Acoustics of nanodispersed magnetic fluids
著者
書誌事項
Acoustics of nanodispersed magnetic fluids
CRC Press, c2015
- : hardback
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注記
Includes bibliographical references (p. [438]-452) and index
内容説明・目次
内容説明
Acoustics of Nanodispersed Magnetic Fluids presents key information on the acoustic properties of magnetic fluids. The book is based on research carried out by the author as well as on many publications in both the Russian and foreign scientific literature from 1969 onwards.
It describes a wide variety of topics, which together lay the foundation of a new scientific research area: the acoustics of nanodispersed media. The book examines the nanoscale structure of matter in specific areas and discusses the following:
Model theory and known features of the propagation of sound waves in magnetised fluids
Acoustomagnetic and magnetoacoustic effects in magnetic fluids
Acoustomagnetic spectroscopy of vibrational modes in the liquid-shell system
Vibration and rheological effects of magnetised magnetic fluids
Acoustometry of the shape of magnetic nanoaggregates and non-magnetic microaggregates
Acoustogranulometry, a new method for studying the physical properties of magnetic nanoparticles dispersed in a carrier fluid
The book is a valuable resource for engineers and researchers in the fields of acoustics, physical acoustics, magnetic hydrodynamics, and rheology physics. The experimental methods, which are described in this book, are based on incompatible features of magnetic fluids, i.e. strong magnetism, fluidity and compressibility. As a result, this can find industrial application in advanced technology. It is also useful for both advanced undergraduate and graduate students studying nanotechnology, materials science, physical and applied acoustics.
目次
Equilibrium Magnetisation of Magnetic Fluids. Perturbation of Magnetic Induction By Sound. Speed of Sound. Absorption and Scattering of Sound. Ponderomotive Mechanism of Electromagnetic Excitation of Sound. Magnetoacoustic Effect in the Megahertz Frequency Range. Magnetic Fluid Compacting As An Oscillatory System. Acoustomagnetic Spectroscopy. Acoustic Granulometry. Acoustometry of the Shape of Magnetic Nanoaggregates and Non-Magnetic Micro-Aggregates. Conclusions. Appendix. References. Index.
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