Vibration Analysis of Nanocomposite FGM Microbeam under Electric Field Effect, using the Non-classical Strain Gradient Theory, M.Sc. Thesis Sharif University of Technology ; Ahmadian, Mohammad Taghi (Supervisor) ; Firoozbakhsh, Keikhosrow (Supervisor)
Abstract
Recently, micro-electromechanical systems have absorbed much attention due to their many applications in various industries, such as actuators, sensors, microswitches, and so on. These systems usually consist of a cantilever beam or a fixed-fixed beam in micro scale which can change shape under electrical force. In sensors and electrical actuators, Microbeams are under so much vibration that they undergo distortion and fracture in a short period of time. One way to prevent such phenomena is to use materials that have high flexibility during use and have a longer life span. In order to achieve this, the selection of nanocomposite microbeams which incorporate light materials as the matrix...
Cataloging briefVibration Analysis of Nanocomposite FGM Microbeam under Electric Field Effect, using the Non-classical Strain Gradient Theory, M.Sc. Thesis Sharif University of Technology ; Ahmadian, Mohammad Taghi (Supervisor) ; Firoozbakhsh, Keikhosrow (Supervisor)
Abstract
Recently, micro-electromechanical systems have absorbed much attention due to their many applications in various industries, such as actuators, sensors, microswitches, and so on. These systems usually consist of a cantilever beam or a fixed-fixed beam in micro scale which can change shape under electrical force. In sensors and electrical actuators, Microbeams are under so much vibration that they undergo distortion and fracture in a short period of time. One way to prevent such phenomena is to use materials that have high flexibility during use and have a longer life span. In order to achieve this, the selection of nanocomposite microbeams which incorporate light materials as the matrix...
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