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Log In. Paper Titles. Foreword, Committees, Acknowledgements and Sponsor. Advances in Microscale and Nanoscale Mechanisms of Article Preview. Abstract: The processing of ceramic thick and thin films, nano- and micro-scaled ceramic structures as well as bulk ceramics of high quality and precise dimensions under electrophoretic boundary conditions requires a full understanding of the dynamics of relevant interfacial mechanisms and interactions of colloidal phases at the nano- and micro-scale.
Add to Cart. Key Engineering Materials Volume Main Theme:. Electrophoretic Deposition: Fundamentals and Applications V. Edited by:. Boccaccini, J. Dickerson, B. Ferrari, O. Van der Biest and T.
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Microscale and nanoscale heat transfer : fundamentals and engineering applications
Abstract: A novel micro-fabrication technique for particle assembly has been performed by an electrophoretic deposition EPD method using a local electric field in a colloidal suspension generated by a microelectrode. Monodispersed polystyrene microspheres with diameters of , , and nm were used in this study. Abstract: Electrophoretic deposition EPD is a potential-enhanced technique for fabricating near-netshaped geometries. Its advantage is the independence of particle velocity from particle size so that optimum package densities are achieved by using powder mixtures.
If the deposit is formed on a membrane that is located between the two electrodes, aqueous suspensions can be used because the formation of bubbles caused by the electrolytic decomposition of water and the deposition are separated in space. In the present study, the geometry for an electrode for the use with a CAM system is theoretically developed by simulating the distribution of the electric field in EPD and finally fabricated in order to investigate its deposition properties. First of all, spot-wise deposits are fabricated on a membrane so that theoretical predictions and experimental results can be compared.
Secondly, a translative motion of the electrode along the membrane is controlled by a CAM system. The so fabricated two-dimensional structures are rectangles and circles whereas the fineness as well as the structural integrity are investigated. This approach will be further developed in future to enable the fast fabrication of individual geometries with excellent green body properties.
The book is an outcome of research work in the areas of nanotechnology, interfacial science, nano- and micro-fluidics and manufacturing, soft matter, and transport phenomena at nano- and micro-scales. The book has 13 chapters and the entire work presented in the chapters is based on research carried out over past three years.
The chapters are designed with number of coloured illustrations, figures and tables. The book will be highly beneficial to academicians as well as industrial professionals working in the mentioned areas.
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Yogesh M. Joshi is a Professor and P.
He obtained B. His current research interests are thixotropy, rheological behavior of glasses and gels, phase behavior clay suspensions, and electrorheology.
Khandekar completed Masters Degree from IIT Kanpur, India in with specialization in fluid-thermal engineering and subsequently earned doctoral degree from the University of Stuttgart, Germany Earlier, after his undergraduate studies in Mechanical Engineering from Government Engineering College, Jabalpur MP in , he worked as a marine power plant engineer on board sea-going merchant vessels for four years Khandekar is a recipient of P.
He is a member of the International Heat Pipe Committee since and editorial board member of two international journals on science and technology of heat pipes. He has served as an academic senate member of one centrally funded institute and one state funded autonomous engineering institute. Khandekar has also served as an international invited faculty member at four universities in Germany, France, Brazil and Thailand.
His current research interests are in experimental microscale phase-change passive thermo-fluidic systems, boiling and condensation, pulsating heat pipes and energy systems.
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