An isogeometric approach to static and transient analysis of fluid-infiltrated porous metal foam piezoelectric nanoplates with flexoelectric effects and variable nonlocal parameters

IF 2.9 3区工程技术 Q2 ENGINEERING, CIVIL Frontiers of Structural and Civil Engineering Pub Date : 2024-05-30 DOI:10.1007/s11709-024-1061-7

Quoc-Hoa Pham, Van Ke Tran, Phu-Cuong Nguyen

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Abstract

In this work, a novel refined higher-order shear deformation plate theory is integrated with nonlocal elasticity theory for analyzing the free vibration, bending, and transient behaviors of fluid-infiltrated porous metal foam piezoelectric nanoplates resting on Pasternak elastic foundation with flexoelectric effects. Isogeometric analysis (IGA) and the Navier solution are applied to the problem. The innovation in the present study is that the influence of the inplane variation of the nonlocal parameter on the free and forced vibration of the piezoelectric nanoplates is investigated for the first time. The nonlocal parameter and material characteristics are assumed to be material-dependent and vary gradually over the thickness of structures. Based on Hamilton’s principle, equations of motion are built, then the IGA approach combined with the Navier solution is used to analyze the static and dynamic response of the nanoplate. Lastly, we investigate the effects of the porosity coefficients, flexoelectric parameters, elastic stiffness, thickness, and variation of the nonlocal parameters on the mechanical behaviors of the rectangular and elliptical piezoelectric nanoplates.

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对具有挠电效应和可变非局部参数的流体渗入多孔金属泡沫压电纳米板进行静态和瞬态分析的等几何方法

在这项研究中，一种新颖的精炼高阶剪切变形板理论与非局部弹性理论相结合，用于分析流体浸润多孔金属泡沫压电纳米板在帕斯捷尔纳克弹性地基上的自由振动、弯曲和瞬态行为。该问题采用了等几何分析（IGA）和纳维耶解法。本研究的创新之处在于首次研究了非局部参数平面内变化对压电纳米板自由振动和受迫振动的影响。假定非局部参数和材料特性与材料有关，并随结构厚度逐渐变化。根据汉密尔顿原理，建立了运动方程，然后使用 IGA 方法结合 Navier 解法分析了纳米板的静态和动态响应。最后，我们研究了孔隙率系数、柔电参数、弹性刚度、厚度和非局部参数变化对矩形和椭圆形压电纳米板力学行为的影响。

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来源期刊

Frontiers of Structural and Civil Engineering Engineering-Architecture

CiteScore

5.20

自引率

3.30%

发文量

734

期刊介绍： Frontiers of Structural and Civil Engineering is an international journal that publishes original research papers, review articles and case studies related to civil and structural engineering. Topics include but are not limited to the latest developments in building and bridge structures, geotechnical engineering, hydraulic engineering, coastal engineering, and transport engineering. Case studies that demonstrate the successful applications of cutting-edge research technologies are welcome. The journal also promotes and publishes interdisciplinary research and applications connecting civil engineering and other disciplines, such as bio-, info-, nano- and social sciences and technology. Manuscripts submitted for publication will be subject to a stringent peer review.