Theoretical and numerical analysis of free vibrations of piezoelectric circular plate reinforced with boron nitride

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
Mohammad Hadi Moradi, Mehdi Ranjbar-Roeintan
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Abstract

Purpose The purpose of this research is to extract the natural frequencies of a circular plate containing a central hole reinforced with boron nitride nanotubes (BNNTs) and containing piezoelectric layers. Design/methodology/approach A unit cell shall be taken into account for the simulation of BNNT's volume fraction. A rectangular micromechanical model is used to obtain the mechanical properties of unit cell of piezoelectric fiber-reinforced composite (PFRC). The three-dimensional (3D) elasticity method is presented to provide the relationship between displacements and stresses. The one-dimensional differential quadrature method (1D-DQM) and the state-space methodology are combined to create the semi-analytical technique. The state-space approach is utilized to implement an analytical resolution in the thickness direction, and 1D-DQM is used to implement an approximation solution in the radial direction. The composite consists of a polyvinylidene fluoride (PVDF) matrix and BNNTs as reinforcement. Findings A study on the PFRC is carried, likewise, the coefficients of its properties are obtained using a micro-electromechanical model known as the rectangular model. To implement the DQM, the plate was radially divided into sample points, each with eight state variables. The boundary situation and DQM are used to discretize the state-space equations, and the top and bottom application surface conditions are used to determine the natural frequencies of the plate. The model's convergence is assessed. Additionally, the dimensionless frequency is compared to earlier works and ABAQUS simulation in order to validate the model. Finally, the effects of the thickness, lateral wavenumber, boundary conditions and BNNT volume fraction on the annular plate's free vibration are investigated. The important achievements are that increasing the volume fraction of BNNTs increases the natural frequency. Originality/value The micromechanical “XY rectangle” model in PFRC along with the three-dimensional elasticity model is used in this literature to assess how the piezoelectric capabilities of BNNTs affect the free vibration of polymer-based composite annular plates under various boundary conditions.
氮化硼增强压电圆板自由振动的理论与数值分析
本研究的目的是提取含有氮化硼纳米管(BNNTs)增强的中心孔和含有压电层的圆形板的固有频率。设计/方法学/方法模拟BNNT的体积分数时,应考虑到单体电池。采用矩形细观力学模型计算了压电纤维增强复合材料(PFRC)的单元胞的力学性能。提出了三维弹性方法,给出了位移和应力之间的关系。将一维微分正交法(1D-DQM)与状态空间法相结合,形成了半解析技术。利用状态空间方法在厚度方向上实现解析解,利用1D-DQM方法在径向方向上实现近似解。该复合材料由聚偏氟乙烯(PVDF)基体和bnnt作为增强剂组成。对PFRC进行了研究,同样,使用被称为矩形模型的微机电模型获得了其性能系数。为了实现DQM,将平板径向划分为样本点,每个样本点有8个状态变量。利用边界情况和DQM对状态空间方程进行离散化,利用顶、底应用面条件确定板的固有频率。评估了模型的收敛性。此外,将无量纲频率与前人的工作和ABAQUS仿真进行了比较,以验证模型的有效性。最后,研究了厚度、横向波数、边界条件和BNNT体积分数对环形板自由振动的影响。重要的成果是增加bnnt的体积分数可以提高固有频率。本文采用PFRC中的微观力学“XY矩形”模型和三维弹性模型来评估bnnt的压电性能在不同边界条件下如何影响聚合物基复合环形板的自由振动。
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
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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