星形辅助矩形板自由振动的数学建模

IF 2.2 3区 工程技术 Q2 MECHANICS
N. Mohandesi, M. Talebitooti, M. Fadaee
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引用次数: 0

摘要

本文研究了辅助矩形板在平面压缩下的振动特性。首先,利用卡斯提利亚诺定理和均质化技术得到了星形辅助板的等效弯曲刚度矩阵。然后,利用经典板理论(CPT)结合雷利-里兹方法,提取了辅助板的固有频率。选择了切比雪夫多项式序列来定义板的假定位移场。对 Rayleigh-Ritz 方法进行了收敛性研究。利用有限元分析(FEA)的结果验证了所提出的星形辅助板数学模型的准确性。研究了单元几何参数对板固有频率的影响。星形图案的辅助角对固有频率有显著影响。本方法可扩展到其他辅助图案,例如重入式弓形辅助图案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mathematical modeling of free vibration of star-shaped auxetic rectangular plate

Mathematical modeling of free vibration of star-shaped auxetic rectangular plate

This paper dealt with the vibration characteristics of an auxetic rectangular plate under in-plane compression. Firstly, the equivalent bending stiffness matrix of a star-shaped auxetic plate was obtained using Castigliano's theorem and the homogenization technique. Then, employing the classical plate theory (CPT) in conjunction with the Rayleigh–Ritz method, the natural frequencies of auxetic plate were extracted. The chebyshev polynomial series has been selected to define the assumed displacement fields of the plate. Convergence study for the Rayleigh–Ritz method was conducted. The accuracy of the proposed mathematical model for the star-shaped auxetic plate was validated using the results from a finite element analysis (FEA). Effects of unit cell geometric parameters on the natural frequencies of the plate were examined. The auxeticity angle of star-shaped pattern had a significant effect on the natural frequencies. The present approach can be extended into other auxetic patterns, such as re-entrant bowtie auxetics.

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来源期刊
CiteScore
4.40
自引率
10.70%
发文量
234
审稿时长
4-8 weeks
期刊介绍: Archive of Applied Mechanics serves as a platform to communicate original research of scholarly value in all branches of theoretical and applied mechanics, i.e., in solid and fluid mechanics, dynamics and vibrations. It focuses on continuum mechanics in general, structural mechanics, biomechanics, micro- and nano-mechanics as well as hydrodynamics. In particular, the following topics are emphasised: thermodynamics of materials, material modeling, multi-physics, mechanical properties of materials, homogenisation, phase transitions, fracture and damage mechanics, vibration, wave propagation experimental mechanics as well as machine learning techniques in the context of applied mechanics.
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