
Defying the classical definitions of solids and liquids, complex fluids include polymers, colloids, emulsions, foams, gels, liquid crystals, surfactants, and other materials that form flowable microstructures. They are vital to industries that produce polymers (e.g., plastic packaging), colloids (paint), foods (ketchup), and consumer products (toothpaste and shampoo), and are also used in countless other products manufactured by the petroleum, microelectronics, and pharmaceutical industries.The first advanced textbook on this subject, The Structure and Rheology of Complex Fluids provides a multidisciplinary and comprehensive introduction to these fascinating and important substances. It offers an up-to-date synopsis of the relationship between the microstructure of complex fluids and their mechanical and flow properties, and also emphasizes the similarities and differences among the various types of complex fluids. Easy to read, it includes over 350 illustrations, extensive literature citations, and many interesting problems, worked examples, and practical applications. Featuring coverage of both foundational material and special topics, this text is highly adaptable for use in a one- or two-semester graduate-level course in chemical engineering, materials science, or physics. It also serves as a valuable monograph for academic and industrial researchers and as a reference book for researchers and educators.
This text investigates the fundamental relationship between the microscopic structure of complex fluids and their macroscopic mechanical and flow properties. Author Ronald G. Larson, a recognized expert in the field, synthesizes principles from chemical engineering, physics, and materials science to provide a unified framework for understanding non-Newtonian materials. By bridging the gap between molecular architecture and rheological behavior, the book establishes a rigorous foundation for both students and practicing engineers to predict how substances like polymers, colloids, and emulsions respond to stress.
What You Will Find
Experts and educators frequently cite this work as a foundational graduate-level text for its clear synthesis of multidisciplinary concepts. Readers often note the academic density of the prose, which is balanced by extensive citations and practical problem sets that facilitate deep technical comprehension.
Page Count:
688
Publication Date:
1998-11-26
Publisher:
Oxford University Press
ISBN-10:
019512197X
ISBN-13:
9780195121971
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