Investigation of Nonlinear Thermo-Elastic Behavior of Fluid Conveying Piezoelectric Microtube Reinforced by Functionally Distributed Carbon Nanotubes on Viscoelastic-Hetenyi Foundation

IF 1.5 Q3 MECHANICS
M. Azhdarzadeh, R. Jahangiri, A. Allahverdizadeh, B. Dadashzadeh, Ramin Nabati
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引用次数: 0

Abstract

In this paper, nonlinear and nonlocal thermo-elastic behavior of a microtube reinforced by Functionally Distributed Carbon Nanotubes, with internal and external piezoelectric layers, in the presence of nonlinear viscoelastic-Hetenyi foundation, and axial fluid flow inside the microtube is studied. Nonlinear partial differential equations governing the system are derived using Reddy’s third-order shear deformations theory along with the Von-Karman theory including the effect of fluid viscosity. Then, the equations are converted to time-dependent ordinary nonlinear equations using the Galerkin method. Afterward, the governing equations of the microtube’s lateral displacements are solved using the multiple scales method. The analysis of the piezoelectric’s parametric resonance is performed by obtaining trivial and nontrivial stationary solutions and plotting characteristic curves of the frequency response and voltage response. At the end, the effect of different parameters including the flow velocity, excitation voltage, parameters of the foundation, viscosity parameter, thermal loading and nanotubes’ volume fraction index on the nonlinear behavior of the system, under parametric resonance condition, is investigated.
粘弹性Hetenyi地基上功能分布碳纳米管增强流体输送压电微管的非线性热弹性行为研究
本文研究了具有内外压电层的功能分布碳纳米管增强微管在非线性粘弹性Hetenyi地基和微管内轴向流体流动条件下的非线性和非局部热弹性行为。利用Reddy的三阶剪切变形理论和Von-Karman理论,包括流体粘度的影响,导出了控制系统的非线性偏微分方程。然后,利用Galerkin方法将方程转化为含时的常非线性方程。然后,采用多尺度方法求解了微管横向位移的控制方程。通过获得平凡和非平凡的稳态解并绘制频率响应和电压响应的特性曲线,对压电体的参数谐振进行了分析。最后,研究了在参数共振条件下,流速、激励电压、基础参数、粘度参数、热载荷和纳米管体积分数指数等不同参数对系统非线性行为的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.70
自引率
8.30%
发文量
0
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