Applications of VAM-based homogenization model in free and forced vibrations of sandwich plates with bowtie-shaped auxetic core

To investigate the dynamic characteristics of composite sandwich plates (CSPs) with bowtie-shaped auxetic cores (bowtie CSPs), a two-dimensional homogenization plate model (2D-HPM) was developed using variational asymptotic method (VAM). The novelty is that the equivalent stiffness is obtained by ho...

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Bibliographic Details
Published in:Composite structures 2023-06, Vol.314, p.116967, Article 116967
Main Authors: Zhang, Mingtao, Zhong, Yifeng, Liu, Xiaoquan, Liu, Rong
Format: Article
Language:English
Subjects:
Bowtie-shaped auxetic core
Composite sandwich plate
Equivalent stiffness
Free and forced vibration
Variational asymptotic method
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Summary:To investigate the dynamic characteristics of composite sandwich plates (CSPs) with bowtie-shaped auxetic cores (bowtie CSPs), a two-dimensional homogenization plate model (2D-HPM) was developed using variational asymptotic method (VAM). The novelty is that the equivalent stiffness is obtained by homogenizing the typical unit cell, and is input into the 2D-HPM for free and forced vibration analysis. The accuracy of the 2D-HPM and the equivalent stiffnesses were verified by comparison with the results of the three-dimensional finite element model (3D-FEM). The effects of the negative Poisson’s ratio (NPR), layup configurations, and geometric parameters on the equivalent stiffness and dynamic characteristics of the bowtie CSP are discussed and compared with the results of sandwich plates with re-entrant or honeycomb cores. The comparison results showed that the bowtie CSP had lower natural frequencies due to the NPR effect. The dynamic characteristics of the bowtie CSP were closely related to the geometric size of the core cell and layup configurations of the facesheets. Furthermore, the 2D-HPM significantly improved the calculation efficiency while ensuring the accuracies of natural frequency and time-/frequency-domain response. The tailoring of unit cells in the present model provides a useful reference for the structural dynamic optimization of bowtie CSPs. •The 2D-HPM of bowtie CSPs is developed and verified by comparing with 3D-FEM results.•The vibration-induced local field distributions within the unit cell are well captured.•The influence of parameters on dynamic characteristics is systematically studied.•The increase of the height ratio can effectively reduce the vibration amplitude.•The natural frequency of NPR sandwich panels is significantly lower than that with PPR.
ISSN:0263-8223
DOI:10.1016/j.compstruct.2023.116967