Complex fluids can be found all around us, from molten plastics to mayonnaise, and understanding their highly non-linear dynamics is the subject of much research. This text introduces a common theoretical framework for understanding and predicting the flow behavior of complex fluids. This framework allows for results including a qualitative understanding of the relationship between a fluid's behavior at the microscale of particles or macromolecules, and its macroscopic, viscoelastic properties. The author uses a microstructural approach to derive constitutive theories that remain simple enough to allow computational predictions of complicated macroscale flows. Readers develop their intuition to learn how to approach the description of materials not covered in the book, as well as limits such as higher concentrations that require computational methods for microstructural analysis. This monograph's unique breadth and depth make it a valuable resource for researchers and graduate students in fluid mechanics.
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L. Gary Leal is Schlinger Distinguished Professor, Emeritus in chemical engineering, and Professor of the Graduate Division at the University of California, Santa Barbara. He was formerly Co-editor-in-Chief of 'Physics of Fluids' (1998–2015) and was founding Co-Editor-in-Chief of 'Physical Review Fluids' (2016–2021). He is the author of two major treatises in fluid dynamics: 'Advanced Transport Phenomena: Fluid Mechanics and Convective Transport Processes' (2007) and 'Laminar Flow and Convective Transport Processes: Scaling Principles and Asymptotic Analysis' (1992).
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Hardcover. Condition: new. Hardcover. Complex fluids can be found all around us, from molten plastics to mayonnaise, and understanding their highly non-linear dynamics is the subject of much research. This text introduces a common theoretical framework for understanding and predicting the flow behavior of complex fluids. This framework allows for results including a qualitative understanding of the relationship between a fluid's behavior at the microscale of particles or macromolecules, and its macroscopic, viscoelastic properties. The author uses a microstructural approach to derive constitutive theories that remain simple enough to allow computational predictions of complicated macroscale flows. Readers develop their intuition to learn how to approach the description of materials not covered in the book, as well as limits such as higher concentrations that require computational methods for microstructural analysis. This monograph's unique breadth and depth make it a valuable resource for researchers and graduate students in fluid mechanics. Providing a physical understanding of the viscoelastic flow behavior of complex fluids, as well as a theoretical framework to predict this behavior, this is a detailed reference for graduate students and researchers in fluid mechanics, especially those working in rheology, colloid science, and non-Newtonian fluid mechanics more generally. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Seller Inventory # 9781009688468
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Hardcover. Condition: new. Hardcover. Complex fluids can be found all around us, from molten plastics to mayonnaise, and understanding their highly non-linear dynamics is the subject of much research. This text introduces a common theoretical framework for understanding and predicting the flow behavior of complex fluids. This framework allows for results including a qualitative understanding of the relationship between a fluid's behavior at the microscale of particles or macromolecules, and its macroscopic, viscoelastic properties. The author uses a microstructural approach to derive constitutive theories that remain simple enough to allow computational predictions of complicated macroscale flows. Readers develop their intuition to learn how to approach the description of materials not covered in the book, as well as limits such as higher concentrations that require computational methods for microstructural analysis. This monograph's unique breadth and depth make it a valuable resource for researchers and graduate students in fluid mechanics. Providing a physical understanding of the viscoelastic flow behavior of complex fluids, as well as a theoretical framework to predict this behavior, this is a detailed reference for graduate students and researchers in fluid mechanics, especially those working in rheology, colloid science, and non-Newtonian fluid mechanics more generally. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability. Seller Inventory # 9781009688468
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Buch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - Complex fluids can be found all around us, from molten plastics to mayonnaise, and understanding their highly non-linear dynamics is the subject of much research. This text introduces a common theoretical framework for understanding and predicting the flow behavior of complex fluids. This framework allows for results including a qualitative understanding of the relationship between a fluid's behavior at the microscale of particles or macromolecules, and its macroscopic, viscoelastic properties. The author uses a microstructural approach to derive constitutive theories that remain simple enough to allow computational predictions of complicated macroscale flows. Readers develop their intuition to learn how to approach the description of materials not covered in the book, as well as limits such as higher concentrations that require computational methods for microstructural analysis. This monograph's unique breadth and depth make it a valuable resource for researchers and graduate students in fluid mechanics. Seller Inventory # 9781009688468
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