Comparative study of dynamically equivalent modeling methods for honeycomb sandwich structure: Numerical simulations and experiments

Ning Guo; Hao Chen; Zhong Zhang; Fei Du; Chao Xu

doi:10.5194/ms-11-317-2020

Comparative study of dynamically equivalent modeling methods for honeycomb sandwich structure: Numerical simulations and experiments

Ning Guo, Hao Chen, Zhong Zhang, Fei Du, Chao Xu

School of Astronautics

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The structure of the lightweight honeycomb sandwich panel is complex. Thus, establishing an equivalent simplified model is indispensable to improve the efficiency of the dynamic analysis of honeycomb sandwich panels. In this paper, three commonly used dynamically equivalent modeling methods for honeycomb sandwich panel are studied: a dynamically equivalent method based on laminated plate theory, a single-layer plate equivalent method based on the theory of Hoff (1948), and an improved equivalent method based on Allen (1969). Using theoretical study, numerical simulations, and experiments, the applicability of these equivalent methods and the effect of design parameters on the dynamic characteristics are studied, and the optimal dynamically equivalent method for honeycomb sandwich panels is obtained.

Original language	English
Pages (from-to)	317-328
Number of pages	12
Journal	Mechanical Sciences
Volume	11
Issue number	2
DOIs	https://doi.org/10.5194/ms-11-317-2020
State	Published - 11 Sep 2020

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title = "Comparative study of dynamically equivalent modeling methods for honeycomb sandwich structure: Numerical simulations and experiments",

abstract = "The structure of the lightweight honeycomb sandwich panel is complex. Thus, establishing an equivalent simplified model is indispensable to improve the efficiency of the dynamic analysis of honeycomb sandwich panels. In this paper, three commonly used dynamically equivalent modeling methods for honeycomb sandwich panel are studied: a dynamically equivalent method based on laminated plate theory, a single-layer plate equivalent method based on the theory of Hoff (1948), and an improved equivalent method based on Allen (1969). Using theoretical study, numerical simulations, and experiments, the applicability of these equivalent methods and the effect of design parameters on the dynamic characteristics are studied, and the optimal dynamically equivalent method for honeycomb sandwich panels is obtained.",

author = "Ning Guo and Hao Chen and Zhong Zhang and Fei Du and Chao Xu",

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AU - Guo, Ning

AU - Chen, Hao

AU - Zhang, Zhong

AU - Du, Fei

AU - Xu, Chao

PY - 2020/9/11

Y1 - 2020/9/11

N2 - The structure of the lightweight honeycomb sandwich panel is complex. Thus, establishing an equivalent simplified model is indispensable to improve the efficiency of the dynamic analysis of honeycomb sandwich panels. In this paper, three commonly used dynamically equivalent modeling methods for honeycomb sandwich panel are studied: a dynamically equivalent method based on laminated plate theory, a single-layer plate equivalent method based on the theory of Hoff (1948), and an improved equivalent method based on Allen (1969). Using theoretical study, numerical simulations, and experiments, the applicability of these equivalent methods and the effect of design parameters on the dynamic characteristics are studied, and the optimal dynamically equivalent method for honeycomb sandwich panels is obtained.

AB - The structure of the lightweight honeycomb sandwich panel is complex. Thus, establishing an equivalent simplified model is indispensable to improve the efficiency of the dynamic analysis of honeycomb sandwich panels. In this paper, three commonly used dynamically equivalent modeling methods for honeycomb sandwich panel are studied: a dynamically equivalent method based on laminated plate theory, a single-layer plate equivalent method based on the theory of Hoff (1948), and an improved equivalent method based on Allen (1969). Using theoretical study, numerical simulations, and experiments, the applicability of these equivalent methods and the effect of design parameters on the dynamic characteristics are studied, and the optimal dynamically equivalent method for honeycomb sandwich panels is obtained.

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SP - 317

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JO - Mechanical Sciences

JF - Mechanical Sciences

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ER -

Comparative study of dynamically equivalent modeling methods for honeycomb sandwich structure: Numerical simulations and experiments

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