, which is relevant in various biological processes, and provide insights into the behavior of viscoplastic materials.
3. Materials Scientists: The course will be of interest to materials scientists who study the mechanical properties of materials. It will cover the rheology of multiphase materials, including particle suspensions and emulsions, which are commonly encountered in materials science research.
4. Researchers and Academics: Researchers and academics in the fields of chemical engineering, biotechnology, and materials science will find this course valuable for expanding their knowledge and understanding of rheology. It will provide them with a solid foundation in the fundamentals and advanced concepts of rheology.
5. Master's Level Students: This course is specifically designed as a Master's level course, making it suitable for students pursuing advanced degrees in chemical engineering, biotechnology, or materials science. It will provide them with a specialized knowledge of rheology, which can be applied in their research or future careers.