Volume 16, Issue 11 (2017)                   Modares Mechanical Engineering 2017, 16(11): 165-176 | Back to browse issues page

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Hosseini M, Zandi Baghche Maryam A. Static and dynamic analysis of nano-tube conveying fluid under electrostatic actuation. Modares Mechanical Engineering. 2017; 16 (11) :165-176
URL: http://journals.modares.ac.ir/article-15-9373-en.html
Abstract:   (1592 Views)
In this research, based on nonlocal elasticity theory, static and dynamic analysis of an elastic homogeneous nanotube conveying fluid with clamped - clamped boundary conditions is investigated. The nanotube is under electrostatic actuation and magnetic field with considering the surface effects, mechanical and thermal force. Transverse displacement of the nanotube consists of two parts static and dynamic displacement. In this study, the static displacement is calculated by using the weighted residual method and instability and vibration frequency is analyzed by applying the generalized differential quadrature method. By applying a voltage greater than the critical value (called Pull - in voltage) the nanotube may undergo instability. In this investigation, the effect of various parameters such as velocity of fluid, length scale parameter, magnetic field, electrostatically voltage, effects of surface layer and thermal loading on the static displacements, natural frequency and Pull - in voltage of the nanotubes conveying fluid has been studied. Finally, the validity of the results by comparing them with the results of the numerical methods in previous research is investigated, in which there is very good agreement between the results of the present work and previous studies. The results show that the length scale parameter is significant parameter in the system's Pull - in voltage and its increasing lead to decreasing the Pull - in voltage. Also, it is shown that the dimensionless frequency and the static displacements, respectively, is decreased and increased with increases in the applied voltage.
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Article Type: Research Article | Subject: Vibration
Received: 2016/07/12 | Accepted: 2016/09/24 | Published: 2016/10/30

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