Microsystems Dynamics: Science and Engineering) (Intelligent Systems, Control and Automation: Science and Engineering, Band 44) - Softcover
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Inhaltsangabe
In recent years microelectromechanical systems (MEMS) have emerged as a new technology with enormous application potential. MEMS manufacturing techniques are essentially the same as those used in the semiconductor industry, therefore they can be produced in large quantities at low cost. The added benefits of lightweight, miniature size and low energy consumption make MEMS commercialization very attractive. Modeling and simulation is an indispensable tool in the process of studying these new dynamic phenomena, development of new microdevices and improvement of the existing designs. MEMS technology is inherently multidisciplinary since operation of microdevices involves interaction of several energy domains of different physical nature, for example, mechanical, fluidic and electric forces. Dynamic behavior of contact-type electrostatic microactuators, such as a microswitches, is determined by nonlinear fluidic-structural, electrostatic-structural and vibro-impact interactions. The latter is particularly important: Therefore it is crucial to develop accurate computational models for numerical analysis of the aforementioned interactions in order to better understand coupled-field effects, study important system dynamic characteristics and thereby formulate guidelines for the development of more reliable microdevices with enhanced performance, reliability and functionality.
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Über die Autorin bzw. den Autor
Prof. Vytautas Ostasevicius is currently a Director of the Institute of Mechatronics at Kaunas University of Technology, Kaunas, Lithuania. His research interest are on microsystems dynamics, biomechanical systems research and innovative devices for health development. Dr. Giedrius Janusas is currently an associated professor at Kaunas University of Technology, Kaunas, Lithuania. His research interest are on biomechanical systems, MEMS, PZT composite materials, periodic microstructures and holography. Prof. Arvydas Palevicius is currently a professor at Kaunas University of Technology, Kaunas, Lithuania. His research interest are on microsystems engineering, biomechanical systems, PZT composite materials and photonics. Dr. Rimvydas Gaidys is currently a professor at Kaunas University of Technology, Kaunas, Lithuania. His research interest are on mathematical models, optimization and simulation of coupled physical problems. Dr.Vytautas Jurenas is currently a chief researcher at Kaunas University of Technology, Kaunas, Lithuania. His research interest are on piezomechanics, dynamics and control of structural vibration.
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In recent years microelectromechanical systems (MEMS) have emerged as a new technology with enormous application potential. MEMS manufacturing techniques are essentially the same as those used in the semiconductor industry, therefore they can be produced in large quantities at low cost. The added benefits of lightweight, miniature size and low energy consumption make MEMS commercialization very attractive. Modeling and simulation is an indispensable tool in the process of studying these new dynamic phenomena, development of new microdevices and improvement of the existing designs. MEMS technology is inherently multidisciplinary since operation of microdevices involves interaction of several energy domains of different physical nature, for example, mechanical, fluidic and electric forces. Dynamic behavior of contact-type electrostatic microactuators, such as a microswitches, is determined by nonlinear fluidic-structural, electrostatic-structural and vibro-impact interactions. The latter is particularly important: Therefore it is crucial to develop accurate computational models for numerical analysis of the aforementioned interactions in order to better understand coupled-field effects, study important system dynamic characteristics and thereby formulate guidelines for the development of more reliable microdevices with enhanced performance, reliability and functionality.
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