卫星蜂窝夹层板结构动力学有限元模型修正

Q1 Arts and Humanities

International Journal of Space Structures Pub Date : 2021-03-19 DOI:10.1177/09560599211001683

A. Aborehab, M. Kamel, A. F. Nemnem, M. Kassem

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引用次数: 6

摘要

蜂窝夹层结构由于其特殊的力学性能，在航空航天工业中，特别是在卫星结构的设计中发挥着至关重要的作用。通过三层夹层理论的模态分析，初步提出了这种结构的等效有限元建模方法。随后，通过实验模态试验验证了计算结果。此外，基于实验设计和参数相关性进行灵敏度分析，以便为优化问题选择最合适的设计参数。最后，采用遗传算法、自适应多重优化算法和响应面法三种优化算法对蜂窝夹芯板的有限元模型进行了更新。在前面提到的优化算法之间获得了良好的一致性。同时，响应面方法及其相关的实验工具设计成功地避免了这种耗时的过程，并以可接受的精度降低了所涉及的计算费用。

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Finite element model updating of a satellite honeycomb sandwich plate in structural dynamics

The honeycomb sandwich structures have a crucial participation in aerospace industry, especially in the design of satellite structures due to their exceptional mechanical properties. The equivalent finite element modeling of such structures is initially presented through the implementation of modal analysis via the three-layered sandwich theory. Subsequently, the computational results are validated by carrying out an experimental modal testing. In addition, sensitivity analysis based upon design of experiments and parameters correlation, is executed for the sake of selecting the most appropriate design parameters for the optimization problem. Finally, finite element model updating of a honeycomb sandwich plate is thoroughly introduced using three optimization algorithms including genetic algorithms, adaptive-multiple optimization, and response surface method. A good agreement between the previously-mentioned optimization algorithms is obtained. Meanwhile, response surface method and its related design of experiments tool succeed in avoiding such time-consuming process and reduce the involved computational expense with an acceptable accuracy.

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来源期刊

International Journal of Space Structures Arts and Humanities-Conservation

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The aim of the journal is to provide an international forum for the interchange of information on all aspects of analysis, design and construction of space structures. The scope of the journal encompasses structures such as single-, double- and multi-layer grids, barrel vaults, domes, towers, folded plates, radar dishes, tensegrity structures, stressed skin assemblies, foldable structures, pneumatic systems and cable arrangements. No limitation on the type of material is imposed and the scope includes structures constructed in steel, aluminium, timber, concrete, plastics, paperboard and fabric.