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Kim K.-H., Chahine G., Franc J.-P., Karimi A. (Eds.) - Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction

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Kim K.-H., Chahine G., Franc J.-P., Karimi A. (Eds.) - Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction
Springer Science+Business Media Dordrecht 2015. — 399 pp. — (Fluid Mechanics and Its Applications 106). — ISBN: 978-94-017-8538-9 (Print) 978-94-017-8539-6 (Online).
This book provides a comprehensive treatment of the cavitation erosion phenomenon and state-of-the-art research in the field. It is divided into two parts. Part 1 consists of seven chapters, offering a wide range of computational and experimental approaches to cavitation erosion. It includes a general introduction to cavitation and cavitation erosion a detailed description of facilities and measurement techniques commonly used in cavitation erosion studies, an extensive presentation of various stages of cavitation damage (including incubation and mass loss) and insights into the contribution of computational methods to the analysis of both fluid and material behavior. The proposed approach is based on a detailed description of impact loads generated by collapsing cavitation bubbles and a physical analysis of the material response to these loads. Part 2 is devoted to a selection of nine papers presented at the International Workshop on Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction (Grenoble, France, 1-2 March 2011) representing the forefront of research on cavitation erosion. Innovative numerical and experimental investigations illustrate the most advanced breakthroughs in cavitation erosion research.
Comprehensive treatment of both fluid and material aspects of cavitation erosion
Includes the most relevant experimental methods and computational approaches to study cavitation erosion
Includes a didactic and instructive presentation that can be used as a textbook for graduate students
Presents state-of-the-art research useful for engineers and researchers in the field
Provides predictive techniques of cavitation damage in hydraulic machineries such as propellers and pumps
Describes cavitation damage in terms of microscopic and macroscopic phenomena in solid state plasticity
Offers experimental and numerical inverse method tools to estimate impulsive pressures from materials damage
Cavitation and Cavitation Erosion
Laboratory Testing Methods of Cavitation Erosion
Pitting and Incubation Period
Cavitation Impulsive Pressures
Mass Loss and Advanced Periods of Erosion
Modeling of Cavitation Dynamics and Interaction with Material
Modeling of Material Response
Hydrodynamic Processes Controlling Cavitation Erosion
On the Kinematics of Sheet and Cloud Cavitation and Related Erosion
Investigations into Dependence Between Cavitation Structures and Cavitation Erosion
Recent Investigations on Cavitation Erosion at the University of Fukui
Effect of Nozzle Geometry on Aggressivity of Cavitating Jet for Cavitation Erosion Test and Applications
Prediction of Cavitation Erosion and Residual Stress of Material Using Cavitating Flow Simulation with Bubble Flow Model
Assessment of Erosion Sensitive Areas via Compressible Simulation of Unsteady Cavitating Flows
Scaling of Cavitation Bubble Cloud Dynamics on Propellers
Numerical Simulations of Shock Emission by Bubble Collapse Near a Rigid Surface
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