Size Effect on the Axisymmetric Vibrational Response of Functionally Graded Circular Nano-Plate Based on the Nonlocal Stress-Driven Method

Q4 Chemical Engineering Applied and Computational Mechanics Pub Date : 2021-09-21 DOI:10.22055/JACM.2021.38131.3159
M. Shariati, M. Shishesaz, R. Mosalmani, S. A. S. Roknizadeh
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引用次数: 6

Abstract

In this work, the axisymmetric-vibrational behavior of a size-dependent circular nano-plate with functionally graded material with different types of boundary conditions was investigated. The analysis was performed based on the Stress-driven model (SDM) and Strain-gradient theory (SGT) in conjunction with classical plate theory. The governing equations of motion and their corresponding equations for boundary conditions were obtained based on Hamilton’s principle and solved using the generalized differential quadrature rule. Results show that this method is applicable to the vibrational analysis of such structures with a fast convergence rate; as N approaches 6 for the first mode, and 10 for the second as well as the third and fourth modes, regardless of the type of boundary condition. In both models, the influences of various parameters such as size-effect parameter Lc, material heterogeneity index n, and types of boundary conditions were obtained on the first four modes and compared with each other. Results indicate that the natural frequencies in these modes increase with an increase in the heterogeneity index n, and size-effect parameter Lc. Additionally, these parameters appear to have a stiffening effect on the nano-plate vibrational behavior. However, for a nano-plate resting on a knife or simply supported edge, in the first mode, the SDM shows a more stiffening effect on the plate behavior as compared with the SGT. Nonetheless, for the clamped and free edge boundary conditions, both models predicted the same behavior. The SGT showed a higher-stiffening effect only in the fourth mode, for all types of considered boundary conditions.
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基于非局部应力驱动法的功能梯度圆形纳米板轴对称振动响应的尺寸效应
本文研究了具有不同边界条件的功能梯度材料的尺寸相关圆形纳米板的轴对称振动行为。基于应力驱动模型(SDM)和应变梯度理论(SGT),结合经典板理论进行分析。根据哈密顿原理得到了运动控制方程及其相应的边界条件方程,并利用广义微分求积法则进行了求解。结果表明,该方法适用于此类结构的振动分析,收敛速度快;对于第一模态,N趋近于6,对于第二、第三和第四模态,无论边界条件的类型如何,N趋近于10。在两种模型中,分别得到了尺寸效应参数Lc、材料非均质性指数n、边界条件类型等参数对前四种模态的影响,并进行了比较。结果表明,随着非均质性指数n和尺寸效应参数Lc的增加,这些模态的固有频率增加。此外,这些参数似乎对纳米板的振动行为有加强作用。然而,对于放置在刀或简单支撑边缘上的纳米板,在第一种模式下,与sgt相比,SDM对板的行为表现出更强的刚度效应。尽管如此,对于夹紧和自由边缘边界条件,两种模型预测的行为相同。对于所有考虑的边界条件类型,SGT仅在第四种模式下显示出更高的加筋效果。
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来源期刊
Applied and Computational Mechanics
Applied and Computational Mechanics Engineering-Computational Mechanics
CiteScore
0.80
自引率
0.00%
发文量
10
审稿时长
14 weeks
期刊介绍: The ACM journal covers a broad spectrum of topics in all fields of applied and computational mechanics with special emphasis on mathematical modelling and numerical simulations with experimental support, if relevant. Our audience is the international scientific community, academics as well as engineers interested in such disciplines. Original research papers falling into the following areas are considered for possible publication: solid mechanics, mechanics of materials, thermodynamics, biomechanics and mechanobiology, fluid-structure interaction, dynamics of multibody systems, mechatronics, vibrations and waves, reliability and durability of structures, structural damage and fracture mechanics, heterogenous media and multiscale problems, structural mechanics, experimental methods in mechanics. This list is neither exhaustive nor fixed.
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