Engineering Rheology
Engineering Rheology by Roger I. Tanner, published by OUP Oxford on March 2, 2000, is a comprehensive guide that explores the mechanical and thermal behavior of non-Newtonian materials in engineering and processing technology. This second edition spans 586 pages and is presented in English, offering a detailed examination of the fundamental principles of continuum mechanics, as well as the significant differences between elongational and shear behavior in materials.
Readers will find a structured approach that includes both continuum and microstructural methodologies, leading to mathematical descriptions applicable in engineering contexts. The book covers various topics, including lubrication, nearly-viscometric and nearly-elongational flows, and introduces the emerging field of computational rheology. Additionally, it addresses stability, turbulence, and the effects of temperature on flow, while incorporating new material on wall slip and suspension rheology, making it a valuable resource for those interested in applied sciences and mechanics.
Official synopsis Publisher
This book sets out to provide a guide, with examples, for those who wish to make predictions about the mechanical and thermal behaviour of non-Newtonian materials in engineering and processing technology. After an introductory survey of the field and a review of basic continuum mechanics, the radical differences between elongational and shear behaviour are shown. Two chapters, one based on a continuum approach and the other using microstructural approaches, lead to useful mathematical desriptions of materials for engineering applications. As examples of nearly-viscometric and nearly-elongational flows, there is a discussion of lubrication and related shearing flows, and fibre- spinning and film-blowing respectively. A long chapter is devoted to the important new field of computational rheology, and this is followed by chapters on stability and turbulence and the all-important temperature effects in flow. This new edition contains much new material not available in book form elsewhere-for example wall slip, suspension rheology, computational rheology and new results in stability theory.
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