Dynamics of Charged Particulate Systems: Modeling, Theory and Computation: SpringerBriefs in Applied Sciences and Technology
Autor Tarek I. Zohdien Limba Engleză Paperback – 5 apr 2012
This monograph also provides an introduction to the mathematically-related topic of the dynamics of swarms of interacting objects, which has gained the attention of a number of scientific communities. In summary, the following topics are discussed in detail:
(1) Dynamics of an individual charged particle,
(2) Dynamics of rigid clusters of charged particles,
(3) Dynamics of flowing charged particles,
(4) Dynamics of charged particle impact with electrified surfaces and
(5) An introduction to the mechanistic modeling of swarms.
The text can be viewed as a research monograph suitable for use in an upper division undergraduate or first year graduate course geared towards students in the applied sciences, mechanics and mathematics that have an interest in the analysis of particulate materials.
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Specificații
ISBN-13: 9783642285189
ISBN-10: 364228518X
Pagini: 128
Ilustrații: XI, 115 p. 47 illus., 9 illus. in color.
Dimensiuni: 155 x 235 x 7 mm
Greutate: 0.18 kg
Ediția:2012
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria SpringerBriefs in Applied Sciences and Technology
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 364228518X
Pagini: 128
Ilustrații: XI, 115 p. 47 illus., 9 illus. in color.
Dimensiuni: 155 x 235 x 7 mm
Greutate: 0.18 kg
Ediția:2012
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria SpringerBriefs in Applied Sciences and Technology
Locul publicării:Berlin, Heidelberg, Germany
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Public țintă
ResearchCuprins
Introduction: dynamics of an individual charged particle.- Dynamics of rigid clusters of charged particles.- Dynamics of flowing charged particles.- Charged particle impact on electrified surfaces.- An introduction to mechanistic modeling of swarms.
Notă biografică
T. I. Zohdi is currently Professor and Vice-Chair for Instruction in
the Department of Mechanical Engineering and Chair of the Engineering Science Program at UC Berkeley.
He received his Ph.D. in 1997 in Computational and Applied Mathematics from UT Austin and his Habilitation in Mechanics from Leibniz Universitaet in Hannover, Germany in 2002.
His main research interests are in micromechanical material design, particulate flow and the mechanics of high-strength fabric, with emphasis on computational approaches for nonconvex multiscale-multiphysics inverse problems, particularly addressing the crucial issue of how large numbers of microconstituents interact to produce macroscale aggregate behavior. He has published over 85 archival refereed journal papers and four books.
In 2000, he received the Zienkiewicz Prize and Medal and in 2003,
he received the Junior Achievement Award from the American Academy of Mechanics. He is a Fellow of the United States Association for Computational Mechanics (USACM) and the International Association for Computational Mechanics (IACM), and is currently Vice-President of USACM, and will become USACM President in 2012.
the Department of Mechanical Engineering and Chair of the Engineering Science Program at UC Berkeley.
He received his Ph.D. in 1997 in Computational and Applied Mathematics from UT Austin and his Habilitation in Mechanics from Leibniz Universitaet in Hannover, Germany in 2002.
His main research interests are in micromechanical material design, particulate flow and the mechanics of high-strength fabric, with emphasis on computational approaches for nonconvex multiscale-multiphysics inverse problems, particularly addressing the crucial issue of how large numbers of microconstituents interact to produce macroscale aggregate behavior. He has published over 85 archival refereed journal papers and four books.
In 2000, he received the Zienkiewicz Prize and Medal and in 2003,
he received the Junior Achievement Award from the American Academy of Mechanics. He is a Fellow of the United States Association for Computational Mechanics (USACM) and the International Association for Computational Mechanics (IACM), and is currently Vice-President of USACM, and will become USACM President in 2012.
Textul de pe ultima copertă
The objective of this monograph is to provide a concise introduction to the dynamics of systems comprised of charged small-scale particles. Flowing, small-scale, particles ("particulates'') are ubiquitous in industrial processes and in the natural sciences. Applications include electrostatic copiers, inkjet printers, powder coating machines, etc., and a variety of manufacturing processes. Due to their small-scale size, external electromagnetic fields can be utilized to manipulate and control charged particulates in industrial processes in order to achieve results that are not possible by purely mechanical means alone. A unique feature of small-scale particulate flows is that they exhibit a strong sensitivity to interparticle near-field forces, leading to nonstandard particulate dynamics, agglomeration and cluster formation, which can strongly affect manufactured product quality.
This monograph also provides an introduction to the mathematically-related topic of the dynamics of swarms of interacting objects, which has gained the attention of a number of scientific communities. In summary, the following topics are discussed in detail:
(1) Dynamics of an individual charged particle,
(2) Dynamics of rigid clusters of charged particles,
(3) Dynamics of flowing charged particles,
(4) Dynamics of charged particle impact with electrified surfaces and
(5) An introduction to the mechanistic modeling of swarms.
The text can be viewed as a research monograph suitable for use in an upper division undergraduate or first year graduate course geared towards students in the applied sciences, mechanics and mathematics that have an interest in the analysis of particulate materials.
This monograph also provides an introduction to the mathematically-related topic of the dynamics of swarms of interacting objects, which has gained the attention of a number of scientific communities. In summary, the following topics are discussed in detail:
(1) Dynamics of an individual charged particle,
(2) Dynamics of rigid clusters of charged particles,
(3) Dynamics of flowing charged particles,
(4) Dynamics of charged particle impact with electrified surfaces and
(5) An introduction to the mechanistic modeling of swarms.
The text can be viewed as a research monograph suitable for use in an upper division undergraduate or first year graduate course geared towards students in the applied sciences, mechanics and mathematics that have an interest in the analysis of particulate materials.
Caracteristici
Latest research on Dynamics of Charged Particulate Systems Presents Modeling, Theory and Computation Written by a leading expert in the field Includes supplementary material: sn.pub/extras